SUSTAINABLE DEVELOPMENT FOCUS (SD FOCUS) Ltd. Sahel WAIS
Knowledge Campus, MDI Road, Kanifing
ENVIRONMENTAL AND SOCIAL IMPACT ASSESSMENT (ESIA) OF THE TRANSMISSION AND DISTRIBUTION NETWORK OF THE ECOWAS-
REGIONAL ELECTRICITY ACCESS PROJECT (REAP) FROM THE PROPOSED BRIKAMA SUB-STATION
SEPTEMBER 2020
Pub
lic D
iscl
osur
e A
utho
rized
Pub
lic D
iscl
osur
e A
utho
rized
Pub
lic D
iscl
osur
e A
utho
rized
Pub
lic D
iscl
osur
e A
utho
rized
i
Contents
LIST OF FIGURES ......................................................................................................................... x
EXECUTIVE SUMMARY ............................................................................................................. xi
CHAPTER 1: INTRODUCTION ................................................................................................ 1
1.1 Project Background ............................................................................................................... 1
1.2 The Project Development Objective (PDO) .................................................................... 2
1.3 Project Beneficiaries ....................................................................................................... 2
1.4 Rationale of the Project .................................................................................................. 2
1.5 Objectives of this ESIA Study .......................................................................................... 2
1.6 Consultant Responsible for this Study ............................................................................ 2
1.7 Methodological Approach for the ESIA .......................................................................... 3
CHAPTER 2: PROJECT DESCRIPTION AND SCOPE ....................................................................... 6
2.1 – Presentation of the Project Proponent .............................................................................. 6
2.1.1 Objectives of the Commission ........................................................................................ 6
2.1.2. Roles and Functions of the ECOWAS Commission ................................................................ 6
2.1.3. Organizations of the Commission ......................................................................................... 7
2.2 - Location of Project Sites ...................................................................................................... 7
2.2.1 Brief Description of OMVG Brikama Sub-station Site and Related Feeders .......................... 7
2.3 Technical Consistency of the Works ................................................................................. 29
2.3.1 Construction of 33/30 kV Medium Voltage (MV) Lines ..................................................... 29
2.3.2 Construction of distribution substations of 33/30 kV / 400 Volts (V) ................................. 30
2.3.3 Construction of 400 V Low Voltage (LV) lines ...................................................................... 30
2.3.4 Supply and Installation of Last-mile Connection Equipment, including Service Drops, Prepaid
Meters, and Ready Boards for LV customers ................................................................................ 30
CHAPTER 4: DESCRIPTION OF THE CURRENT STATE OF THE ENVIRONMENT OF THE PROJECT
AREA ......................................................................................................................................... 32
4.1 Geographic and administrative location of the project area ............................................ 32
4.2 Delimitation of the Study Area ........................................................................................... 33
4.3 Current State of the Environment of the Indirect Areas of Influence .......................... 10
I. The Physical Environment ............................................................................................ 10
i. Climatic Conditions ....................................................................................................... 10
ii. Hydrology ..................................................................................................................... 11
iii. Geology and Soils ......................................................................................................... 12
iv. Topography and Land Use ............................................................................................ 12
II. The Biological Environment ................................................................................................... 13
i. The Vegetation and Forest Resources .......................................................................... 13
ii
ii. Wetlands Along the Corridors ...................................................................................... 15
iii. The Fauna ..................................................................................................................... 16
2.4 Description of Activities by Project Phases .................................................................. 17
2.4.1 Description of Construction Works of the 33/30 kV Medium Voltage (MV) lines .............. 17
2.4.2 Description of Construction Works of the Distribution Sub-Stations .................................. 19
2.4.3 Description of Construction Works of the 400V Low Voltage Lines .................................... 20
2.4.4 Description of the Supply and Installation Works of the Last-mile Connection Equipment,
including Service Drops, Prepaid Meters, and Ready Boards for LV Customers .......................... 22
2.5 Works Input ........................................................................................................................ 22
2.5.1 Personnel ............................................................................................................................. 22
2.5.2 Water ................................................................................................................................... 23
2.5.3 Quarries ................................................................................................................................ 23
2.5.4 Equipment ............................................................................................................................ 23
2.6 Project Outputs ............................................................................................................ 23
2.7 Assessment of Project Alternatives .............................................................................. 23
CHAPTER 3: RELEVANT NATIONAL AND INTERNATIONAL POLICIES, LEGAL AND
INSTITUTIONAL FRAMEWORK ................................................................................................ 27
3.1 Relevant National Policies ........................................................................................... 27
3.2 The National Legal Framework ..................................................................................... 28
3.3 Relevant International Conventions and Agreements ................................................. 31
3.4 Institutional Analyses .................................................................................................. 27
3.5 Institutional Framework .............................................................................................. 27
3.6 Relevant Bank Policies ......................................................................................................... 33
3.7 Relevant ECOWAS Environmental and Social Safeguards triggered by the Project..... 34
III. Human and Socio-economic Environment ........................................................ 35
i. Demography and Population ........................................................................................ 35
ii. Physical Structures ....................................................................................................... 35
iii Schools and Other Infrastructure ................................................................................. 36
iv Chance Finds and Cultural Heritage and Archaeology ................................................ 36
v Disadvantaged and Vulnerable Groups ........................................................................ 36
vi Gender and Gender-Based Violence (GBV) .................................................................. 37
vii Violence Against Children (VAC) ................................................................................... 38
viii Access of the Population to Education ......................................................................... 38
ix Access of the Population to Electricity, Telephone Services ........................................ 39
4.4 Modes of Subsistence and Daily Chores in the Project’s Area of Influence ................. 39
i. Agricultural Production ................................................................................................ 39
iii
ii. Market Gardening ........................................................................................................ 40
iii. Marketing and Petty Trading and Shop keeping .......................................................... 41
iv. Tyre Repairing ............................................................................................................... 41
A tyre repair workshop is also located at the same area as Mr. Gaye’s business. His facility is made
from corrugated iron sheets, and with his team of assistants, repairs tyres under the existing line
as Mr. Gaye. He will also be impacted when the works start. ...................................................... 41
v. Harvesting Non-wood Forest Products ........................................................................ 41
vi. Firewood Collection ...................................................................................................... 41
vii. Livestock Rearing .......................................................................................................... 41
viii. Fishing ........................................................................................................................... 42
4.5 Description of Direct Influence Area and Location-Specific Baseline Conditions .............. 42
4.6Main Stakes and Risks of the Project .................................................................................. 42
CHAPTER 5: PUBLIC CONSULTATION ....................................................................................... 45
5.1 Objectives of the consultation............................................................................................. 45
5.2 Methodological Approach ............................................................................................ 45
5.3 Targeted Groups ........................................................................................................... 46
5.4 Opinions, concerns and fears of populations and PAPs ..................................................... 47
CHAPTER 6: ANALYSES OF POTENTIAL IMPACTS AND MITIGATION MEASURES.................... 48
6.1 Methodological Approach .................................................................................................. 48
6.1.1 Identification of the Main Sources of Potential Impacts of the Project on the Environment
...................................................................................................................................................... 48
6.1.2. The Environment and Social Components Affected by the Project ................................. 49
6.1.3 Identification of Potential Impacts ..................................................................................... 49
6.2 Evaluating the Significance of Potential Impacts ............................................................... 98
6.2.1 Nature of an Impact ............................................................................................................ 98
6.2.2 Types of Impacts.................................................................................................................. 98
6.2.3 Evaluation of Impact Severity / Significance ...................................................................... 98
6.3 Potential Impacts of the Pre-construction Phase ....................................................... 99
6.3.1 Potential Positive Impacts on the Biophysical Environment ..................................... 99
6.3.2 Potential Negative Impacts on the Biophysical Environment .................................... 99
6.3.3 Potential Positive Impacts on the Human Environment .......................................... 103
6.3.4 Potential Negative Impacts on the Human Environment ........................................ 104
6.4 Potential Impacts of the Construction Phase ........................................................... 106
6.4.1 Potential Positive Impacts on Biophysical Environment ............................................ 106
6.4.2 Negative Impacts on the Biophysical Environment .................................................... 106
6.4.3 Potential Positive Impacts on the Human Environment ............................................ 108
iv
6.4.4 Negative Impacts on Human Environment ................................................................ 109
6.5 Potential Impacts of Operation and Maintenance ..................................................... 111
6.5.1 Positive Impacts on Biophysical Environment ............................................................ 111
6.5.2 Negative Impacts on the Biophysical Environment .................................................... 111
6.5.3 Potential Positive Impacts on Human Environment .................................................. 112
6.5.4 Potential Negative Impacts on Human Environment ................................................. 113
6.6 Impacts of Decommissioning and Dismantling .......................................................... 114
6.6.1 Potential Positive Impacts on Biophysical Environment ............................................ 114
6.6.2 Negative Impacts on Biophysical Environment .......................................................... 114
6.6.3 Potential Positive Impacts on Human Environment .................................................. 114
6.6.4 Negative Impacts on Human Environment ................................................................ 114
6.8 Cummulative Impacts ................................................................................................ 115
CHAPTER 7: MANAGEMENT MEASURES OF THE POTENTIAL NEGATIVE IMPACTS ON THE
ENVIRONMENT ...................................................................................................................... 117
7.1 Enhancement Measures for Potential Positive Impacts ................................................. 117
7.1.1 Enhancement Measures for Positive Impacts During Pre-construction Phase: Human
Environment ............................................................................................................................... 117
7.1.2 Enhancement Measures for Positive Impacts During Construction Phase: Human
Environment ............................................................................................................................... 118
7.1.3 Enhancement Measures for Positive Impacts During Operation Phase: Biophysical
Environment ............................................................................................................................... 118
7.1.4 Enhancement Measures for Positive Impacts During Operation Phase: Human
Environment ............................................................................................................................... 118
7.1.5 Enhancement Measures for Positive Impacts During Decommissioning Phase: Biophysical
Environment ............................................................................................................................... 119
7.2 Impact Management during Pre-construction Phase ...................................................... 119
7.2.1 – Mitigation Measures of the Negative Impacts on the Biophysical Environment ..... 119
7.3 Impact Management during Pre-construction Phase ...................................................... 124
7.3.1 Mitigation Measures of the Potential Negative Impacts on the Human Environment
124
7.4 Potential Impact management during the construction phase ...................................... 129
7.4.1 Mitigation Measures of the Potential Negative Impacts on the Biophysical Environment
.................................................................................................................................................... 129
7.4.2 Mitigation Measures of the Negative Impacts on the Human Environment .................. 131
7.5 Impact Management during the Operation and Maintenance Phase ............................ 136
7.5.1 Mitigation Measures of the Negative Impacts on the Biophysical Environment ........... 136
7.5.2 Mitigation Measures of the Negative Impacts on the Human Environment .................. 136
7.6 Impact Management during the Decommissioning Phase ............................................. 138
v
7.6.1 Mitigation Measures of the Negative Impacts on the Biophysical Environment ........... 138
7.6.2 Mitigation Measures of the Negative Impacts on the Human Environment .................. 139
7.7 Mitigation of Potential Cumulative Impacts .................................................................... 142
CHAPTER 8: MANAGEMENT OF RISKS AND ACCIDENTS ...................................................... 142
8.1 Methodological Approach for Hazards and Risks Identification ..................................... 143
8.1.1 Objectives of the Risk Assessment and Management ..................................................... 143
8.1.2 Methodology ..................................................................................................................... 143
8.1.3 Risk Identification.............................................................................................................. 144
8.2 Risk Analysis ...................................................................................................................... 101
8.3 Mitigation of Risks ............................................................................................................ 108
8.4 Training.............................................................................................................................. 108
8.5 Emergency Response in Case of Incidents ....................................................................... 108
8.6 Health and Safety Reporting and Recording .................................................................... 109
8.7 Health and Safety Monitoring .......................................................................................... 109
CHAPTER 9: ENVIRONMENTAL AND SOCIAL MANAGEMENT PLAN ..................................... 110
9.1 Objectives of The ESMP ..................................................................................................... 110
9.2 ESMP Implementation and Monitoring Arrangements ..................................................... 110
9.2.1 Roles and Responsibilities for ESMP Implementation ............................................... 110
Specific Roles and Responsibilities of Project Personnel ............................................................ 112
9.2.2 Institutional Training and Sensitization ............................................................................. 114
9.2.3 Monitoring .................................................................................................................. 116
9.2.4 Reporting ............................................................................................................................ 123
9.2.5 Environmental Auditing ..................................................................................................... 123
9.2.6 Budget for Implementation of the ESMP ........................................................................... 123
9.3 Matrix on the Mitigation of the Identified Potential Negative Impacts ............................ 124
CONCLUSION ......................................................................................................................... 143
BIBLIOGRAPHY ....................................................................................................................... 144
Appendix 1: Brikama Feeders 1 and 2 Corridors ..................................................................... 146
vi
Appendix 1.1: Brikama Feeder 3 Corridors – Sheet 1
.................................................................................................................................... 147
Appendix 1.2: Brikama Feeder 3 Corridors – Sheet 2 ............................................................. 148
Appendix 2: Communities Along the Brikama Feeders ........................................................... 146
Appendix 3: List of Corridors under the Brikama Substation Feeders .................................... 150
Appendix 4: Location-Specific Baseline Environmental Conditions along the Brikama
Transmission Corridors ............................................................................................... 151
Appendix 5: Chance Find Procedures ...................................................................................... 160
Appendix 6: Summary of Comments and Views expressed at the Consultations .................. 161
Appendix 7: List of Persons Met .............................................................................................. 165
Appendix 8: Codes of Conduct and Action Plan For Implementing ESHS and OHS Standards, and
Preventing Gender Based Violence and Violence Against Children ........................... 178
Appendix 9: The Existing Memoradum Between NAWEC and the Department of Forestry 201
Appendix 10: Technical Note: Public Consultations and Stakeholder Engagement in WB-
Supported Operations when there are Constraints on Conducting Public Meetings
.................................................................................................................................... 208
Appendix 11 PROTOCOL FOR CONSULTATION AND CIVIL WORKS UNDER COVID 19 ECOWAS
REGIONAL ELECTRICITY ACCESS PROJECT (ECOREAP) IN THE GAMBIA ................... 212
Appendix 12: Contract Clauses to be Included in Contractors’ Agreements ........................ 218
vii
Appendix 13: Modalities of the Proposed Grievance Redress Mechanism ............................ 223
Appendix 14: Flow Chart of Grievance Redress Process ...................................................... 225
225
viii
ABBREVIATIONS AND ACCRONYMS
AOI Area of Influence
BF Brikama Feeder
CBD Convention on Biological Diversity
CCD Convention to Combat Desertification
CEDAW Convention on the Elimination of All Forms of Discrimination Against Women
CRR Central River Region
CRR-N Central River Region-North
CRR-S Central River Region-South
DSA Deep Sandstone Aquifer
DOF Department of Forestry
DPWM Department of Parks and Wildlife Management
DPPH Department of Physical Planning and Housing
DWR Department of Water Resources
ECOWAS Economic Community of West African States
ECOWAS-REAP ECOWAS Regional Electricity Access Project
ECREEE ECOWAS Centre for Renewable Energy and Energy Efficiency ERERA ECOWAS Regional Electricity Regulatory Authority
ESHS Environmental Social Health and Safety
EIA Environmental Impact Assessment
ESIA Environmental and Social Impact Assessment
ESMP Environmental and Social Management Plan
ESS Environmental Safeguards Specialist
GBOS Gambia Bureau of Statistics
GBV Gender-Based Violence
GD Geology Department
GEAP Gambia Environment Action Plan
GERMP Gambia Electricity Restoration and Modernization Project
GIS Geographic Information System
GoTG Government of The Gambia
GPS Global Positioning System
GRM Grievance Redress Mechanism
HIV/AIDS Human Immune Deficiency Virus/Acquired Immune Deficiency Syndrome
IDA International Development Association
IUCN International Union for Conservation of Nature
kV Kilovolts
LHS Left Hand Side
LRR Lower River Region
Ltd. Limited
LV Line Low Voltage
MOE Ministry of Energy
MOLRG Ministry of Lands and Regional Governments
M&ES Monitoring and Evaluation Specialist
MV Line Medium Voltage
NEA National Environment Agency
ix
NRA National Roads Authority
NAWEC National Water and Electricity Company
NBR North Bank Region
NCAC National Council for Arts and Culture
NEMA National Environment Management Act
NNP Niumi National Park
OHS Occupational Health and Safety
OMVG Organization pour la Mise en Valeur du Fleuve Gambie (French acronym for Gambia
River Basin Development Organization)
OMVS Organisation pour la Mise en Valeur du Fleuve Sénégal (French acronym for Senegal
River Basin Development Organization)
OP Operational Policy
PC Project Coordinator
PDO Project Development Objectives
PE Power Engineer
PIU Project Implementation Unit
PSC Project Steering Committee
PURA Public Utility Regulatory Authority
RAP Resettlement Action Plan
REAP Regional Electricity Access Project
RHS Right Hand Side
ROW Right of Way
SD focus Sustainable Development Focus
SEA Sexual Exploitation and Abuse
SF Soma Feeder
SH Sexual Harassment
SOP Series of Projects
SSA Shallow Sand Aquifer
SSS Social Safeguards Specialist
STD Sexually Transmitted Diseases
STI Sexually Transmitted Infections
STS Standard Transfer Specification
T&D Transmission and Distribution
TAC Technical Advisory Committee
TWNP Tanbi Wetland National Park
Tee-off A branch-off point of an MV Line
ToR Terms of Reference
UN United Nations
UNESCO United Nations Educational, Scientific and Cultural Organisation
UNFCCC United Nations Convention on Climate Change
URR Upper River Region
VAC Violence Against Children
WAPP West African Power Pool
WB World Bank
WCR West Coast Region
x
LIST OF TABLES
Table 3.1: Relevant National Policies
Table 3.2: The Legal Framework Relevant to the Project
Table 3.3: Relevant Regional/International Signed/Ratified by The Gambia
Table 3.4: Institutional Framework
Table 3.5: World Bank Environmental and Social Safeguards Relevant to the Project
Table 3.6: ECOWAS Safeguard Policies Triggered by the Project
Table 4.1: Project Affected Districts
Table 4.2: Recorded Annual Rainfall in Project Regions (mm) 2009-2018) Table 4.3: The Mangrove Vegetation Along some of Proposed Corridors
Table 4.4: Vegetation Found in Wooded Savannah along the Project Corridors Table 4.5: Fruit Trees along the Corridors
Table 4.6: Mammalian fauna found along the ECOWAS-REAP corridors
Table 4.7: Avifauna Found Along the Corridors and in WCR Table 4.8: Reptiles Found in the Niumi National Park and Along the Corridors Table 4.9: Brikama Feeders 1- 3: Summary of Communities Along the Corridors Table 4.10: Farming Calendar of Activities along the Transmission Line Corridors Table 4.11: Main Stakes and Risks of the Project
Table 7.1: Recommended Minimum Clearance Distances for Various Situations Table 6.1: Main Sources of Potential Impacts of the Project on the Environment Table 6.2: Environmental Components likely to be affected by the Project Table 6.2: Identification of impacts Table 8.1: Risk identification matrix
Table 8.2: Risk evaluation / rating
Table 8.3: ESMP Monitoring Program
Table 9.1: Summary of Roles and Responsibilities in ESMP Implementation
Table 9.2: Capacity Enhancement Program for Effective ESMP Implementation
Table 9.3: ESMP Monitoring Program
Table 9.4: Estimated Budget to Implement the ESMP
LIST OF FIGURES
Figure 2.1: ECOWAS-REAP Substation and Line Corridors Figure 4.1: ECOWAS – REAP: Administrative Locations and Areas of Influence of Brikama Feeder Figure 4.2: Wetland along the proposed Kundunku line corridor Figure 4.3: Appropriate pole construction methods in wetlands Figure 4.4: Illustration of farm boundary away from the road Figure 4.5: Melon plantation (outside Project area) illustrating position of pole and farm clearance from the road and line corridor Figure 5.1: Meeting with the Community of Buram in Foni Bintang Karanai Figure 6.1: Example of stockpiles with green background (for a current road project) within this Project's AoI Figure 6.02: Combination of poles and cables around the Brusubi substation (outside this Project’s AoI) Figure 6.3: Combination of poles and cables (MV and LV poles; street light poles, Advertisement Boards) across the highway from Brusubi substation (outside this Project’s AoI)
xi
EXECUTIVE SUMMARY
Background
This report is the Environmental and Social Impact Assessment (ESIA) of the three Economic Community of West African States (ECOWAS)-Regional Electricity Access Project (REAP) feeders that emanate from the Brikama Sub-Station under the Gambia River Basin Development Organization (OMVG) Energy Project. The REAP Project is part of a Series of Projects (SOP) being implemented within the ECOWAS region, with a long-term view to achieving electricity distribution expansion within the Region. Funded by the IDA/World Bank, the SOP aims to increase the number of people in West Africa with access to reliable and affordable electricity, as articulated in the ECOWAS White Paper of 2006 for Increasing Access to Energy Services to People of the Sub-region. The SOP consists of two Phases, which plan to provide 2.5 million people across six countries in West Africa, namely Guinea-Bissau, Niger, Mali, Senegal, Mauritania, and The Gambia with electricity.
Phase I of the SOP is to provide access to 1.1 million people in Guinea-Bissau, Mali, and The Gambia. This Phase will finance the expansion of Medium Voltage (MV) and Low Voltage (LV) networks from the two high-voltage 225/33 kV substations (in Soma, Lower River Region–LRR, and in Brikama, in West Coast Region–WCR) being built under the OMVG Energy Project. It is expected that this will transform the power sectors of these countries and enable them to achieve their common objective of delivering more power to more consumers.
The second Phase of the SOP will finance the reinforcement and extension of a similar distribution network (MV and LV) in Senegal, Niger, and Mauritania, and within the context of the ECOWAS White Paper of 2006, additional member countries will be included later (potentially through additional financing). The participating countries will benefit from attracting larger contractors to ensure timely implementation, and furthermore, the regional approach facilitated by ECOWAS will be used to disseminate lessons learned from the World Bank’s global access experiences, which will be shared with participating countries to implement the access agenda.
Description of the Project
In The Gambia, the geographical extent of the Project covers a maximum of 100km radius from the
OMVG Energy Project’s substation in Brikama, in the West Coast Region. Specifically, the scope of the
works will include:
1. construction of 33/30 kV Medium Voltage (MV) lines;
2. construction of distribution substations of 33/30 kV / 400 Volts (V);
3. construction of 400 V Low Voltage (LV) lines;
4. supply and installation of last-mile connection equipment, including service drops, prepaid
meter, and ready boards for LV customers.
Policy, legal and institutional framework
The National Policy Framework
The policies that will guide the implementation of the Project include the following:
i. National Development Plan (2018-2021) ; the principal national policy plan which
proposes to increase the national coverage of electricity in the country;
xii
ii. National Energy Policy (2014 – 2018) which aims Policy aims to increase electricity
coverage nationally;
iii. Gambia Environment Action Plan, GEAP (2009-2018): Provides guidance in general
environmental planning and natural resources management;
iv. The National Elctricity Road Map 2017-2021 Road Map: plans to improve power
generation and transmission capacity NAWEC. In addition, it aims to increase
absorption capacity for the expected increase in generation capacity, and to reduce
transmission and distribution losses;
v. Forestry Policy (2010-19) and the National Biodiversity Strategy and Action Plan
(NBSAP), 2015 both of which promote State and community forest and biodiversity
management;
The Legal Framework
This includes the following:
i. National Environment Management Act, 1999 - the principal legislation in
environmental management; Part V of Act provides for certain projects listed under
Schedule A to be considered for ESIA, and it includes this Project;
ii. Environmental Quality Standards Regulations 1999 sets the standards in Schedule 1
in respect of ambient air, saline waters, surface fresh waters and groundwater;
iii. Biodiversity and Wildlife Act, 2003: provides for the establishment of protected areas
for protection of in-situ biodiversity; in addition to protect ex-situ biodiversity;
iv. National Council for Arts and Culture Act, 2003 this Act protects and preserves,
restore any monument, relic, ethnographical article, or other article of archaeological
ethnographical, or historical relevance. Project activities could unearth objects of
historical relevance;
v. Land Acquisition & Compensation Act, 1990: Provides for consultation, resettlement,
and compensation of land.
World Bank Safeguard Policies Triggered by the Project
These include:
i. OP 4.01 Environmental Assessment (including public participation and stakeholder
engagement). The objective of this policy is to ensure that projects financed by the
Bank are viable and environmentally feasible. It covers the impacts on the physical
environment (air, water, and land, etc.); the living environment, health, and safety of
populations; physical cultural resources; and environmental concerns at cross-border
and global level;
xiii
ii. OP 4.04 Natural Habitats: aims at protection, maintenance, rehabilitation of natural
habitats and their functions. There are swamps, wetlands, and waterbodies along the
Project corridor that are home to various invertebrates, mammalian, including avian
fauna;
iii. OP 4.11 Physical Cultural Resources: Avoid or mitigate adverse impacts on physical
cultural resources;
iv. OP 4.12 Involuntary resettlement of populations: Aims at avoiding resettlement
where feasible or, at least minimizing it. Where it is not feasible to avoid
resettlement, develop RAP, providing sufficient investment resources to enable the
persons displaced by the project to share in project benefits, among other things;
v. OP 4.36 Forests: This Policy aims to harness the potential of forests to reduce poverty
in a sustainable manner, integrate forests effectively into sustainable economic
development, and protect the vital local and global environmental services and values
of forests. The Project is challenged by this OP as there are Forest Parks, and
Community Forests that may be affected by its implementation.
Institutional Framework
The institutional framework relevant to the implementation of this Project includes the following:
i. National Environment Agency: The NEA enforces the NEMA, 1994 and EIA Regulations 2014, and reviews the ESIA report to grant Environmental Approval for the Project;
ii. National Water and Electricity Company (NAWEC): Project Proponent, and will lead implementation of ESMP;
iii. Women’s Bureau-Under the Ministry of Women, Children and Social Welfare, specifically promotes gender equity and women’s empowerment in The Gambia. It ensures the rights of women affected by the Project are protected; participates in sensitization on gender issues during pre-construction, construction, and operation phases;
iv. Department of Social Welfare: Protects and promotes the rights of vulnerable people such as children, women and the disabled; supports and guides the process during related grievances; participates in sensitization on GBV, SEA, SH, VAC etc.
v. Department of Labour: Enforces employment laws to protect employee rights, protect against
child labour, and respond to complaints and reports such as accidents, abuse, and discrimination at work.
Description of the environment and major environmental and social issues
The Biophysical Environment
Climatic Conditions
The climatic condition in The Gambia is of the Sudano-Sahelian type and is characterized by the occurrence of two distinct seasons: a hot rainy season from May/June to October, and a dry season from November to May with rare occurrence of rainfall in May. Rainfalls are typically heavy nationally,
xiv
but the south-western part of the country records more rain than the eastern portion. July, August, and September are the highest rainfall months.
Hydrology
Surface Water
The surface hydrology within the Project’s sphere of influence consists of the Tanbi Wetland National
Park (TWNP) located at the mouth of the River Gambia, and occupying an area of approximately
6,000ha (of which mangroves make up 4,800ha). Whilst most of the Project area is out of the Park,
settlements that border it to the south include the village of Mandinari, a potential ECOWAS-REAP
site.
The community of Tunjina (a potential project site) is drained by the Mandinari “bolong” (Mandinka
name for tributary) a tributary of the River Gambia whose banks are lined with mangrove vegetation.
Another tributary that will influence the Project is the Kandong “bolong” in Foni Bintang Karanai (500m
from the community of Kandunku. At high tide, the bolong submerges an entire portion of the road
leading to the village.
Another surface hydrology within the Project’s sphere of influence is mainly the run-off and storm water during the rainy season which runs into tributaries and adjacent fields. Pole construction in swampy areas, or along pathways of storm water could potentially impact transmission poles. Groundwater Resources
Within the Project sites the ground water is tapped mostly from two main groundwater sources namely, the Shallow Sand Aquifer (SSA) and Deep Sandstone Aquifer (DSA), (the former is essentially where the local hand dug wells tap their supply along the route of the project). The Vegetation and Forest Resources
The following vegetation types are found along the proposed line corridors:
Riparian Vegetation
A riparian vegetation or riparian woodland is a forested or wooded area of land adjacent to a body of water such as a river, stream, lake, marshland, estuary, or reservoir. This vegetation type is found along corridors with swampy and marshy environment such as the wetlands of the Tunjina and Kondonk. Specifically, to access the community of Kondonk, the proposed line will have to cross the Kajara “bolong”. The vegetation within these areas includes white mangroves; it is likely that some parts of these habitats and vegetation will be affected by the line routing.
Mangrove Vegetation
Mangrove forest dominates the fringes of the TWNP at Mandinari. The species found are the red mangrove (Rhizophora spp.), and the white mangrove (Avicennia sp.). There is also the salt tolerant species such as the bitter leaf (Vernonia colorata), the following woody species:
i. The Wooded Savannah
Given that many parts of the earlier forests in WCR have given way to residential use and plantations and orchards, the typical wooded savannah (defined as having a canopy cover of more than 40 percent and reaching a height greater than 8m) has reduced along most of the proposed corridors.
The dominant species found within the corridors are the African locust beans (Parkia biglobosa), and the rose wood (Pterocarpus erinaceus). Shrubby species found include the bush willows (Combretum
xv
nigricans), and the Chinese date (Ziziphus mauritiana), and the fruit locally called ditakh (Detarium senegalensis). Other forest trees along the corridors include the baobab (Adansonia digitata), which is planted for its shade as well as for food; its fruits are eaten and have certain uses as medicine; its leaves are used as vegetables, for sauces; its bark can be used as rope for tethering cattle.
ii. Fruit trees
Fruit trees are planted along the proposed line trajectories outside private compounds aligning the road corridors, or within compounds, or are planted as orchards and fenced and well protected from stray animals. Typically, mangos and cashew trees are the main fruit trees that will be potentially impacted by the lines because they are planted along many of the proposed corridors, including along the Shom-Omorto corridor.
These trees are important as a source of supplementary food for families, and in some instances, the fruits provide cash to the owners. Mangos also provide shade for family and individual relaxation. Thus, felling the trees by NAWEC’s contractors to make way for the lines could deprive these families of both food and income sources.
Wetlands Along the Corridors
Wetlands in the Gambia are essentially three types; the marine and coastal types found mainly in shallow marine waters, estuarine waters, and intertidal mud flats; inland water type wetlands, which include permanent and seasonal rivers, riverine flood plains, freshwater marshes, seasonal freshwater lakes; artificial type wetlands which essentially are mainly irrigated land such as rice fields, etc. Parts of some of these water bodies serve as fishing areas for the local communities, cattle drinking and watering points, and the adjacent plains used for rice cultivation. The Kandong “bolong” (tributary) in Foni Bintang Karanai, is about 52m wide at its crossing to the village of Kundunku and consists of three culverts. The proposed transmission line will cross the “bolong”, (wet and swampy ground). The construction of poles and lines within this area will have to use technologies that will protect the poles from collapsing over time due to saturation of the ground, and at the same time maintain the integrity of the ecosystem.
The Fauna
The fauna along the various corridors are described below.
Mammalian Fauna
The mammalian fauna along the line corridors is generally influenced by the open forests, which are home to various invertebrates, reptiles and mammalian species, and includes primates such as the Patas monkey (Erythrocebus patas) and the Green vervet (Chlorocebus sabaceus), and the red colobus monkey, and the wart hog. The Avifauna
The list of bird species recorded within the various corridors, include Herons, Egrets, Ibises/spoonbills Vultures/Hawks/ Eagles, Sunbirds, Crows, Woodpeckers, Black billed wood-dove, Black-headed weaver, etc.
Socio-economic environment
xvi
Demography and Population
The three Brikama feeders will supply 8 Districts consisting of 104 communities and 13,448 households. A total population of 120,430 persons (male population 60,295, and female population 60,135) will benefit from the Project. The women make up 49.9 percent of the beneficiary population. Modes of Subsistence and Daily Chores in the Project’s Area of Influence
The communities along the line corridors, to a large extent rely on agriculture and livestock for their
subsistence. Like other parts of the country, agriculture is characterized by little diversification, and is
mainly subsistence rain-fed, and semi-intensive cash crop production. Other economic activities
carried out along the proposed corridor include, market gardening (mainly by women), petty trading
and shop keeping, harvesting non-wood forest products; firewood collection; livestock rearing; and
fishing
Potential environmental and social impacts and risks
Potential impacts during pre-construction and construction phase
➢ Negative impacts on the biophysical environment
During activities of the pre-construction phase, no potential positive impact is anticipated on the biophysical environment. During the construction phase however, potential negative impacts on the biophysical environment will include:
• impacts Relating to Geology and Soils;
• air pollution;
• noise and vibration nuisance;
• unsightly landscape;
• improper waste;
• deforestation;
• loss of Fruit Trees and other Vegetation;
• negative impacts on fauna.
➢ Negative impacts on the human environment
• involuntary resettlement and loss of livelihoods;
• negligence of vulnerable groups and Gender-Based Violence (GBV);
• risks to Public Health and Safety;
• negative impacts from Violence Against Children (VAC);
• risks to Occupational Health and Safety;
• risks of Communicable Diseases;
• community Instability and Reduced Cohesiveness (Including Impacts from Labor Influx);
• impacts on sites of cultural and historical significance.
➢ Positive impacts on the biophysical environment
There are no potential positive impacts of significance on the biophysical environment during the
construction phase.
xvii
➢ Positive impacts on the human environment
• Creation of temporary jobs;
• Income generation;
• Improved community cohesiveness.
Potential impacts during operation and maintenance phase
➢ Negative impacts on the biophysical environment
• Effects of extreme weather affect applied loads and cause structural failure of various parts;
• Impacts on landscape- waste from disused and worn-out materials such as poles, lines will
create eyesores if not collected from the sites and managed properly;
• Loss of Trees, especially fruit trees during pruning of trees;
• Loss of fauna, especially monkeys on non-insulated cables amputating limbs;
• Large birds with wider wingspans (such as certain eagles, waterfowl, cranes, hawks, and
vultures) may get electrocuted or killed in contact with lines during flight or resting on the
lines.
➢ Negative impacts on the human environment
• Risks to public health and safety where people come into contact with broken live lines during
operation leading to electrocution or death;
• Occupational health and safety risks during all works, including operation and maintenance
activities, workers are at risk of accidents from machinery, traffic, and illnesses. These include
exposure of work crew to the risk of falling from heights during maintenance and repair of
lines and accessing high trees during pruning;
• Negative impacts on public services particularly during connection to the main substation and
pole-mounted transformers, when there will be temporary disruption of power services to
existing customers.
➢ Positive impacts on the biophysical environment
• Impact on Climate Change is positive since source of power is renewable and thus no green
hose gases produced.
➢ Positive impacts on the human environment
• Employment generation;
• Enhanced economic development as a result of efficient energy supply;
• Improved livelihoods because of better services (education, health, communications, security
and other social services that are largely dependent on electricity will be improved);
• Benefits to youth and vulnerable groups (with continuous electricity supply, youth could
develop skills and trade to enhance their livelihood, e.g. welding, carpentry, or other small
businesses that rely on electricity.
xviii
Potential impacts during decommissioning phase
➢ Negative impacts on the biophysical environment
• Impacts of improper waste management may affect aesthetics, surface water, wildlife,
livestock, and the public;
• Air Pollution and local air quality deterioration due operation of heavy machinery, and vehicles
releasing hydrocarbon and incomplete combustion gases to the air.
➢ Negative impacts on the human environment
• Public health and safety risks;
• Risks of communicable diseases due to influx of foreign workers;
• Risks to occupational health and safety.
➢ Positive impacts on the biophysical environment
• Improvement of landscape due to reclamation of quarries, camp sites, and removal of disused
structures returning the landscape to original state or even better.
➢ Positive impacts on the human environment
• Employment creation carrying out decommissioning activities; provide short-term
employment for drivers, clearing workers, quarry restoration workers etc.
Management and impact mitigation measures
Impact Management during the Pre-construction Phase
➢ Mitigation Measures of the Negative Impacts on the Biophysical Environment
• Mitigation of Impacts related to Geology and Soils: Any quarries for this Project must have clearance from the Geology Department (GD) and the NEA and will be based on a mining and reclamation plan;
• Mitigation of Air Pollution: Prohibit the public from work sites and avoid public places such as schools and markets. Provide personal protective gears for workers and use well maintained vehicles and machinery. Camps must also belocated at least 500m from the communitites;
• Mitigation of Noise and Vibration Nuisance: All preconstruction works must be carried out only during daytime and choose machines with less vibration effects;
• Mitigation of Unsightly Landscape: sites must be cleared of all preconstruction waste and stockpile of materials located in organized camps;
• Mitigation of Improper Waste Management: develop and implement a waste management plan;
xix
• Mitigation of Deforestation and the Loss of Fruit Trees: where trees must be fell or trimmed, develop and implement a RAP to assess the potential losses and required compensation for reforestation; relocate poles within the maximum span to avoid trees;
• Mitigation of Impacts on Fauna: Prohibit hunting by workers and educate on biodiversity conservation;
• Mitigation of Impacts on Wetlands: Integrate all mitigation measures into the design, including add-ons and evaluation of alternatives (routes, foundation types, pole designs, and cables).
➢ Mitigation Measures of the Potential Negative Impacts on the Human Environment
• Mitigation for Involuntary Resettlement and Loss of Livelihood: a RAP shall be developed and implemented for compensation of lost assets and livelihoods;
• Mitigation for the impacts on vulnerable groups: vulnerable groups will be included to ensure non-discriminatory benefit sharing;
• Mitigation for risks to public health and safety: use signage to prohibit access to worksite hazards and inform communities before works commence and throughout the implementation period;
• Mitigation of violence against children: employment of children prohibited, and implementation of the Codes of Conduct on Violence Against Children;
• Mitigation of Risks to Occupational Health and Safety: adopt and implement a health and safety program including accident and emergency response plans, training of workers, supervision, and provision of protection;
• Mitigation of Risks of Communicable Diseases: Limit worker importation and enforce Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse and Violence Against Children. Abide by national emergency regulations and the WB guidelines for protection against the Corona Virus;
• Mitigation for community instability: Initiate extensive consultations and sensitization with the communities;
• Mitigation of impacts on sites of cultural and historical significance: avoid all sites of cultural or historical significance including any buffer created for their protection;
Potential Impact management during the construction phase
xx
➢ Mitigation Measures of the Potential Negative Impacts on the Biophysical Environment
• Mitigation of Surface Water Pollution: adjust pole spans to avoid water bodies and constant supervision to prevent waste dumping into water bodies;
• Mitigation of Impacts on Wetlands and Loss of Aquatic Ecosystems: promote regrowth of vegetation within wetlands by ensuring sites are returned to near original state;
• Mitigation of Noise and Vibration Nuisance: All construction activities must be carried out only during daytime and choose machines with less vibration effects;
• Mitigation of Unsightly Landscape: sites must be cleared of all construction waste and excess materials;
• Mitigation of Extreme Weather Impacts: Plan for pole erection during the dry season; train and supervise workers on response actions;
• Mitigation of Impacts related to the Importation of Workers: Limit importation of workers and use the Grievance Redress Mechanism (GRM) in case of complaints.
➢ Mitigation Measures of the Negative Impacts on the Human Environment
• Mitigation of Impacts related to Public Health and Safety: prohibit access of the public to work sites, materials, and equipment; use qualified workers, give prior notice to communities, avoid school and market days;
• Mitigation of Risks of Communicable Diseases: Limit worker importation and enforce Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse and Violence against Children. Abide by national emergency regulations and the WB guidelines for protection against the Corona Virus;
• Mitigation of Risks to Occupational Health and Safety: adopt and implement a health and safety program including accident and emergency response plans, training of workers, supervision, and provision of protection.;
• Mitigation of Violence against Children: employment of children prohibited, and implementation of the Codes of Conduct on Violence against Children;
• Mitigation of Gender Based Violence: enforce the Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse (SEA) and Violence Against Children (VAC);
• Mitigation of Land Use Impacts and Loss of Livelihoods: no displacement causing loss of livelihoods should take place until PAPs have been fully compensated;
• Mitigation of Chance Finds Impacts: apply the Chance Find Procedures (avoid further disturbance and secure discovery, inform the relevant authorities);
xxi
• Mitigation of Risks from Force Majeure: abide by any national emergency regulations passed by the Government of The Gambia during such periods.
Impact Management during the Operation and Maintenance Phase
➢ Mitigation Measures of the Negative Impacts on the Biophysical Environment
• Mitigation of effects of extreme weather conditions: routine inspection and maintenance shall reduce destruction of infrastructure during strong winds and heavy rainfall;
• Mitigation of Impacts on Landscape and Aesthetics: All waste must be collected and disposed according to law; consider alternatives to prevent unsightly wirescapes;
• Mitigation for Impacts on Trees: only trim branches within the Right of Way (ROW) and not during the fruiting season;
• Mitigation of Loss of Fauna: reproductive grounds, sanctuaries and migratory paths should be avoided, and alternative designs considered for the protection of the fauna.
➢ Mitigation Measures of the Negative Impacts on the Human Environment
• Mitigation of Risks to Public Health and Safety: public education on the safety of electricity infrastructure and prohibition from work sites during pruning;
• Mitigation of Risks to Occupational Health and Safety: adopt and implement a health and safety program including accident and emergency response plans, training of workers, supervision, and provision of protection;
• Mitigation of Impacts on Public Services: prior to connection of the new infrastructure, the public must be informed well in advance about disruptions to electricity services
Impact Management during the Decommissioning Phase
➢ Mitigation Measures of the Negative Impacts on the Biophysical Environment
• Mitigation of Improper Waste Management: collect and dispose all waste according to law;
• Mitigation of Air Pollution: use protective gear and well serviced equipment and heavy vehicles.
➢ Mitigation Measures of the Negative Impacts on the Human Environment
• Mitigation for risks to public health and safety: use signage to prohibit access to worksite hazards and inform communities before decommissioning works;
• Mitigation of Risks of Communicable Diseases: Limit worker importation and enforce Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse and Violence Against Children. Abide by
xxii
national emergency regulations and the WB guidelines for protection against the Corona Virus;
• Mitigation of violence against children: employment of children prohibited, and implementation of the Codes of Conduct on Violence against Children;
• Mitigation of Risks to Occupational Health and Safety: adopt and implement a health and safety program including accident and emergency response plans, training of workers, supervision, and provision of protection;
Mitigation of Potential Cumulative Impacts
• Full implementation of the ESMP to include amongst others, working outside the farming season, avoiding forests and unrelated removal of vegetation, strategically locate poles, develop, and implement the C-ESMP, provide information and educate on health and safety. Future cumulative impacts may be mitigated by studies done and implemented at that time.
Strategic Environmental Assessment (SEA) of the Government’s and NAWEC’s wider plans and
programs can contribute in coordinating similar projects or different projects in the same area with
the aim of mitigating the cumulative impacts.
Stakeholder Consultations
Stakeholders in all the Project areas were adequately sensitized on matters relating to the
consultations with the communities, project background, processes, and procedures as well as the
role of the communities and institutions during the implementation of the Project.
In general stakeholders, including potential PAPs, highly appreciated and welcomed the Project and
highlighted the importance of electricity for the lives and livelihoods of the people, as well as the
numerous benefits they will get from the availability of electricity. These benefits they maintained,
would include their ability to preserve and store their different foodstuff, and enable them to engage
in new revenue-earning businesses such as electricity-dependent professions like welding, that will
raise their standard of living.
The opinions, concerns and fears of the populations and persons likely to be affected by the Project
(PAPs) have been incorporated into the recommendations of this ESIA.
Risk and accident management
Based on the activities of the Project during all the phases, potential risks were identified, and their significance evaluated based on severity, probability, exposure levels and possibility of control. The following risks were identified with corresponding mitigation measures:
• Sabotage;
• Movement and circulation risks such as traffic accidents;
• Noise nuisance;
• Vibration risks;
• Risks related to improper use and storage of equipment;
• Fires and explosions;
• Personal injuries such as cuts, struck by objects, stepping on objects, falls;
xxiii
• Risks related to ergometrics; poor manual handling etc.;
• Respiratory risks;
• Insecurity from burglary, threats, and personal attacks;
• Contagious illnesses, ingestion of contaminated food or drink;
• Risks related to unethical workers (Discriminating vulnerable PAPs, insensitivity to local norms, alcohol/drug abuse impacts etc.);
• Wildlife attacks (reptiles, insects, and animals etc.);
• Risks of work site conditions;
• Work related stress.
Corresponding preventive and protective measures were then recommended for mitigation following the mitigation hierarchy from elimination, control, and reduction of the risks, to providing protection against the hazards. These include:
Developement and implementation of accident and emergecny response plans
• Training;
• Public information and awareness;
• Constant supervision of workers;
• Health and safety monitoring, reporting, and recording;
• Limit exposure by reducing working hours;
• Waste should never be burnt; follow waste management plan;
• Use machines to assist in moving heavy and long loads;
• Prohibit public access to work sites;
• No work at night;
• Provision of first aid kits;
• Provision of protective gear.
Environmental and social management plan (ESMP)
The potential impacts and mitigation measures identified for all the various activities are further
expanded in an ESMP matrix. For ease of reference during implementation, each mitigation activity is
considered along:
• responsibilities for its mitigation (contractor, Owner Engineer, NAWEC, PIU, communities etc.);
• period of expected mitigation (before, during or after the specific Project activity);
• responsibilities for monitoring (regional Technical Advisory Committees, NAWEC, NEA, PIU, Environmental Safeguards Specialist (ESS) and Social Safeguards Specialist, DoF, DPWM etc.);
• required budget for mitigation to ensure resources are available in a timely manner:
Roles and responsibilities for ESMP implementation
Implementation of the ESMP is the responsibility of the Contractor and PIU. Most of the mitigation measures are the responsibility of the Contractor who will be carrying out the works according to the C-ESMP that will be based on the Project ESIA/ESMP. The ECOWAS-REAP PIU will be responsible for overall follow-up, and to ensure that the ESIA/ESMP is fully implemented with the support of the PIU Environmental Safeguards Specialist (ESS) and Social Safeguards Specialists (SSS). Specifically, the ECOWAS-REAP PIU will include clauses in the Contractor’s agreements that will ensure compliance, and coordination with the GRM, among others.
xxiv
The supervising firm, Owner Engineer, will support the PIU in field supervision of all the contractors and their works. The Owner Engineer will also assist the PIU in bidding processes and verifies that contractors abide by clauses in the contracts. The communities will also have the responsibility of ensuring that villagers avoid work sites, and report to NAWEC or relevant authorities, issues of concern related to the Project; the PIU and Contractor will engage the communities regularly as an oversight measure in this regard, and conduct sensitization sessions to ensure communities are aware of reporting measures and understand Project risks.
As the Secretariat of the EIA Working Group, and supported by its members, NEA will be responsible for the overall external monitoring of the ESMP implementation; in collaboration with the PIU ESS and SSS, they will monitor compliance with the Bank policies as they relate to the environmental aspects of this Project. In addition to the permanent members in the EIA Working Group, other institutions on ad hoc basis will include those specialized in social aspects such as the Women’s Bureau, Department of Social Welfare, Department of Labor, and Department of Health Services, amongst others.
Meanwhile, monitoring of the implementation of the social aspects of the Project in line with the Bank’s safeguards instruments will be the responsibility of the PIU SSS.
Overall estimated budget for the ESMP implementation is US $62,000, which includes capacity building; cost of implementation of the mitigation measures; regular environmental and social monitoring for compliance with the ESMP and with the relevant laws and policies.
1
CHAPTER 1: INTRODUCTION
This Chapter sets the background of the Project, its objectives, and beneficiaries. It further describes the rationale and objectives of the ESIA, in addition to the methodology used in carrying out the study. The various issues covered under the ESIA have also been outlined as presented in this report.
1.1 Project Background
This report is the Environmental and Social Impact Assessment (ESIA) of the ECOWAS-Regional Electricity Access Project (REAP) three feeders that emanate from the Brikama Sub-Station under the OMVG Energy Project. The Project is part of a Series of Projects (SOP) being implemented within the ECOWAS region, with a long-term view to achieving electricity distribution expansion within the Region. Funded by the IDA/World Bank, the SOP aims to increase the number of people in West Africa with access to reliable and affordable electricity, as articulated in the ECOWAS White Paper of 2006 for Increasing Access to Energy Services to People of the Sub-region. The SOP consists of two Phases, which plan to provide 2.5 million people across six countries in West Africa, namely Guinea-Bissau, Niger, Mali, Senegal, Mauritanie and The Gambia with electricity.
Phase I of the SOP is to provide access to 1.1 million people in Guinea-Bissau, Mali, and The Gambia. This Phase will finance the expansion of Medium Voltage (MV) and Low Voltage (LV) networks from the two high-voltage 225/33 kV substations (in Soma, Lower River Region–LRR, and in Brikama, in West Coast Region–WCR) being built under the OMVG1 Energy Project. It is expected that this will transform the power sectors of these countries and enable them to achieve their common objective of delivering more power to more consumers.
The second Phase of the SOP will finance the reinforcement and extension of a similar distribution network (MV and LV) in Senegal, Niger, and Mauritanie, and within the context of the ECOWAS White Paper of 2006, additional member countries will be included later (potentially through additional financing). The participating countries will benefit from attracting larger contractors to ensure timely implementation, and furthermore, the regional approach facilitated by ECOWAS will be used to disseminate lessons learned from the World Bank’s global access experiences, which will be shared with participating countries to implement the access agenda.
Specifically, the ESIA report consists of the following sections:
• Project description and scope;
• Policies, legal and institutional framework;
• Description of the current state of the environment of the project area;
• Public consultations;
• Analyses of potential impacts, enhancement and mitigation measures;
• Management measures of the potential positive and negative impacts on the environment;
• Management of risks and accidents;
• Environmental and social management plan;
• Conclusion;
• Bibliography;
• Appendices.
1 OMVG – “Organization pour la Mise en Valeur du Fleuve Gambie”, is the French acronym for Gambia River Basin Development
Organization; OMVS – “Organisation pour la Mise en Valeur du Fleuve Sénégal is French acronym for Senegal River Basin Development Organization.
2
1.2 The Project Development Objective (PDO)
The Project aims to increase grid electricity access in the six West African countries as indicated above, and specifically Phase I aims to substantially increase access to electricity to reach a rate of almost 65 percent, 25 percent, and 37 percent in Guinea Bissau, The Gambia and Mali respectively.
The Project will reduce or eliminate the connection charges of these beneficiaries and will also deploy prepaid meters to enable beneficiaries to manage their own consumption without the risk of the physical disconnection process that can arise because of unpaid monthly bills. Thus, it is expected to have a transformative impact on the beneficiaries, both in the short-term and long-term.
1.3 Project Beneficiaries
The Project’s beneficiaries will include households, small businesses, and public institutions (including local governments, schools, and health clinics), which will be connected to the electricity grid. The substation will connect communities that are up to 100km radius. Appendix 4.1 shows the communities to populations that will benefit from the Brikama feeders.
1.4 Rationale of the Project
An ESIA should be performed because it is a requirement of the National Environment Management
Act, (NEMA) of 1994, the EIA Guidelines and Procedures (1999), and the EIA Regulations (2014), which
require impact assessment studies to be conducted prior to development activities that are likely to
have adverse environmental and social impacts. The ECOWAS REAP, The Gambia, falls under Schedule
A of the NEMA; “Projects to be considered for EIA, including electrical infrastructure such as “electrical
transmission lines” and “electrical substations”.
To start the ESIA process in The Gambia, the Project proponent should complete and submit a screening form to the relevant authority, the National Environment Agency (NEA). Following the screening process, Terms of Reference (TOR) for the ESIA study is then developed by the NEA with support from the EIA Working Group. This Project was not screened by the NEA and the TOR was developed by the RCU through the ECOWAS-REAP PIU. Notwithstanding, the NEA was consulted during the course of the study.
Since the IDA/World Bank is financing this Project, it becomes imperative that an ESIA is carried out;
according to the Operational Policy (OP 4.01), the Bank requires environmental assessment of projects
proposed for Bank financing to help ensure that they are environmentally sound and sustainable.
1.5 Objectives of this ESIA Study
The overall objective of this ESIA study is to ensure that environmental considerations of The Gambia ECOWAS-REAP are considered during decision making for environmental sustainability. Specific objectives of the ESIA are to:
- identify, evaluate, and mitigate potential environmental and social risks and impacts of the
proposed Project activities
- examine ways to prevent, minimize, mitigate, or offset/compensate for adverse
environmental and social impacts, and to enhance positive impacts describe the baseline
conditions for future reference
- provide platforms for public consultation and participation regarding the Project
- maintain credibility of the Project developers and funders
1.6 Consultant Responsible for this Study
This ESIA was carried out by Sustainable Developemnt Focus Ltd., a Gambian registered consultancy firm specialised in environment and natural resources management.
3
1.7 Methodological Approach for the ESIA
The following approach was used to develop this report:
a) Literature Review
This consisted of the review of relevant national polices and legislation, World Bank Operational Policies, ECOWAS Environmental Policy, 2008, the ECOWAS-REAP Project Appraisal Document (PAD), relevant international conventions and treaties to which The Gambia is a Party, among others. The legislation and policies reviewed have guided the ESIA study to identify the legal scope of the process and ensure that issues highlighted are given due consideration during the study. For example, policies have described areas to protect such as historical sites, and gazetted forest. Therefore, special attention was given during the study to watch out for such sites and assess the necessary issues. The reviewed legislation also highlighted areas to consider during the study, such as the need for community consultation; the need to ensure that women are included, and that compensation will be required for involuntary resettlement and loss of livelihood as a result of the Project. The identified WB Policies that have been triggered by this Project also have assisted in identifying specific issues to consider during the study. Although the Project’s Detailed Engineering Study report was not available to identify the exact Project sites, the ECOWAS-REAP Project Appraisal Document, the Study for the Project of Electricity Access from the Substations of Regional Project (OMVG and OMVS) in the Republic of Senegal, Guinea, Mali, Guinee Bissau and The Gambia, the ECOWAS-REAP Project Implementation Manual, the WAPP-REAP Environmental and Social Management Framework – Phase I, and the TOR for this study were reviewed. These Project documents provided the ESIA study with the information necessary to identify and evaluate the environmental impacts. These include the:
- physical scope of the Project in The Gambia and the list of proposed beneficiary villages as it
is practically impossible to cover all villages within 100km of the Brikama Substation;
- Project components, materials and activities that will cause the environmental change;
- alternative sites, technology and design considered;
- institutional arrangements for the Project implementation.
In addition to the above, an extensive review was carried out of data from a variety of sources, including a selection of features derived from appropriate secondary spatial datasets collected by different national sectoral institutions, maintained in a GIS database. See the full list of relevant documents reviewed in the Bibliography section.
b) Field Visits and Scoping
Extensive field visits were carried out to potential Project communities within 100km radius of the two substations to validate the list of communities provided by the ToR. However, since the ToR did not provide a design of the proposed routings of the transmission lines, the Consultant’s consultation with the Project PIU and relevant staff of the National Water and Electricity Company (NAWEC) concluded that the ESIA will be used as the feasibility report to environmentally and socially design the best routes of the T&D lines. In this regard, the Consultant visited all the proposed Project corridors in the company of a senior engineer from NAWEC (with decision-making powers) and his team, to interact with the Consultant’s Engineer so that decisions for line routings will be confirmed on the spot, particularly given that the ESIA and ESMP is expected to be location-specific.
4
The visits provided the Consultant and the NAWEC team with the opportunity to analyze possible alternative transmission line routings, and possible construction methodologies in order to reduce the negative environmental and social impacts. The field visits also allowed the study to:
- define, locate and precise the borders/limits of the Project areas of influence;
- assess the current state of the environment;
- identify the activities of residents likely to be affected by the Project;
- assess the environmental sensitivity of the Project right-of-ways.
The ToR provided a list of communities proposed to benefit from the Project, but the list did not include a number of communities along some of the proposed corridors that are believed should have been obviously included, considering their respective locations along the proposed trajectories. For example, where a community located at the end of a proposed line corridor has been identified, some intermediary communities along the same trajectories were not included in the list supplied by the ToR.
Use of GIS to Support Corridor and Community Identification One of the aims of the field trips was to identify the communities that were left out, to address the above-mentioned shortcoming. In addition, GPS coordinates of routes and locations that were not evident on the maps provided by the OMVG studies were recorded wherever necessary, to update the list of proposed communities, and also to identify and digitize features such as roads that are missing in the spatial database. The updated list of communities along the three Brikama feeders is provided in Appendix 4.1, and the maps showing the routes of the feeders are in Appendices2.1. This, effectively, defined the scope of the coverage of the Project in WCR.
Data Collection Data collection and analyses of supplementary primary data obtained from field surveys (using GPS technology) was carried out. In addition, existing secondary datasets (including topographic data, settlements data, forests, and protected areas, etc.) that are hosted by other national institutions were analyzed. These institutions included the Department of Lands and Surveys, Gambia Bureau of Statistics (GBOS), Department of Forestry (DOF), Department of Parks and Wildlife Management (DPWM), etc. Where a particular feature was encountered in the field, but does not exist in the appropriate sectoral database, the GPS coordinates of the feature were physically measured, digitized, and incorporated into a spatial database for the particular dataset.
Data Analyses The datasets were arranged into feature-based GIS layers that can be used as and when required for analyses, and/or presentation. For example, the settlements layer was used to extract and identify the Brikama substation, as well as all intervention villages. From this data, a spatial buffer of 100km radius was created around the substation’s location. This buffer was then “Intersected” and the resulting datasets “overlaid” with the settlements layer to analyze the location of all intervention villages as identified in the ToR.
Presentation The following datasets were used in both the analyses and/or the presentation of results:
i. Settlements
5
These included the proposed intervention villages, the Brikama substation, as well as other major towns/villages of significance to the Project.
ii. Roads These comprised mainly the main roads (such as Brikama – Serekundanding-Kalaji, Mandinaba – Giboro Koto); feeder roads (Shom-Omorto), as well as earth roads/tracks/paths (such as Buram – Bulanjor, Buram – Katakor). This dataset is particularly significant because many of the MV lines in this Project will run along these roads.
iii. International Boundaries This dataset identifies the scope and geographic limits of the analyses and hence the presentation of the results was based on this frame, i.e. the geographic limits of The Gambia.
iv. National Parks The impact of the Project on National Parks was not evident in WCR; however, in other regions as in North Bank Region the impact of the project was studied by mapping out all possible influences the Project’s attributes and features have on forested areas. As stated earlier, this was achieved by analyses of data on National Parks, Settlements and Roads.
v. Forests Like National Parks, the Project may also impact Forest Parks. As a result, data on Forests, Settlements and roads were analyzed.
Based on the above, the GIS analyses presented in this report is a map of The Gambia (Figure 2.1) showing the following:
i. The substation in Brikama;
ii. All intervention villages/communities - maps of the line routes, and the
communities that are located along the three Brikama feeders;
iii. Major water bodies that may be impacted by the Project;
iv. Other relevant physical features that may be impacted by the Project. In addition to this map, other maps were created to highlight specific environmental and social issues and/analyses such as MV line corridors (see Appendices 2.1, maps of routes of the Brikama feeders. c) Community Consultations During the field trips, consultations were undertaken using mainly unstructured methods; these included public meetings, focused group discussions, and individual (one-to-one) meetings. Refer to Chapter 5 for details.
d) Key Stakeholder Interviews and Consultations Consultations and interviews with relevant Government agencies were also conducted; these included NAWEC, the NEA, DPWM, DOF, National Roads Authority (NRA), and the National Council for Arts and Culture (NCAC). See Chapter 5 and Appendix 5.1 (Summary of Comments and Views from Consultations), and Appendix 5.2 (List of Persons and Institutions Met) for details.
6
CHAPTER 2: PROJECT DESCRIPTION AND SCOPE
This Chapter sets out to describe the ECOWAS-REAP, and to identify its potential sources of impacts; it aims to convey sufficient information and understanding of what the Project is about. The section focuses on the propsed location, technical description of the activities, the works input and output. Alternative sites and designs, and the ‘no project’ alternative are also analyzed to ensure the most environmentally friendly option is considered.
2.1 – Presentation of the Project Proponent
The ECOWAS administrative structure was transformed from an Executive Secretariat to a Commission in 2007 in accordance with a decision taken in Niamey, Republic of Niger, in 2006. This change was necessitated by the need to enhance equity, transparency, and greater functionality in line with global best practice. This resulted in The Commission being in a better position to support ECOWAS member states to build their capacities for program implementation. Thus, establishment of the Commission together with the endorsement of institutional reforms covering all its structures, ECOWAS came to be in a better position to fulfil its mandates to meet and address emerging challenges. In this regard, the overall objectives of the Commission are geared towards improving the living conditions of its citizenry; ensure economic growth and creating an environment conducive to development and meaningful integration of member states. The ECOWAS Commission, with its headquarters in Abuja Nigeria, coordinates all the activities of ECOWAS and comprises the following structures: Executive (headed by the Chairman of the Authority of Heads of State and Government); Legislative arm (comprising the Community Parliament headed by the Speaker) and the Judicial arm (comprising the Community Court headed by the President).
2.1.1 Objectives of the Commission The ECOWAS Bloc aims ‘to promote cooperation and integration leading to an economic union in West
Africa with the sole intention of raising the standards of living of the its people, maintain and enhance
the economic stability, foster relation among Members States and contribute to the progress and
development of the African continent’; To achieve the above, the Community undertakes a number
of measures including:
o ‘Harmonization and coordination of national policies and the promotion of
integration of programs, projects, and activities particularly in agriculture, energy and
natural resources, industry’;
o Harmonization and coordination of policies for the protection of the environment;
o The promotion and establishment of joint production enterprises;
o Establishment of common markets ;
o Establishment of an economic union through the adoption of common policies in the
financial, economic, cultural and social sectors and the creation of a monetary union
etc. (http://www.comm.ecowas.int/about-ecowas/objectives/);
2.1.2. Roles and Functions of the ECOWAS Commission The ECOWAS Commission performs the following tasks: designing, coordinating, and monitoring the
regional integration process with professional competence, thereby helping the member states to
improve their implementation of its policy decisions related to economics and trade, and peace and
security.
7
2.1.3. Organizations of the Commission The Commission has 14 departments as listed below:
1. Agriculture, Environment and Water Resources; 2. Education, Science and Culture; 3. Energy and Mines; 4. Finance; 5. Financial Controller of ECOWAS Institutions; 6. General Administration and Conference; 7. Human Resources Management; 8. Industry and Private Sector Promotion; 9. Infrastructure; 10. Macro-Economic Policy and Economic Research; 11. Political Affairs Peace and Security; 12. Social Affairs and Gender; 13. Telecommunication and Information Technology; 14. Trade, Customs and Free Movement of Goods and Services.
The Department of Energy and Mines was created to ensure energy integration among ECOWAS member states over time and to harmonize exploitation of the community mineral resources. It was mandated to formulate and implement ECOWAS regional policies in the areas of energy and mines and in doing so, work closely with some agencies in selected member states, such as the West African Power Pool (WAPP), ECOWAS Centre for Renewable Energy and Energy Efficiency (ECREEE) and the ECOWAS Electricity Regulatory Authority (ERERA).
2.2 - Location of Project Sites
In addition to the WCR, the Project will be implemented in three other Regions in The Gambia as
follows:
Part of the West Coast Region (WCR);
The whole of the North Bank Region (NBR);
The whole of the Lower River Region (LRR);
The whole of the Central River Region (CRR North and South).
2.2.1 Brief Description of OMVG Brikama Sub-station Site and Related Feeders The OMVG Sub-station in Brikama is located at the Brikama power plant, which is on the industrial north-western side of Brikama, the administrative headquarters of the WCR; it is the biggest of the five Regional Administrative Regions in the country. The three (3) feeders will run across the entire length of the Region down to the south towards the border with Senegal, and to the east up to Kalaji, and to the north down to Mandinary in Kombo North; for example, Feeder 1 will connect the communities of Bafuloto, Mandinari, Kubuneh, etc.; Feeder 2 will connect communities including Kembujeh, Serekundaring, Tubakuta, etc.; Feeder 3 will connect localities along the main highway including villages such as Mandinaba, Kuloro (Tungina), Amdalai, Faraba Sutu, Sibanor, Bwiam, Kalaji, etc. The Project areas are shown in Figure 2.1.
29
Figure 2.1: ECOWAS-REAP Brikama Substation Feeder Line Corridors
Appendix 4.1 indicates the list of the communities along the three feeders, and Appendices 2.1 provide
the maps indicating the routing of the three feeders. Specific corridors per feeder are listed in
Appendix 4.3.
2.3 Technical Consistency of the Works
In The Gambia, the geographical extent of the Project covers a maximum of 100km radius from the
OMVG Energy Project’s substation in Brikama. Specifically, the scope of the works will include:
• construction of 33/30 kV Medium Voltage (MV) lines;
• construction of distribution substations of 33/30 kV / 400 Volts (V);
• construction of 400 V Low Voltage (LV) lines;
• supply and installation of last-mile connection equipment, including service drops,
prepaid meter, and ready boards for LV customers.
2.3.1 Construction of 33/30 kV Medium Voltage (MV) Lines The MV lines will be designed to meet the required mechanical strength and resistivity on
environmental impact such as salt, fog, and bushfires. The activities for this scope include, but not
limited to the following:
i. Erecting MV (33 KV & 30kV) overhead lines support structures using hot dipped galvanized
steel poles. The MV will be constructed using 12m high poles with an average span of 100m
between support structures, and up to 150m span in wetland areas with pole structures of up
to 15m in height
The MV lines will achieve a minimum sag clearance of 6m from the ground, and will be
constructed within a corridor width of 6m
ii. The sheet-arch form of cross arm, Napoute type (NV2), will be used for the suspension lines.
Dead-end cross arms will be used in dead-end angles. The H-type pole construction will be
used at tee-offs with poles 1.5m to 2m apart; these H-type structures will be installed at least
every 1.5km to 2km along the corridor to ensure line strength as per standards
iii. The MV pole foundations will be 1.5x1.5m and 2m deep standard gravel (washed stone) or
basalt is appropriate for such. Foundations in wetland areas should be of marine grade type
to ensure longevity of the pole foundations and structures
iv. Bare conductors of aluminium alloy studded conductors of up to 150mm2 and 70mm2 will be
used for main lines and tee-offs, respectively. The stringing of conductors will be done using
conventional methods; conductors will be pulled and tensioned on guyed structures, pulleys
installed on the poles, and conductors in drums rolled through the pulleys and tensioned using
special equipment such as ‘come-along tongues’
v. Insulators for the MV lines are of the composite type of string designed for both
intermediate/suspension poles and for angles and dead poles. The insulators are up to 36kV
insulation level and operated effectively with the service voltages of 33kV and 30kV. These
insulators must always withstand harsh environmental conditions
30
2.3.2 Construction of distribution substations of 33/30 kV / 400 Volts (V) Transformer sub-station requires the installation of the following:
i. Installation of transformers (25kVAa, 50kVA or 100kVA, etc.). They will be positioned at load
centers and function as substations to step down the voltage from 33kV or 30kV to 400V and
240V to supply electricity to consumers. The transformer is made of steel tank with copper
coils immersed in mineral oil contained within the tank (the oils do not contain
polychlorinated biphenyl, PCBs);
ii. H-pole transformer mounting frame structure and the necessary supports;
iii. MV fuse cut-out assembly will be installed above the transformer for both protection of the
transformer, and safe operations at the transformer substation;
iv. Surge arrestors sets of up to 36kV insulation levels will be installed on the line at the substation
for protection against lighting surges and other electrical network system disturbances. The
arrestors are bridged on the lines accordingly and earthed to the ground together with the
transformer body;
v. A low voltage distribution feeder pillar unit will be installed below the transformer. This comes
with a busbar system controlled by a main breaker. The unit will contain several other
breakers or fuse carriers for individual customer feeder lines/circuits.
2.3.3 Construction of 400 V Low Voltage (LV) lines The construction of LV lines will consist the following;
i. the overhead LV lines support structure will be constructed using 9m hot dip galvanized steel
poles. The poles will have maximum span of 45m with a conductor sag clearance of at least
6m from the ground;
ii. the LV pole foundations will be 0.5x0.5m and buried one (1) meter deep, using gravel (washed
stone) or basalt for the foundation works;
iii. the Aerial Bundle conductors (twisted cable) of the required standards will be used for the
distribution. The main lines will be 3x70+54.6mm2+1x6mm2 and the tee-offs (branches) will
be 3x50mm2+54.6mm2+1x16mm2 or 3x35mm2+54.6mm2+1x16mm2.
The stringing will be done using conventional methods and conductors will be pulled and
tensioned on guyed structures using pulleys and ‘come- along tongues’, cranes, etc.
2.3.4 Supply and Installation of Last-mile Connection Equipment, including Service Drops, Prepaid Meters, and Ready Boards for LV customers
Key among the equipment and activities are:
i. Pre-paid type meters (cash power) that must be Standard Transfer Specification (STS)
compliant, operating on both 3phase (400V) and single phase (240V). The majority of the
meters will be single-phase meters and some 3-phase type;
31
ii. casing boxes (cabins) usually fireproof, or sometimes boarded or fitted on a plywood sheet;
Protective fuses and load circuit breakers are also assembled at the same time;
iii. 10mm copper cable conductors or aerial bundle conductors 1x16mm2 for single-phase and
4x16mm2 for 3-phase.
32
CHAPTER 4: DESCRIPTION OF THE CURRENT STATE OF THE ENVIRONMENT OF THE PROJECT AREA
This Chapter describes the geographic and administrative location of the Project area. It outlines the
delimitation of the study area highlighting the direct and indirect areas of interest of the Project within
WCR and the Districts where the Project sites are located. Within these areas, the general and specific
baseline environmental and social conditions are discussed covering among other issues, the
biophysical as well as the human and socio-economic environments of the study areas.
4.1 Geographic and administrative location of the project area
The Project will be located within the Brikama administrative area in WCR, and the feeders will the communities listed in the Districts indicated and Table 4.1 below. Figure 4.1 below provide the Project’s area of influence in WCR. Table 4.1: Project Affected Districts
Sub-Station Districts Covered Connected By Feeder No:
Brikama Kombo North 1
Kombo Central/Kombo East 2
Kombo East; Foni Brefet; Foni Bintang Karanai; Foni Kansala; Foni Bondali; Foni Jarol
3
Source: SD Focus Ltd., 2020
33
4.2 Delimitation of the Study Area
This section describes the direct and indirect areas of interest of the Project, and the general environmental baseline conditions of the study area. Indirect area of influence is the WCR and Districts where the Project sites are located. The direct areas of influence (the exact sites of the Project implementation) are the 23 corridors where the lines will run through, including the distribution substations. The delimitation of these two areas of influence was derived by a GIS analysis of the available data. Specifically, the identified project villages (direct areas of influence) were delimited by overlaying the 100km buffer created around the proposed sub-station in Brikama. The result of this analysis is indicated in Figure 4.1 showing the administrative location of the Project sites, which also highlights the Project’s indirect areas of influence. Regarding the baseline conditions of the study area, it will be noted that, in general the conditions will not be very different from one corridor to the other, especially given the small size of the country; issues such as climate, relief, landform, forest and vegetation cover are for the most part similar. In this regard the description will be general in nature, but where an issue of critical environmental, social, and cultural significance is encountered along any corridor, it will be reviewed specifically, and addressed accordingly.
32
Figure 4.1: ECOWAS – REAP: Administrative Locations and Areas of Influence of Brikama Feeder Lines - Source: SD Focus Ltd., 2020
10
4.3 Current State of the Environment of the Indirect Areas of Influence
4.3.1 Biophysical Environment
I. The Physical Environment
i. Climatic Conditions The climate in the Gambia is of the Sudano-Sahelian type and is characterized by the occurrence of two distinct seasons: a hot rainy season from May/June to October, and a dry season from November to May with rare occurrence of rainfall in May. Rainfalls are typically heavy nationally, but the south-western part of the country records more rain than the eastern portion, as indicated in Table 4.2 below. July, August, and September are the highest rainfall months. During the rainy season, south-westerly monsoon winds combined with heat from the continent, and because of the northward movement of the wind, give rise to the formation of thundery activities. These are usually accompanied by strong winds and heavy downpours, causing localized flooding and erosion, especially of edges of streams, culverts, and bridges located along some of the main road corridors. This is of vital importance in those proposed Project sites prone to erosion and flooding. Transmission poles erected in these types of environments can be impacted by this phenomenon. Table 4.2: Recorded Annual Rainfall in Project Regions (mm) 2009-2018)
Year/Region WCR LRR CRR-N CRR-S NBR Annual Mean
2009 1,418.7 999.4 1002.1 655.2 1,297.8
1,074.6
2010 1,203 1194.1 998.8 867.2 1,134.5
1,080
2011 881 634.4 846.3 689.4 533.8 717
2012 1,374.1 1558.1 901.8 922.4 1,515.2
1,254.3
2013 1022.4 900.7 896 1,039.8
788.2 929.4
2014 613.6 607.4 668.1 489.4 615.9 598.9
2015 1,253.5 984.1 668.5 797 1,140.5
968.7
2016 822.2 1156.3 952.4 860.4 827 923.7
2017 868.1 930.6 696.6 813.3 943.9 850.5
2018 889.8 745.8 567.7 854.5 645.5 740.7
Regional mean 1,034.6 971.1 819.8 798. 8 944.2
Source: Department of Water Resources, 2019
In the dry season (during the months of December to April) north-easterly winds (the Hamattan) blow from the Sahara towards the western coast of Africa resulting in the presence of dust particles in the air, and general cloudless skies and dry air. Much sunshine is received all year round throughout the country. Monthly mean temperatures in the rainy season vary between 29oC and 32oC, and from 15oC to 23oC in the cooler dry season.
11
ii. Hydrology
Surface Water The surface hydrology within the Project’s sphere of influence consists of the Tanbi Wetland National
Park (TWNP) located at the mouth of the River Gambia, and occupying an area of approximately
6,000ha (of which mangroves make up 4,800ha). Whilst most of the Project area is out of the Park,
settlements that border it to the south include the village of Mandinari, a potential ECOWAS-REAP
site.
The community of Tunjina (a potential project site) is drained by the Mandinari “bolong” (Mandinka
name for tributary) a tributary of the River Gambia whose banks are lined with mangrove vegetation.
Another tributary that will influence the Project is the Kandong “bolong” in Foni Bintang Karanai (500m
from the community of Kandunku. At high tide, the bolong submerges an entire portion of the road
leading to the village.
Another surface hydrology within the Project’s sphere of influence is mainly the run-off and storm water during the rainy season which runs into tributaries and adjacent fields. Pole construction in swampy areas, or along pathways of storm water could potentially impact transmission poles.
Groundwater Resources Within the Project sites the ground water is tapped mostly from two main groundwater sources namely, the Shallow Sand Aquifer (SSA) and Deep Sandstone Aquifer (DSA), (the former is essentially where the local hand dug wells tap their supply along the route of the project).
a) The Shallow Sand Aquifer (SSA) System The Shallow Sand Aquifer (SSA), found throughout the Gambia and much of Senegal, is tapped throughout the Gambia for water supply. This aquifer system from the MioPliocene age occurs at depths between 15 and 120m below ground level. Within the Gambia, the SSA is subdivided into two, the Upper Phreatic Aquifer and the Lower Semi-confined Aquifer. The two are separated by a clay-silt aquitard. The SSA is composed in average of medium to coarse sand.
The Upper Phreatic Aquifer: All hand-dug wells and some shallow boreholes along the proposed corridors feed from the Upper Phreatic Aquifer. This aquifer comprises mainly fine-to medium grained quartz sands with intercalations of silt and clay.
The relatively thin aquifer (with a thickness of 1 to 20m) occurs at depths between 10 and 30m which is mostly the depths of local wells within the proposed Project sites.
The Lower Semi-confined Aquifer: The majority of boreholes (mostly provided by Government as portable water for the communities) in the various communities targeted by the Project tap this aquifer, which is constituted of mainly yellow-white fine- to medium-grained sands. The aquifer depth varies between 10 and 50m below ground level. The groundwater level is generally found at depth between 10 to 20m. Groundwater generally flows from South to North. The transmissivity values range from 100 m2/day to over 750 m2/day. The hydraulic conductivity ranges from 5 to 20 m/day.
b) The Deep Sandstone Aquifer (DSA) System The Deep Sandstone Aquifer (DSA), is constituted of Palaeocene and Maastrichtian sandstones; it underlies the whole of the Gambia and a large part of Senegal. It is confined by a 200m to 300m
12
thick sequence of mainly clays and marls. The groundwater in this aquifer moves from east to west; it is of fossil origin and 4,000 to 40,000 years old. This aquifer is tapped in most countries in the sub-region. However, it is not used for drinking water supply in the Gambia.
iii. Geology and Soils The geomorphology of the Gambia is dominated by the Gambia River, which divides the country into
two strips of land no wider than 30 km. From the river outwards, there are three topographic regions:
the valley bottom; dissected plateau with sand; a sandstone plateau.
The Valley Bottom
The valley bottom is the area immediately along the Gambia River and its tributaries and is
characterized by poorly drained alluvial sediment formations. These areas are subjected to regular
seasonal flooding. The combination of low-lying topography, poorly drained soils and abundant water
provides unique and diverse habitats. The seasonally inundated swamps or Faro in Mandinka appear
on either sides of the river for more than 2km away from the river.
The soils and vegetation in the valley bottom is primarily influenced by the hydrology; the soils are
generally clay and alluvium and heavily impregnated with salt. This is because in the western part of
the country, the river Gambia is mainly salty or brackish.
Dissected plateau with sandy hills
Upland, from the River, the country is dominated by dissected plateau with sand hills. This area is
characterized by gentle rolling sand hills alternating with shallow valleys. In the coastal region, the
soils are generally unconsolidated marine and aeoline sand with intermittent low-lying sand dunes. In
central and eastern Gambia, the plateau is broken up by few flattop laterite sandy hills. The plateau is
the center for groundnut (the country’s number one cash crop) and coarse-grains (millet and sorghum)
production.
Sandstone Plateau
The eastern end of the country consists of low, rocky sandstone hills, which extend into Senegal. The
hills (occupying about 4% of the total land area) are often unproductive rugged, uncultivated, and un-
vegetated. The soils of this region are infertile but respond well to phosphate and nitrogen. Major
crops in this area are groundnuts and millet.
iv. Topography and Land Use As in many parts of the Gambia, the topography in the Project’s area of influence is generally flat and low-lying with an approximate altitude range of between 12.2m to 51.2m GD. Land use in most parts of the proposed project sites is a mixture of a few farmlands (cultivating mostly groundnut, and backyard plots for maize) and of mostly plantations and orchards (manly of mangos, oranges, and cashew). A number of well-established orchards of cashew and mango exist along, or close to some parts of the corridors. Vegetable gardening is common, usually practiced by mainly women. Gmelina plantations are common within the Region. Residential, commercial, and social amenities (such as schools) predominate the settlements through which the proposed transmission lines will run.
13
II. The Biological Environment
i. The Vegetation and Forest Resources The following vegetation types are found along the proposed line corridors:
Riparian Vegetation A riparian vegetation or riparian woodland is a forested or wooded area of land adjacent to a body of water such as a river, stream, lake, marshland, estuary, or reservoir. This vegetation type is found along corridors with swampy and marshy environment such as the wetlands of the Tunjina and Kondonk. Specifically, to access the community of Kondonk, the proposed line will have to cross the Kajara “bolong”. The vegetation within these areas includes white mangroves; it is likely that some parts of these habitats and vegetation will be affected by the line routing.
Mangrove Vegetation Mangrove forest dominates the fringes of the TWNP at Mandinari. The species found are the red mangrove (Rhizophora spp.), and the white mangrove (Avicennia sp.). There is also the salt tolerant species such as the bitter leaf (Vernonia colorata); the following woody species, as indicated in Table 4.3 are found within the mangrove belt.
Table 4.3: The Mangrove Vegetation Along some of Proposed Corridors
Scientific Name Common Name Source of identification
During field visit
Reported by Locals/DPWM
Bibliographic Research
Rhizophora harissionii Red mangrove X X
Laguncularia racemose White mangrove X x
Avicennia nitida Black mangrove X X
Conocarpus erectus Button mangrove X X
Vernonia colorata Bitter leaf X X x
Source: DPWM, 2019
The Wooded Savannah Given that many parts of the earlier forests in WCR have given way to residential use and plantations and orchards, the typical wooded savannah (defined as having a canopy cover of more than 40 percent and reaching a height greater than 8m) has reduced along most of the proposed corridors.
The dominant species found within the corridors are the African locust beans (Parkia biglobosa), and the rose wood (Pterocarpus erinaceus). Shrubby species found include the bush willows (Combretum nigricans), and the Chinese date (Ziziphus mauritiana), and the fruit locally called ditakh (Detarium senegalensis). See Table 4.4 below.
Other forest trees along the corridors include the baobab (Adansonia digitata), which is planted for its shade as well as for food; its fruits are eaten and have certain uses as medicine; its leaves are used as vegetables, for sauces; its bark can be used as rope for tethering cattle.
14
Table 4.4: Vegetation Found in Wooded Savannah along the Project Corridors
Scientific Name Common Name Source of identification
During field visit
Reported by Locals/DPWM
Bibliographic Research
Parkia biglobosa African locust beans X X
Pterocarpus erinaceus Rose wood X X
Ziziphus mauritiana Chinese date X X
Adansonia digitate Baobab X X
Detarium senegalensis ditax, ditakh, detar, tallow X
Combretum nigricans Bush willows x
Source: Adapted from NNP Management Plan, 2020
Fruit Trees Fruit trees are planted along the proposed line trajectories outside private compounds aligning the road corridors, or within compounds, or are planted as orchards and fenced and well protected from stray animals. Typically, mangos and cashew trees are the main fruit trees that will be potentially impacted by the lines because they are planted along many of the proposed corridors, including along the Shom-Omorto corridor.
These trees (see Table 4.5) are important as a source of supplementary food for families, and in some instances, the fruits provide cash to the owners. Mangos also provide shade for family and individual relaxation. Thus, felling the trees by NAWEC’s contractors to make way for the lines could deprive these families of both food and income sources.
Table 4.5: Fruit Trees along the Corridors
Scientific Name Common English Name Source of identification
During site visit
Reported by Locals/DPWM
Bibliographic Research
Mangifera indica, Mango x X
Adansonia digitate Baobab x X
Anacardium occidentale
Cashew x X
Source: SD Focus Ltd., 2020
Others fruit trees include the baobab (Adansonia digitata), which is planted for its shade as well as for food, its fruits are eaten and have certain uses as medicine, and women make drinks from it for supplementary income; its leaves are used as vegetables, for sauces; its bark can be used as rope for tethering cattle.
In the country, many trees along existing transmission line corridors (including those located within natural forests) are usually affected by NAWEC transmission lines. They are pruned by NAWEC (especially before the rains) when the branches grow too close to the lines, rather than felling the whole tree. This practice is repeated periodically as the trees regenerate new branches that threaten the lines.
It is not uncommon also that whole trees are felled to make way for transmission lines, and this could include both private fruit trees and forest trees located along the trajectories of the lines. Contractors should ensure they fell only trees that need to be felled (e.g. if sited on a pylon location) and prune the rest.
Private trees should not be impacted (pruned or felled) without the consent of the owners, and indeed where they must be impacted, a RAP should be developed to address any potential social impacts. By
15
the same token forest trees that need to be felled must be noted, and in consultation with the DOF a tree-replacement program developed; after all, the loss of “green cover” and loss of carbon capture footprint as a result of the felling needs to be managed.
ii. Wetlands Along the Corridors Wetlands in the Gambia are essentially three types; the marine and coastal types found mainly in shallow marine waters, estuarine waters, and intertidal mud flats; inland water type wetlands, which include permanent and seasonal rivers, riverine flood plains, freshwater marshes, seasonal freshwater lakes; artificial type wetlands which essentially are mainly irrigated land such as rice fields, etc. Parts of some of these water bodies serve as fishing areas for the local communities, cattle drinking and watering points, and the adjacent plains used for rice cultivation. The Kandong “bolong” (tributary) in Foni Bintang Karanai, is about 52m wide at its crossing to the village of Kundunku and consists of three culverts. The proposed transmission line will cross the “bolong”, (wet and swampy ground). (see Figure 4.2). The construction of poles and lines within this area will have to use technologies that will protect the poles from collapsing over time due to saturation of the ground, and at the same time maintain the integrity of the ecosystem.
Figure 4.2: Wetland along the proposed Kundunku line corridor - Source: SD Focus Ltd, 2020
For swampy or wetland areas within the Project area, poles higher than 12m with required standard characteristics are preferred to ensure enough clearance from ground, achieve lower pole spans say up to 150m thus reducing the number of poles to be erected within those wetlands.
Sample of pole construction methods suited to these types of environments is indicated below in Figure 4.3.
16
Figure 4.3: Appropriate pole construction methods in wetlands - Source: SD Focus Ltd., April 2020
For more specification and mitigation measures in such circumstances, see Chapter 6 on the impacts on Wetlands.
iii. The Fauna The fauna along the various corridors are described below.
Mammalian Fauna The mammalian fauna along the numerous line corridors is generally influenced by the open forests, which are home to various invertebrates, reptiles and mammalian species. Table 4.6 lists the mammals found along the corridors.
Among the primates is the Patas monkey (Erythrocebus patas) and the Green vervet (Chlorocebus sabaceus). The wart hog is also present in large numbers and is another pest especially for ground nut. Other mammalian fauna encountered include as listed in Table 4.6
Table 4.6: Mammalian fauna found along the ECOWAS-REAP corridors
Scientific Name Common Name Source of identification
During field visit
Reported by Locals/DPWM
Bibliographic Research
Epomophrous gambianus Gambian fruit bat x x
Cercopithecus aethiops Green vervet monkey X x
Erythrocebus patas Patas monkey x x
Colobus badius temmincki Red colobus monkey x x
Heliosciurus gambianus Gambian sun squirrel X
Euxerus erythropus Striped ground squirrel x
Cricetomys gambianus Giant Gambian rat x
Tragelaohus scriptus Warthog x x
Source: SD Focus Ltd., April 2020
The Avifauna The list of bird species recorded within the various corridors, like the mammalian fauna, are influenced by the open forests. Table 4.7 below indicates the types that are found.
17
Table 4.7: Avifauna Found Along the Corridors and in WCR
FAMILY Common Name Source of identification
During Field Visit
Reported by Locals/DPWM
Bibliographic Research
Ardeidae Herons/Egrets Tiger heron
X X x
Threskiornithidae Ibises/spoonbills X x
Accipitridae: Eagles Hawks/Vultures/
Vultures/Hawks/ Eagles
X X
Nectatindae Sunbirds X
Corvidae Crows X
Picidae Woodpeckers X
Columbidae Black billed wood-dove X
Ploceidae Black-headed weaver X
Ploceidae Black-necked weaver X
SD Focus Ltd., April 2020
Reptiles Table 4.8 lists the reptiles recoded within the corridors.
Table 4.8: Reptiles Found Along the Corridors
Scientific Name Common Name Source of Identification
During Field Visit
Reported by Locals/DPWM
Bibliographic Research
Tarentola ephippiata Fig-tree gecko X
Hemidactylus brokki angulatis House gecko X
Agama agama Rainbow lizard X
Chamaeleo senegalensis Senegal chameleon x
Veranus niloticus Nile monitor X
Matuya perotettii Red-flanked skink X
Python sebae sebae Rock python X
Python regius Royal python X
Source: DPWM, 2019
2.4 Description of Activities by Project Phases
The work will be broken down into four (4) main phases:
2.4.1 Description of Construction Works of the 33/30 kV Medium Voltage (MV) lines Phase 1: pre-construction phase
Preliminary works:
- work site installations or building of camps (office, water supply, toilets etc.);
18
- serving land/space for storage of materials and equipment;
- installation of road safety signs surface preparations;
- identification of the various existing networks in the corridors/right of ways (electricity, telecoms, water pipes sanitation etc.);
- identification of quarries for mining of gravel (wash stones);
- land clearing and preparation of corridors including access roads;
- transportation of equipment and tools to the sites;
- arrangements for residential/accommodations for professional staff;
- identification of water supply points for civil works and related activities;
- preliminary line surveys.
Phase 2: Construction and Installation of Equipment
Preliminary activities:
- final field survey detail engineering works for review and approval by client and consultant;
- pole spotting surveys;
- transportation of poles, cables cross arms, insulator, and other line hardware.
Physical works activities
- excavation of pole foundations;
- erection of poles fitted and dressed in the required cross arms and hardware fixtures;
- mounting of pulleys on the poles and related fixtures for stringing and conductor alignment;
- earthing cable connection to the poles (earth cable buried with the concrete)-
Testing and commissioning
- testing of the line with voltage through voltage injection or from the primary substation;
- switching of the line from source and observation of the performance of existing installation on the line;
- testing of the line continuity and insulation with meggering equipment and devices.
Phase 3: Equipment Operation and Maintenance
Operation and Maintenance:
- Operational activities such as, switching arrangement planned and unplanned maintenances, installation of new equipment and demand-side management;
- trimming of trees, branches that have re-grown towards the conductors;
- periodic inspection and maintenance of fixture and hardware materials;
19
- periodic inspection and maintenance of civil works (pole foundations) in wetland areas;
- clearing sites of vegetation that have re-grown within the corridor.
Phase 4: Decommissioning
It is anticipated that the distribution line facilities will be continuously maintained and repaired and will be operated for close to 30 years of design lifetime or more. Because of their long usable life, the circumstances under which they might ultimately be decommissioned are not foreseen at this stage. Thus, only general decommissioning approach will be considered.
The process of decommissioning will involve the deconstruction of distribution lines (in reverse from construction) using similar equipment and techniques. Conductors will either be re-used or taken to steel/aluminium rolling mills for recycling; salvaged poles will either be re-used as fencing poles or taken to NEA approved disposal sites.
Preliminary Decommissioning:
- inspection of the lines to determine their status;
- preparation of temporal site for packing of dismantled materials before sending them to final disposal sites;
- identification of access roads within the corridors and to the temporal packing site;
- accommodation for professional staff and equipment operators during decommissioning activities.
Ground Activities:
- dismantling of cables and rolling them in to bundles, or into used drums for easy transportation;
- removal of insulators and other hardware equipment and materials;
- dismantling of pole foundations and uprooting of poles;
- transportation of poles, cables, insulators, and hardware materials to temporal site;
- management of disused elements and the sites after dismantling of structures and facilities;
- re-vegetation of earlier deforested areas due to the Project;
- remediation of aesthetically unacceptable sites and removal of any stained soil;
- monitoring of contaminants, if any, or improper disposal or recycling of dismantled materials.
2.4.2 Description of Construction Works of the Distribution Sub-Stations
Phase 1: Pre-Construction Phase
Preliminary:
- Identification of load centers in the communities for placement or installation of distribution transformer stations. Such sites must be well drained, clear of overhead obstruction and not in hazardous areas.
Phase 2: Construction and Installation of Equipment
20
Physical works
- installation of H-poles (2 poles) with transformer mounting H-frame between the poles;
- installation of cut-out MV fuses assembly, MV surge arrestors;
- mounting of transformers on the pole frames.
- monitoring of transformer contaminants to prevent leakage or improper disposal or recycling;
- installation of LV distribution boards below the transformer equipped with LV circuit breakers, busbars with LV breakers or fuse carriers for outgoing LV feeders/circuits;
- earthing of the entire sub-station with earthing material.
Testing and Commissioning Activities for the Substations
- Connection of transformer installation to the grid voltage;
- testing of input and output voltages of the transformer and LV distribution boards and feeders (50Hz) frequency;
- testing of earth resistance and possible improvement to the required levels;
- testing of the transformer insulation level with and without voltage.
Phase 3: Equipment Operations and Maintenance
- Transformer routine inspection and maintenance such as oil leakages, cables, and fixtures;
- routine inspection and maintenance of other key substation fixtures such as surge arrestors, MV fuse cut-out, etc.;
- switching of LV board feeders for system operational activities such as load shedding, maintenance activities, tree trimming exercises and customer service connections if need be.
Phase 4: Decommissioning
Even though decommissioning of such installation is not common in The Gambia, replacements after useful life of the transformer substation is possible, or were the transformer is overloaded and replaced with higher capacity as well as fixtures such as fuse cut-out current ratings. Thus, only general decommissioning approach has been considered.
- Dismantling of sub-station fixtures on the MV lines such as surge arrestors and fuse cut-outs;
- dismantling of LV distribution boards and accessories;
- dismantling of transformer and support structures;
- transportation of materials to recycling facilities or to NEA approved waste sites.
2.4.3 Description of Construction Works of the 400V Low Voltage Lines
Phase 1: Pre-construction phase:
21
Preliminary
- identification of LV line corridors within the communities;
- preliminary survey activities of the LV networks in the communities;
- details Surveys and engineering works by the Contractor for the LV lines for approval by the client and consultant.
Phase 2: Construction and Installation of Equipment
- Pole spotting survey;
- pole excavations to the required depth;
- pole transportation and erection with the required concrete mixture;
- connection of LV line fixture such as clamps to the poles;
- connection of earth installations within the LV network as specified by the approved design;
- stringing with the use of cable stringing tools and equipment such as pulleys, ‘come-along tongues’, cranes, etc.;
- application of line anchors, line taps and other accessories where feasible;
- connection of LV lines to the LV distribution board feeder lines;
- numbering of poles according to feeder/circuit.
Testing and Commissioning Activities of the LV network
- Commissioning of LV lines with testing and measurement of voltage on several points of the LV lines (between phases and Neutral);
- verification of proper operation of other equipment such as streetlights. Testing of LV earthling systems and possible improvement;
Phase 3: Equipment Operation and Maintenance
- periodic trimming of branches or trees that might dislocate the line from the pole;
- repairs of reported faults from customers;
- repairs and maintenance due to accidents by vehicles and damages from windstorms.
Phase 4: Decommissioning
As mentioned in other sections, decommissioning of such installations are not common in The Gambia and are not foreseen. However, replacement of such installation during maintenance and upgrading works do occur. Thus, only general decommissioning approach has been considered, including:
- Inspection of the LV line corridors and installation to establish the state of the installations and challenges such as access for equipment and material movement;
- dismantling of LV cables and accessories packed in rolls or in used cable drums to be reused or sent to steel/aluminium rolling mills for recycling by scrap collecting companies;
- disposal of salvaged poles, cables, and accessories at approved disposal facilities;
22
- remediation of aesthetically unacceptable portions of the site and removal of stained soil;
- monitoring to prevent improper disposal or recycled salvaged material.
2.4.4 Description of the Supply and Installation Works of the Last-mile Connection Equipment, including Service Drops, Prepaid Meters, and Ready Boards for LV Customers
Phase 1: Pre-Construction Stage
- Customer application and survey processes;
- payment of meter invoices, if required;
- allocation and commissioning of meters with customer details as well as relevant network data such as pole numbers next to the customer;
Phase 2: Construction and Installation of Equipment
- installation of service poles or brackets by the customer at designated positions if required;
- boarding of meters in meter cabins or on plywood sheets;
- installation and testing input and output voltages of meters at customers’ premises;
- customer service points/offices for rendering services to the customers;
Phase 3: Equipment Operation and Maintenance
- Repairs and maintenance of customer faults;
- inspection of installation to verify proper operation as well as electricity theft;
- monitoring and evaluation of customer commercial data to help enforce field inspections;
- recoveries for sub-charges and penalties of electricity theft.
Phase 4: Decommissioning of Equipment
A general decommissioning approach has been considered to include:
- Dismantling of service cables and fixtures;
- dismantling of meters from the premises;
- transportation to temporal recycling facilities or to approved waste disposal sites.
2.5 Works Input
2.5.1 Personnel Personnel is an important input for the efficient and timely implementation of all aspects of the project. Whilst unskilled workers may be hired directly from major settlements in the Project areas, skilled ones will unavoidably be imported from other parts of the country. The presence of these personnel will definitely generate impacts especially as they relate to the waste they will generate as well as health and social concerns they may bring along or engaged in.
23
2.5.2 Water For all the works in the Project, water will be required for activities such as mixing of aggregates. Water for such works will be sourced from pipe-borne water supply provided by NAWEC in many of the major settlements in the Project areas, stand-alone solar powered water supply systems, or hand pumps. All these sources of water can be used for construction works. In many instances, contractors use water tankers to transport water for use at construction sites and as well as store them in designated reservoirs.
2.5.3 Quarries Designated sand and gravel quarries are available in all the Regions of the Country. In some cases, these are located in relatively close proximity to the ECOWAS REAP sites. These will provide the gravel/stone for concrete and other works. However, for major foundation works such as in wetlands, it is common practice to use imported basalt, whose added advantage is strength and durability. However, the use of quarries needs to be well coordinated with the NEA, Department of Geology and Mines and the Regional and Land Administration Officials and the local communities due to increased awareness of customary rights of these resources and the attendant benefits that accrue from the exploitation.
2.5.4 Equipment - heavy equipment will be used during the works; these will include but not limited to: - bulldozer for land clearing; - excavator for digging foundation; - in some cases, contractor may need to create or improve an access road e.g. access road
leading to a quarry and will need a compressor in that regard; - concrete mixers; - cranes for lifting, loading, and offloading of heavy equipment and project material; - trucks for transportation of materials and personnel.
2.6 Project Outputs
Personnel will certainly generate both domestic and sanitary waste which will impact the
environment. Imported personnel may potentially bring along deceases or transmit sexually
transmitted infections such as Human Immune deficiency Virus/Acquired Immune Deficiency
Syndrome (HIV/AIDS).
Water used in the Project will undoubtedly produce a certain amount of residual waste which can
contaminate the topsoil especially when mixed with cement. In addition to this, such wastewater can
impact water bodies close by, or the water table where it is not deep enough.
The operation of quarries equally has hugh impacts (gaping holes and ditches affecting tne aesthetics
of the environment) and therefore their management and use need to be well coordinated with the
NEA, the Department of Geology, and all other stakeholders.
The use of heavy equipment for land clearing and digging of foundations will affect trees and
agricultural lands. Similarly, trucks for transportation of materials and personnel will affect access
roads which may need to be created or improved for easy access to Project sites.
2.7 Assessment of Project Alternatives
According to the NAWEC Electricity Road Map, 2017-2021 national transmission capacity in power generation will be improved to eventually reach at least 80 percent of the country by 2021. However, in the face of resource constraints, it plans a gradual expansion of coverage, as resources become available, until it attains its ultimate objective of reaching universal access to electricity. It is in this regard that the ECOWAS-REAP has been launched to cover the selected 11 corridors in the 8 Districts
24
in WCR. The assessment of alternatives in project implementation in this report will look at the following:
1. Choice of Trajectory for Routing of Lines
In view of the fact that the implementation of the Project will be along so many different corridors, and in as many different Districts, it will be impossible to detail out in this report the specific reason(s) as to why the routing of each transmission line should be located at a particular trajectory as opposed to another based on the degree of adverse environmental or social risks of proposed Project activities. Thus, the reason for the choice of routings or placement of transmission infrastructure along each corridor cannot be detailed here. Appendix 4.3, “Location-Specific Baseline Environmental Conditions”, indicates the routings for the different lines (whether to the right side of the road alignment or to the left). Thus, either side of the road provides a corridor for the lines and using this trajectory will reduce the environmental and social impacts of the Project. However, where transmission infrastructure within the corridor is likely to encroach into virgin land and/or forest and vegetated areas, the selected routings will be behind these features. Along these trajectories, fewer trees are likely to be impacted, compared to what will be impacted along the corridor. In addition, where more communities are likely to be impacted along the corridors (many private properties are less than 5 meters from the edges of the various roads), the lines will be diverted behind the communities to reduce the social footprints of the Project.
2. Choice of design options for the transmission infrastructure The choice for the design of the transmission infrastructure in the Project is based, among other things, on the national experience and capacity of the staff of NAWEC, being more attuned to the existing types of transmission infrastructure. NAWEC technicians over time have become more knowledgeable on the technology and thus have developed dexterity in its use; the operational risks are fairly well understood. Given that the Project will be implemented in different types of environments, the following designs will be proposed for adoption at appropriate locations.
A. Preferred Type of Infrastructure Along the Feeders Along many of the corridors, numerous physical structures (including compound fences, dwelling houses, fruit trees, workshops, etc.) have been encountered, mostly built along the road alignment of the main transmission corridors. Particularly within built-up settlements, the approach that can be less damaging is double circuiting. Typically, feeders 2 and 3 have been existing transmission corridors. Feeder 2 will run from the Brikama power plant down to Mandinaba, routed along the existing 33kV MV of Feeder 3. From here it branches to the right up to the border of town of Giboro koto. Feeder 3 runs from the substation all the way to Kalagi. Since the MV line is in existence, the proposed ECOWAS-REAP will create mainly Tee-Offs: (MV line branch offs) (i) towards Giboro near the border; (ii) to Sohm; (iii) to Bintang; (iv) to Jifanga; and (v) Kanilai. Many communities within these MV lines have already been electrified.
The recommended option along these corridors is to reconfigure and adjust the existing MV lines to allow double line construction for feeders 2 and 3. This configuration will start from Brikama power plant all the way to Mandinaba where the two (2) lines will separate; Feeder 2 branching to the right to be connected to the existing tee-off leading to the border town of Giboro. The environmental advantages of double-circuiting on the existing line include the fact that:
25
• double circuiting leads to no new corridor. A new corridor from the Brikama plant to Mandinaba will be a big challenge leading to extensive social impact as the area is highly urbanized with lots of business activities. The land-use patterns have already adapted to the existing corridor;
• magnetic fields may be reduced because new structure designs place line conductors closer together resulting in lower fields. Using corridor-sharing will minimize corridor requirements;
• no possible environmental impacts on human, fruit trees, forests etc.;
• no resettlement of persons; it is cost effect, since no RAP for compensation;
• cost saving since existing poles will be used, and existing conductors and insulators will be used for one of the circuits;
• it has operational flexibility and opportunity to limit power outage to large areas during lengthy maintenance hours with the possibility of one circuit supplying the other;
• it addresses the challenges of line routing from the plant due to many such feeder poles and lines within the Brikama plat/OMVG Sub-station;
• recovered materials such as cross arms could be used for other electrification other works or system maintenance.
Some of the disadvantages will include:
• power outages to existing customers on the existing line during the line re-configuration works to double circuits;
• possible impacts of equipment on nearby buildings and residences such as
(i) damages to building structures during civil and electromechanical works on pole adjustments;
(ii) impact on installation and business structures on the line corridor during pole works and line stringing.
• Challenges of maintenance, if the double circuiting is not well designed and implemented, leading to switching both circuits for maintenance works on either circuits/feeders. The “No Project” Alternative
Under a “No Project” alternative scenario, the adverse environmental and social impacts from the Project will not occur, but at the same time the potential Project’s benefits will not accrue to the communities. For example, without continuous electricity supply in the selected communities, the youth would not be able to develop skills and trades such as welding, carpentry, or other small businesses that rely on electricity to enhance their livelihood. In addition, women would not be able to produce ice blocks and cold drinks made from locally available plants such as baobab, “wonjo”, which are few of the livelihood activities they wish to undertake. However, the Project benefits are expected to outweigh potential adverse impacts, as discussed in
Sections 6.3 to 6.6; the benefits will enhance the socio-economic development of the country,
enhance access to electricity services to communities, improve livelihoods and enhance social
development nationally.
Without this Project, school, health infrastructures the Government offices in these areas will be
without enough or sustainable electricity which would help them to meet their objective to properly
26
serve the communities. The potential for small businesses to grow would never be realized without
stable and sustainable electricity.
In conclusion, given the potential impacts posed by the Poject within the proposed sites, the positive
and negative risks will be assessed in the subsequent chapters afer which relevant recommendations
will be made to address the impacts.
27
CHAPTER 3: RELEVANT NATIONAL AND INTERNATIONAL POLICIES, LEGAL AND INSTITUTIONAL
FRAMEWORK
This Chapter describes the various national and international policies, legal and institutional frameworks, as well as the World Bank and ECOWAS safeguard policies that will guide the development and implmentation of this ESIA and its ESMP. The relationships and relevance of these instruments viz-a-viz the Project are discussed.
3.1 Relevant National Policies
Table 3.1 below indicates the relevant national policies (listed in order of date adopted) that will guide
the development and implementation of the Project.
Table 3.1: Relevant National Policies
Policy Description Relevance to the Project
National Policy for the Advancement of Gambian Women and Girls (1999-2009)
Policy provides a legitimate point of reference for addressing gender inequalities at all levels of government and all stakeholders
Relevant to this Project since it will benefit both men and women equitably
National Youth Policy (2009–2018)
Policy aims to mainstream youth issues into the advancement of all sectors
Successful project implementation will encourage youth engagement in skills to reduce youth underemployment
Gambia Environment Action Plan, GEAP (2009-2018)
Integrated environment and natural resources management
Provides guidance in general environmental planning and natural resources management
Forestry Policy (2010-19) Promotes state and community forest development and management
Sixty-six gazetted forest parks are located in various parts of the country, some of which could be impacted by the project
Gambia National Gender & Women Empowerment Policy (2010–2020)
To mainstream gender in national and sectoral planning and programming to ensure equity and equality
Women will be consulted widely and will be involved in the local monitoring and evaluation process during project implementation
The National Health Policy, 2012-2020
Protects public and environmental health including nuisance and other risks associated with this Project
Relevant to this Project since dust, noise and other risks can be associated with the project activities
National Energy Policy (2014 – 2018)
Policy aims to increase electricity coverage nationally
All national electricity projects are implemented within the context of this Policy
28
The National Biodiversity Strategy and Action Plan (NBSAP), 2015
The NBSAP recognizes the conservation and sustainable use of biodiversity
Seven gazetted national parks and wildlife reserves are in various parts of the country that could be impacted by the Project. In addition, other ex-situ biological diversity could be impacted as well
National Climate Change Policy (2016 – 2025)
Policy provides the framework for managing climate risks, building institutions, capacities, and opportunities for climate-resilient development
Promotes energy efficient options
The National Elctricity Road Map 2017-2021
Road Map plans to improve power generation and transmission capacity NAWEC. In addition, aims to increase absorption capacity for the expected increase in generation capacity, and to reduce transmission and distribution losses
ECOWAS-REAP aims to increase access to electricity throughout the Region
National Strategic Environmental Assessment Policy (2017- 2021)
Aims to ensure environmental sustainability
Applies when developing policies, plans or programs in all sectors, including energy
National Development Plan (2018-2021)
Policy proposes to increase the national coverage of electricity
Project is an eclectricity access project
National Transport Policy, (2018-2027)
Defines the priorities and objectives in the transport sector, aimed to serve the country’s development goals
NAWEC’s electricty projects usually follow national road alignments under the National Transport Policy
Source: Sustainable Development (SD) Focus Ltd, 2020
3.2 The National Legal Framework
The legal framework that will guide the Project’s implementation are indicated in Table 3.2 below,
listed in order of date enacted.
Table 3.2: The Legal Framework Relevant to the Project
Title of Act or Regulations Description Relevance to the Project
Lands (Regions) Act, 1945
Regulates land tenure and property rights as well as general land administration in areas under Customary Land Tenure system. Act covers all Provinces land outside State Lands Areas.
Land in some of parts of WCR (Kombo East and the Foni) fall under this Act. Potential project sites are held and administered under this Act.
State Lands Act, 1990 Regulates land tenure and property rights as well as general
All lands in the Kombo North, Kombo South, and Kombo Central fall under this Act.
29
Title of Act or Regulations Description Relevance to the Project
land administration in State Lands areas.
Potential project sites in these areas are held and administered under this Act
Public Health Act, 1990
Protects public and environmental health including abatement of nuisances and any condition that may be injurious to health.
Relevant to Project since dust, noise and other risks can be associated with the Project.
Land Acquisition & Compensation Act, 1990
Provides for consultation, resettlement, and compensation of land.
Project might cause involuntary resettlement due to certain project activities such as tree felling, destruction of crops during line construction, etc. and the Act could be used in resettlement as compensations.
Physical Planning and Development Control Act, 1991
Ensures developments in The Gambia are in line with land use planning and construction standards.
The project construction activities shall be in line with national land use and planning rules.
National Environment Management Act, 1994
Principal legislation in environmental management; Part V of Act provides for certain projects listed under Schedule A to be considered for ESIA.
This Project falls under Schedule A which requires an ESIA.
Environmental Quality Standards Regulations 1999
Regulations declare standards set out in Schedule 1 in respect of ambient air, saline waters, surface fresh waters and groundwater.
Project implementation has potential to generate dust, and to pollute surface fresh waters as are found along some of the project corridors.
The Gambia Public Utilities Regulatory Authority Act, 2001
Act regulates the activities of providers of certain public utilities in the various economic sectors, including electricity, petroleum, and gas.
NAWEC, the proponent of this project will be regulated by this Act.
Environmental Discharge (Permitting) Regulations 2001
Regulations require that a permit is obtained for most discharges of potentially polluting liquids into or onto the ground (i.e. to groundwater) or into surface waters (such as rivers or streams).
Project implementation has potential to discharge potentially polluting liquids into the tributaries and other surface water bodies as may be found with the project’s Area of Influence (AoL)
Local Government Act, 2002
Act makes provisions for decentralized administrative structures including devolution of functions, powers, and duties to local authorities
Implementation of the Project will require the participation of decentralized institutions including the Office of the Governors of WCR as well as its Advisory Committees (TACs).
Gambia Roads Technical Services Authority Act, 2003
Act created the National Roads Authority to be responsible for the
The transmission lines will be constructed along the Road
30
Title of Act or Regulations Description Relevance to the Project
maintenance, construction, and safety of the national road network, and Road Reserves.
Reserves of the national roads network This Act prescribes the institutional framework and requirements for managing these road reserves
Biodiversity and Wildlife Act, 2003
Provides for the establishment of protected areas for protection of in-situ biodiversity; in addition to protect ex-situ biodiversity
Although no protected Park is within the Project area, biodiversity, outside the legally protected parks are in the Project’s direct area of influence, and may also be affected
National Council for Arts and Culture Act, 2003
Act empowers the Council to assume control and preserve, restore any monument, relic, ethnographical article, or other article of archaeological ethnographical, or historical relevance.
Project activities could unearth objects of historical relevance
Electricity Act, 2005
Promotes the development of the electricity sub-sector on the basis of the principles of a competitive and market-oriented economy.
As the main proponent of the project NAWEC and other electricity service providers are regulated by this Act.
The Children’s Act 2005
Act sets out the rights and responsibilities of children and provides for their care, protection, and maintenance
Rights of children impacted by the project need to be protected.
Mines and quarries Act, 2005
Act makes provision for prospecting for minerals, for carrying out mining and quarrying operations including gravel, sand, and for connected matters
Pole construction, including pole mounted substations, during project implementation involves use of sand and gravel aggregates mined along the road corridor.
Labor Act (2007)
Provides the legal framework for administration of labor, recruitment and hiring of labor, and protection of wages
The project hiring and management of its labor force should adhere to this framework
Anti-littering Regulations, 2007
Addresses waste management and pollution issues in relation to environmental health and hygiene
The project must ensure that all waste produced during all phases is well managed.
The Women’s Act 2010
Aims to advance women’s rights to land and natural resources in order to promote their economic and social empowerment
Relevant to this project in view of potential impact on agricultural land farmed by women; need for adherence to OP 4.12; avoid gender-based violence (GVB) and sexual exploitation and abuse (SEA)
31
Title of Act or Regulations Description Relevance to the Project
Environmental Impact Assessment Regulations, 2014
The EIA Regulations elaborate on the requirements for EIA procedure, environmental impact statements, approval, environmental monitoring, etc.
The Regulations provide more details for the EIA of this project and implementation of its ESMP.
The Forest Act, 2018
Provides framework for implementation of Forestry Policy, and framework for the reservation and management of forests.
Sixty-six gazetted forest parks are located in different parts of the country, including proposed Project sites; some of these may potentially be affected by the Project. This ESIA recommends that all forest parks, including community forests be avoided and where impossible alternative options and mitigation measures such as tree replanting will be employed
Sexual Offences Act, 2013 Updates the law and procedures regarding the trial of rape, sexual offences, and related matters
This Act is relevant to the Project due to the need for protection of vulnerable persons within the Project sites against sexual offences, which is defined in the Act
Source: SD Focus Ltd., 2020
3.3 Relevant International Conventions and Agreements
The most important of these international conventions and agreements to which Gambia is a Party that are relevant in this Project are as indicated in Table 3.3 below.
Table 3.3: Relevant Regional and International Conventions Signed/Ratified by The Gambia
Agreement/Convention Date of signature / ratification
Objective Relevance to the Project Activities
ECOWAS Energy Protocol A/P4/1/03
Signed 2003
Promotes energy investment and trade in West Africa
This Project prepares for future capacity expansion to accommodate regional projects such as those of the OMVG, West African Power Pool (WAPP).
United Nations Convention on Biological Diversity (CBD)
Ratified 1994
The CBD promotes not only the protection of flora and fauna, but linkage with humans and dependence on such biodiversity for
The project activities will lead to the vegetation destruction and the stripping of soil (use of quarry for the construction of works), burning in preparation to install base camp, poles, etc.). The project is challenged by this convention. This ESMP of this study has defined
32
Agreement/Convention Date of signature / ratification
Objective Relevance to the Project Activities
food, medicine, shelter etc.
measures to rehabilitate degraded sites by the works to prevent the loss of biodiversity.
Convention to Combat Desertification (CCD)
Ratified 1996
Protection of forests to avoid desertification
The project activities will lead to the
vegetation destruction and the
stripping of soil (use of quarry for
the construction of works), burning
in preparation to install base camp,
poles, etc.). The project is
challenged by this convention. This
ESMP of this study has defined
measures to rehabilitate degraded
sites by the works to contain
desertification.
United Nations (UN) Framework Convention on Climate Change (UNFCCC)
Ratified 1996
Relates to all energy projects with regards to sustainable sourcing
The loss of trees and vegetation will mean loss of “green cover” and loss of carbon capture footprint.
United Nations Convention on the Elimination of all Forms of Discrimination Against Women (CEDAW) and the Optional Protocol to the Convention on the Elimination of All Forms of Discrimination against Women (OP-CEDAW)
Ratified 1993
Convention ensures the full development and advancement of women, for the purpose of guaranteeing them the exercise and enjoyment of human rights and fundamental freedoms on a basis of equality with men
Project has potential for resettlement as a result of project activities, especially on farmlands cultivated by women; the Convention highlights the right of women to own, manage, enjoy and dispose of property is central to their financial independence and may be critical to their ability to earn a livelihood and to provide adequate housing and nutrition for themselves and for their children; women should have access to benefits of this project as men.
UN convention on the rights of the child, (UNICEF1989)
Ratified 1990
The rights in the treaty include the right to education, the right to play, the right to health and the right to respect for privacy and family life
The project could potentially affect the right to health of the child through the generation of dust, and air pollution, poor waste management, and spread of malaria due to stagnant water in quarry pits.
Convention on the rights of persons with disabilities (CRPD) 2006
Ratified 2013
The Convention intends to protect the rights and dignity of people with disabilities; to
Persons with disabilities could potentially be impacted negatively by the project activities
33
Agreement/Convention Date of signature / ratification
Objective Relevance to the Project Activities
promote, protect, and ensure the full enjoyment of human rights by people with disabilities
The Convention Concerning the Protection of the World's Cultural and Natural Heritage (1972)
Ratified 1987
Convention aims to identify and protect the world’s natural and cultural heritage considered to be of outstanding universal value
Project implementation could potentially impact natural or cultural sites such as graves, mosques, or other cultural relics
Convention on Wetlands of International Importance especially as Waterfowl Habitat (RAMSAR Convention)
Ratified 1998
Convention is aimed at the conservation and sustainable use of wetlands
Project will be implemented along certain corridors that have wetland environments and ecology e.g. the wetland around the TWNP declared a RAMSAR Site in 1986 by The Gambia Government
Convention on Migratory Species (CMS Convention)
Signed 2001
Also known as the Bonn Convention, aims to conserve terrestrial, aquatic, and avian migratory species throughout their range
Project will be implemented in the within areas that are flyways of migratory birds
Source: SD Focus Ltd., 2020
27
3.4 Institutional Analyses
NEA, supported by a multi-sectoral Environmental Impact Assessment (EIA) Working Group, is the
custodian of the EIA process in the Gambia. It is in this capacity that it serves as the secretariate of the
EIA Working Group which is composed of different public and private sector Institutions. All these
Institutions are relevant in the implementation of this Project and by virtue of their respective sectoral
mandates have some fair level of capacity in environmental management.
However, other Institutions such as the National Council for Arts and Cultur (NCAC), the Women’s
Bureau and ihe Department of Social Welfare are also relevant in the implementation of the Project
but are not members of the EIA Working Group. By their individual sectoral mandates, these
Institutions have limited capacity and experience in environmental management and therefore would
require some form of capacity enhancement.
27
3.5 Institutional Framework
The institutional framework relevant to the implementation of this Project is as indicated in Table 3.4. Table 3.4: Institutional Framework relevant to implementation of the Project
Institutions Specific Responsibilities Interests and roles in this Project implementation
Level of intervention
National Environment Agency (NEA)
The NEA enforces the NEMA,1994 and EIA Regulations 2014
Evaluation of the ESIA report; grant Environmental Approval for the Project; monitoring the ESMP implementation
All phases of the Project from planning and design to the construction and operation
Ministry of Environment, Climate Change and Natural Resources
Oversees the NEA and implementation of environmental laws and policies of The Gambia
Policy guidance; oversees the Department of Forestry and Department of Parks and Wildlife Management that are key to this Project
All phases of the Project from planning and design to the construction and operation
Ministry of Lands and Regional Administration
Oversees all the local government authorities. Its regional representatives are the TACs located in the offices of the Regional Governors.
the Ministry will support in the coordination of involuntary settlement as it enforces all legal regulations on land administration and land use
Pre-construction, construction, and operation phases
Offices of the Governors, CRR, LRR, NBR
Oversee the Regional Technical Advisory Committees (TACs) for CRR, LRR, NBR
the TACs will support the implementation and monitoring processes of the Project at Regional levels
Pre-construction and construction phases
Ministry of Health Responsible for overall formulation and direction of the national health agenda, planning and health infrastructural development
providing guidance on transmissible diseases to consider during sensitization promoting safe and healthy environments at projects sites responding to accidents
Pre-construction, construction, and operation phases
National Water and Electricity Company (NAWEC)
As the implementing arm of the MOE, NAWEC is the main operator and manager of electricity production in The Gambia
NAWEC is the executer of this Project in The Gambia coordinates and monitors the Project ESMP implementation through its PIU
All phases of the Project
28
Institutions Specific Responsibilities Interests and roles in this Project implementation
Level of intervention
Department of Forestry (DOF)
Responsible for the maintenance and development of forest resources in The Gambia. It recommends sites for forest reserves and parks, community forests and private forests, and monitors their management for sustainability
advises on forest boundaries relative to the Project sites implements forest restoration / replanting plans where available monitors encroachment of forests by the Project
Pre-construction, construction, and operation phases
Department of Parks and Wildlife Management (DPWM)
DPWM is responsible for the maintenance and development of National Parks and Reserves
advises on national parks and reserves that fall within the Project area of influence it is responsible for NNP, one of the major environmentally sensitive features to be potentially impacted by the Project
Pre-construction, construction, and operation phases
National Roads Authority NRA is responsible for overall planning, construction, maintenance, and management of the country's roads.
protects the road reserves along the main highways and feeder roads that will accommodate the transmission infrastructure of the ECOWAS-REAP advises on future plans, and procedures for road development that may require relocation of the T & D infrastructure
Pre-construction and construction phases
National Council for Arts and Culture (NCAC)
The Council is responsible for the control, preservation and restoration of any monument, relic, ethnographical article of historical relevance
confirms sites of historical importance with the Project area of influence prescribes the buffer outside which T & D structures may be erected monitors encroachment
Pre-construction and construction phases
Women’s Bureau Under the Ministry of Women, Children and Social Welfare, the Women’s Bureau specifically promotes gender equity and women’s empowerment in The Gambia.
ensures the rights women affected by the Project are protected participates in sensitization on gender issues
Pre-construction, construction, and operation phases
Department of Social Welfare
This government department protects and promotes the rights of vulnerable people such as children, women and the disabled.
supports and guides the process during related grievances and participates in sensitization on GBV, SEA, VAC etc.
Pre-construction, construction, and operation phases
29
Institutions Specific Responsibilities Interests and roles in this Project implementation
Level of intervention
Department of Labour Enforces employment laws and combats child labour
Protection of employee rights; Protection against child labour; Response to complaints and reports such as accidents, abuse and discrimination at work
Pre-construction, construction, and operation phases
33
3.6 Relevant Bank Policies
The following environmental and social safeguard policies of the World Bank have been triggered by the ECOWAS-REAP. Table 3.5: World Bank Environmental and Social Safeguards Relevant to the Project
Operational Policy (OP) triggered
Objective Applicability and relevance to the Project
OP 4.01 Environmental Assessment (including public participation and stakeholder engagement)
The objective of this policy is to ensure that projects financed by the Bank are viable and environmentally feasible. It covers the impacts on the physical environment (air, water, and land, etc.); the living environment, health, and safety of populations; physical cultural resources; and environmental concerns at cross-border and global level. Diffusion: OP 4.01 also describes the consultation and dissemination requirements. For Category A and B projects and sub-projects. This policy is triggered if a project is likely to cause risks and potential (negative) environmental impacts in its area of influence.
The project is challenged by this policy because the planned activities are going to generate risks and negative environmental and social impacts. Hence the need to carry out this ESIA.
OP 4.04 Natural Habitats
To support the protection, maintenance, and rehabilitation of natural habitats and their functions in its economic and sector work, project financing, and policy dialogue. The Bank supports and expects borrowers to apply, a precautionary approach to natural resource management to ensure opportunities for environmentally sustainable development.
There are swamps, wetlands, and waterbodies along the Project corridor that are home to various invertebrates, mammalian, including avian fauna
OP 4.11 Physical Cultural Resources
To assist countries to avoid or mitigate adverse impacts on physical cultural resources from development projects that are financed by the WB. The impacts on physical cultural resources resulting from project activities, including mitigating measures, may not contravene either the borrower’s national legislation, or its obligations under relevant international environmental treaties and agreements.
Cultural resources such as mosques and cemeteries could be impacted by the poles and transmission lines.
OP 4.12 Involuntary resettlement of populations
The overall objectives are: “(a) Involuntary resettlement should be avoided where feasible, or minimized,
The project has constraints as there is likelihood of social impacts which may lead to involuntary resettlement due to
34
exploring all viable alternative project designs. (b) Where it is not feasible to avoid resettlement, resettlement activities should be conceived and executed as sustainable development programs, providing sufficient investment resources to enable the persons displaced by the project to share in project benefits. Displaced persons should be meaningfully consulted and should have opportunities to participate in planning and implementing resettlement programs. (c) Displaced persons should be assisted in their efforts to improve their livelihoods and standards of living or at least to restore them, in real terms, to pre-displacement levels or to levels prevailing prior to the beginning of project implementation, whichever is higher
loss of economic trees, agricultural crops, temporary loss of earnings and loss of other livelihood as a result of the Project. Thus, this OP is triggered.
OP 4.36 Forests “The objective of this policy is to assist borrowers to harness the potential of forests to reduce poverty in a sustainable manner, integrate forests effectively into sustainable economic development, and protect the vital local and global environmental services and values of forests”.
The Project is challenged by this OP as there are Forest Parks, and Community Forests that may be affected by the implementation
3.7 Relevant ECOWAS Environmental and Social Safeguards triggered by the Project
Table 3.6 below presents the ECOWAS Safeguard policies triggered by the Project.
Table 3.6: ECOWAS Safeguard Policies Triggered by the Project
ECOWAS Environmental Safeguards
Objective Applicability and relevance to the Project
ECOWAS Energy Protocol (Protocol A/P4/1/03)
“To promote long-term co-operation in the energy field, based on complementarities and mutual benefits, with a view to achieving increased investment in the energy sector, and increased energy trade in the West Africa region”
The ECOWAS Energy Protocol is relevant to this ESIA as it states that energy projects must be evaluated and implemented for environmental sustainability.
ECOWAS White Paper for Increasing Access to Energy Services, 2006
To ensure increased use of renewable energy sources such as solar, wind, small-scale
Although the ECOWAS-REAP focuses on transmission and distribution, rather than
35
hydro, and bioenergy for grid electricity supply and for the provision of access to energy services in rural areas. To also assist the ECOWAS Member States to develop appropriate regulatory frameworks for the promotion of renewable energy technologies and services, thus reinforcing regional integration in the renewable energy sector
electricity production, it is relevant to this Project as it increases access to energy. The energy to be transmitted is from renewable sources, dams.
ECOWAS Environmental Policy 2008
To promote, guide and facilitate common understanding and approach within the ECOWAS Region for the control of land degradation, erosion, and desertification; loss of biodiversity; degradation of river and lake water resources; and degradation of coastal maritime ecosystems.
This Policy is relevant to the ECOWAS-REAP as it applies to all member countries, including The Gambia. The Policy also aims to protect natural resources which are likely to be impacted by the Project.
In conclusion, it will be noted that the policy and regulatory framework specified above will guide the
development and implementation of the report; sucessful project impmentation is based on the
Project’s adherence to these requirements.
III. Human and Socio-economic Environment
i. Demography and Population Table 4.9 is the summary of the demography of the communities that will be connected to the three
feeders from the proposed Brikama substation; the feeders will supply 8 Districts consisting of 126
communities and 13,939 households with a total population of 125,215 persons (male population
62,720, and female population 62,495). This is sourced from SD Focus Ltd, 2020 with data from GBOS,
2019. See Appendix 4.1 for detail.
ii. Physical Structures There are numerous physical structures (including compound fences, dwelling houses, welding, and carpentry workshops,) built along the road alignment of the main transmission corridors, particularly within built-up settlements. Examples of such corridors include the Brikama-Mandinaba-Serekundanding. In general, distances between compound fences and the highways range between 4m and 10m. Thus in some communities such as the Mandinaba/Giboro junction, where the distance between the structures and the edge of
36
the highway is 3m, the transmission lines will be so close to the physical structures that they pose a threat to the safety of the inhabitants of such structures. The lines will directly impact on these physical developments. See Appendix 4.3
iii Schools and Other Infrastructure Similarly, in certain communities’ social amenities such as schools and health posts/centers are located very close to the road alignment. In Besse, Foni Berefet St. Andrews Nursery School is a mere 2m from the edge of the road; besides, the school is only partly fenced with cement blocks, the most part left open, and unfenced. This can present health and safety risks to the children and staff of the school especially during pole construction and line stringing. Table 4.9: Brikama Feeders 1- 3: Summary of Communities Along the Corridors
Feeder #
# of Districts
# of Communities
# of Households
Population
Male Female Total
1 2 7 4,499 18,531 18,314 36,845
2 2 8 1,777 9,052 8,571 17,623
3 7 111 7,663 32,712 33,250 65,962
126 13,939 62,720 62,495 125,215
Source: GBOS, 2019
The Brikama feeders will pass through communities as indicated below:
• Feeder 1: Communities: From Brikama- Mandinari-Bafuloto;
• Feeder 2: Communities: From Brikama – Kembujeh–Giboro koto;
• Feeder 3: Communities: From Brikama- Mandinaba–Besse-Kalaji. Generally, these corridors have a relatively high number of private structures, such as dwelling houses, stores, and other commercial buildings, and mango or cashew plantations. Specifically, the Brikama-Mandinaba and the Shom to Omorto corridors are heavily populated, and several cashew and mango plantations are located within short distances from the edge of the roads. Generally, the lines will have to follow the road alignments within these areas, because behind them, there is hardly space for construction of poles and lines that will not result in heavy impacts on private structures and properties.
iv Chance Finds and Cultural Heritage and Archaeology There are sensitive sites of cultural and historical significance along some of the proposed line corridors; these include mosques, graveyards, and other historical relics. There is always a possibility of finding objects of cultural heritage by chance, particularly during land clearing and preparation for works along corridors. These may be disturbed or lost due to lack of knowledge in managing cultural heritage discovered by chance. Should any finds be uncovered, use Appendix 4.4 to address the issue, and meanwhile inform the NCAC to address it in a more professional manner.
v Disadvantaged and Vulnerable Groups Table 4.9 above presents the demography of the communities that will benefit from the Project; the women make up 49.5 percent of the beneficiaries along the Brikama feeders. Despite their numerical strength the women are generally often marginalized in the decision-making process as it relates to
37
the allocation of land. This is particularly relevant where they are engaged in agricultural activities; the impact of this marginalization is compounded by cultural norms and customs which tend to privilege men and boys over women and girls. In this regard land use and tenure rights tend to disfavor women as important decisions relating to land are made by the men, including inheritance, ownership, among others. Where women engage in vegetable gardening and cultivation of other cash crops along the corridors, their farms could very well be impacted in the same way as the men who are engaged in groundnut farming. However, given the male-dominated environment within these localities the adverse impacts would fall disproportionately on the women. Therefore, given their social status, women would be considered a disadvantaged and vulnerable group in this Project. Project activities (such as construction of poles and line stringing) that are carried out within farmlands will result in impacts that will potentially affect women disproportionately to men, especially if works are carried out during the farming season. In addition to women, other groups regarded as vulnerable and disadvantaged include the elderly and minors, and persons with disabilities. Like the women, these groups are more likely to be adversely affected by the Project impacts and/or more limited than others in their ability to take advantage of the Project’s benefits. For example, they may be unable to attend meetings for reasons due to their inability to reach the venues, and in this way will be excluded, and their voices and opinions may not therefore be considered. Thus, they could be excluded from, or unable to participate fully in the mainstream consultative process, and as such may require specific measures and/or assistance to do so. To ensure that these groups are not left out in the process, special efforts should be made to meet and discuss with them, especially bearing in mind that some of them (especially women) will potentially be impacted negatively when it concerns resettlement benefits relating to damaged crops. In this regard, all necessary assistance and support to these groups of persons will be ensured in the implementation of this Project.
vi Gender and Gender-Based Violence (GBV) The majority of the poor and extremely poor in the Gambia is made up of the women who make up to 50 percent of the national population. In 2019, The Gambia was ranked 174th out of 189 countries with a score of 0.466, according to the UNDP Human Development Report’s Index ranking. According to the Gender Inequality Index2 (GII), 2016 Gambia was ranked 143rd with a value of 0.622; poverty of the women is closely linked with very low literacy levels (40 percent for women and 64 percent for men) and education attainment rates for a variety of reasons including cultural norms and physical access. Women’s access to land remains largely based on customary law where the land belongs to founding families, and the user rights of in-married women depend on the continuation of their marriage within the family. Furthermore, women often lack access to credit for income-generating activities and generally have a limited role in the decision-making that affects their lives. This disadvantaged position of women in the family is deeply rooted in gender inequality, and it contributes to gender-based intimate partner violence.
2 The Gender Inequality Index (GII) reflects women’s disadvantage in three dimensions—reproductive health, empowerment and the labour
market—for as many countries as data of reasonable quality allow. The index shows the loss in human development due to inequality
between female and male achievements in these dimensions. It ranges from 0, which indicates that women and men fare equally, to 1,
which indicates that women fare as poorly as possible in all measured dimensions.
38
As it does happen often, GBV can cause economic and psycho-social harm to an individual through for example, property damage and restriction of access to resources; by impacting the person’s personal health and safety, leading to social exclusion; and by fostering dependency on their partners for all material needs which can often perpetuate the cycle of violence. Given the traditional and customary set-up in communal land use as noted above, in the event of resettlement for lost crop or economic trees in this Project, women could be impacted the most in accessing financial resources paid as compensation. In view of the above, particular attention will be paid to the needs of those impacted, including women and children, those below the poverty line, the elderly, etc.
vii Violence Against Children (VAC) Violence Against Children (VAC) is defined as physical, sexual, emotional and/or psychological harm, neglect or negligent treatment of minor children (i.e. under the age of 18), including exposure to such harm,3 that results in actual or potential harm to the child’s health, survival, development or dignity in the context of a relationship of responsibility, trust or power. This includes using children for profit, labor4, sexual gratification, or some other personal or financial advantage. This also includes other activities such as using computers, mobile phones, video, and digital cameras or any other medium to exploit or harass children or to access child pornography.
During the implementation of the Project, the potential areas where this can be manifested may include:
i. employing children under the age of 18 years ii. using children for personal or financial advantage by both contractors and employees iii. any other way to harass children, including sexual exploitation and physical or sexual
violence
In this regard, the Project Implementation Unit (PIU) and Contractors must ensure that no aspects of the Project works involve children under the minimum age of 16 for light work (as per The Children’s Act, 2005), and none under the age of 18 for hazardous work and work that impacts their schooling and social or moral development. The Labour Act, 2007 prohibits children under 18 from engaging in agricultural, industrial, or non-industrial work for economic gains. In addition, to strengthen and protect children against possible violence and exploitation, the Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV) and Violence Against Children (VAC) must be rigorously applied and monitored for compliance. These Codes will be included in the Contractors ESMP (Appendix 6.1 includes the Codes of Conduct for addressing GBV and VAC).
viii Access of the Population to Education The children in the communities along the various corridors have access to education; there are schools of different levels ranging from Lower Basic to Senior Secondary Schools, Colleges, and a University.
3 Exposure to GBV is also considered VAC. 4 The employment of children must comply with all relevant national legislation, including labor laws in relation to child labor and World
Bank’s safeguard policies on child labor and minimum age. They must also be able to meet the Project’s Occupational Health and Safety
competency standards.
39
ix Access of the Population to Electricity, Telephone Services Many parts of the corridors have access to electricity supply from the NAWEC grid; on the other hand, most of the Fonis, away from the main road do not have access to the NAWEC grid. They have expressed appreciation for this Project that will make it possible for them to have electric power.
Regarding telephone services, mobile network services are operational within the Project area. The four local mobile telephone companies extend facilities to almost all the communities proposed to be served by the ECOWAS-REAP.
4.4 Modes of Subsistence and Daily Chores in the Project’s Area of Influence
i. Agricultural Production The communities along the line corridors, to a large extent rely on agriculture and livestock for their subsistence. Like other parts of the country, agriculture within the Project area is characterized by little diversification, and is mainly subsistence rain-fed, and semi-intensive cash crop production.
Figure 4.4: Illustration of farm boundary away from the road - Source: SD Focus, April 2017 Farmers generally practice mixed farming, producing food crops comprising cereals (early millet, late millet, maize, sorghum, rice and “findo”), although cash crops (including groundnuts, and horticulture produce), account for a greater portion of the production. The cultivation of horticultural crops (vegetables and fruits) is also practiced but mainly by women farmers growing tomatoes, okra, sorrel, etc. Along the main highways, in many cases farms are located very close to the road (see Figures 4.4 and 4.5) on the trajectory of the transmission lines, and thus maybe impacted by the Project, depending on the timing of the works; they may be affected, especially when project activities are carried out during the rainy season, when crops are in the fields. The above figures, although outside Project area are some examples of farms’ locations in relation to the roads.
40
Figure 4.5: Melon plantation (outside Project area) illustrating position of pole and farm clearance
from the road and line corridor - Source: SD Focus April 2017
Table 4.10 shows the general agricultural calendar of activities common within the Project’s area of influence; it can be used as guide in the timing of construction works on the lines.
Table 4.10: Farming Calendar of Activities along the Transmission Line Corridors
Month
Activities Carried Out
Men Women
May Clearing of farmland Prepare rice fields, groundnut fields
June Clearing farmland Prepare rice fields, groundnut fields
July Planting late millet, maize, groundnut, cassava
Planting rice, groundnut
Aug Weeding and guarding crops Weeding and guarding rice/groundnut crops
Sept Weeding and guarding crops Weeding and guarding rice/groundnut crops
Oct Harvesting millet, maize, and groundnut Guarding rice, harvesting groundnut
Nov Harvesting millet Guarding rice, threshing groundnut
Dec Threshing groundnut Harvesting rice, threshing groundnut
Jan No works in the fields Harvesting rice
Feb No Works in the fields Dry season gardening
Mar No works in the fields Dry season gardening
Apr No works in the fields Dry season gardening
Source: SD Focus April 2017 Using the above Table as guide, Contractors can minimize damage to crops along the corridors; pole construction and line stringing should be carried out after the crops have been harvested and there is less activity in the fields; where construction cannot be halted during the farming season, extra care and diligence must be taken to avoid or minimize damage to crops. In this regard a RAP should be prepared.
ii. Market Gardening The womenfolk in the various communities engage in dry season market gardening. Hand dug wells are used for watering of tomatoes, pepper, cabbage, onions, and bitter tomatoes. Much of the
41
produce is sold at the local level raising a small income for the women involved, and the balance of the produce are consumed in the household thereby improving nutrition intake. A major outlet for bigger producers is the main Brikama market.
iii. Marketing and Petty Trading and Shop keeping Along many of the corridors, marketing and petty trading is a daily chore, and both man and women are engaged in it. The women engage in dry season gardening, but most of them claim that they do not have a market locally. At the end of the Brikama-Mandinaba corridor, at the junction to Giboro koto, Mr. Abdourahman Gaye operates a shack of a canteen made from corrugated iron sheets (measuring 3x3m). He sells various items including cigarettes, soft drinks, meat, and boiled beef. His facility sits right under the existing transmission line, and it is expected that the Project will T-off from this junction to connect the Mandinaba-Giboro corridor. His business will potentially be impacted when the works start.
iv. Tyre Repairing A tyre repair workshop is also located at the same area as Mr. Gaye’s business. His facility is made
from corrugated iron sheets, and with his team of assistants, repairs tyres under the existing line as
Mr. Gaye. He will also be impacted when the works start.
v. Harvesting Non-wood Forest Products The community members along the transmission corridors collect medicinal plants, herbs bark of trees, and wild fruits for personal consumption from adjacent forests; the fruits include the baobab (Adansonia digitata), commonly used as beverage, or juice. Other types of fruits of commercial value are the Chinese date, locally called “solom solom”, etc. The fruits are sometimes sold within the communities to supplement the household income. It is common that contractors and other workers employed in projects located close to natural resources such as forests, national parks, water bodies, etc. harvest produce from these resources for their own personal use, take home to their families or even for sale. In view of this, the workers in this Project should be prevented from competing with the community members for these products. This will be included in the contractors C-ESMP.
Given the local use of these forest products, it will be recommended that the plants and trees that bear them are not felled unnecessarily in the course of project implementation, because loss of access to these products would adversely impact the communities’ livelihoods and income support, culture and social norms.
vi. Firewood Collection All the communities along the line corridors are dependent on the vegetation and forest resources for the provision of firewood as fuel. These are collected from the forest for domestic, and possibly livelihood use. Along the Brikama feeders in communities where there is generally less forest cover, Project beneficiaries procure their cooking fuel from supplies brought from the Fonis where fuel wood and charcoal are relatively more abundant.
vii. Livestock Rearing Cattle are reared by the community members, allowed to range over the bush, and on crop residues after the harvest. Small ruminants are seen generally grazing close to villages and are corralled within compounds overnight, cattle are corralled by tying to stakes in areas peripheral to the villages.
Poultry are raised at the household level, and draft animals (donkeys, horses, and mules) are also kept mainly for cultivation in the fields.
42
viii. Fishing This is another important economic activity within some of the villages. It is practiced mainly by men, primarily at the subsistence level mainly within the peripheral communities of the TWNP, and Kandong “bolong” in Foni Bintang Karanai. They employ mainly gill nets and fish traps on part-time basis. The catches are generally home consumed or bartered at the village level for other goods or services or sold at the main Brikama market.
Women too are engaged in the harvesting of oysters, in the Mandinari “bolong” and sold at the major markets in Serekunda and Brikama. These activities are also primarily at subsistence level.
4.5 Description of Direct Influence Area and Location-Specific Baseline Conditions
This section describes the location-specific baseline conditions; environmental and social issues (deemed to be of significance) encountered along the various proposed transmission corridors are assessed, and where necessary, recommendations on how to address them are made. With a total number of 23 corridors from the substation, the assessment of each route was started from the start of the corridor. For example, having selected the side of the road to construct the poles (side of road selected based on the least environmental and social impact) the car’s trip meter was taken to zero. Driving on the road/path along the proposed trajectory of the transmission line, any receptor (whether environmental or social) of relevance was recorded at distance indicated on the car’s odometer. Parameters of the receptor were noted, and the necessary action to address the potential impact recommended. The receptor could be a compound fence, dwelling house, a tree (whether forest tree or private fruit trees of significance), water body, market or loumo site, swamps, etc.). See Appendix 4.3 for details.
4.6Main Stakes and Risks of the Project
The development and implementation of the Project will not be without risks. However, most of the
risks are expected to be moderate, with a few risks being high. The project will not be an isolated
process, it will be implemented through existing structures and experienced partners that have
already implemented transmission and distribution projects funded by multilateral donor agencies
such as the World Bank, thus benefiting from a learning curve that will support the PIU and its
contractors with risk mitigation measures. Some of the risks include the following, and summarized in
Table 4.12:
i. Political and Governance
Political and governance risks are high. The Gambia is already facing risks of political instability, in spite
of previous parliamentary elections confirming wide support for the current administration in the last
couple of years. Signs of political fragmentation, including parties running separately in the next
election, could worsen and derail the reform momentum. There are concerns relating to the
impending Presidential elections in 2021, which may impede key preparatory activities such as the
delivery of prerequisite studies and/or changes in leadership could lead to revised client objectives.
ii. Macroeconomic
Macroeconomic risks are also high. The Gambia lacks a stable financial sector; this risk is considerable.
The country’s financial sector is small and narrow, and the majority of bank assets are focused on the
public sector, impacting credit to the private sector. Inadequate risk management capacity and
43
incomplete credit information on customers hinder the capacity of financial institutions to support
the private sector.
The government seeks to mitigate this risk by lowering the economic governance of the public sector,
and by promoting the development of the private sector as an engine of growth.
iii. The COVID-19 Pandemic
The risks posed by the COVID-19 pandemic is high. The national emergency public health emergency
measures in place creates considerable constrain on the economy. Lockdown measures including the
closure of international border entry points for both land and air means the free movement of goods
and service across the region, which constitute major sources of economic activities and income for
the country have almost ceased.
iv. Project Design Risks
This risk is medium. The ECOWAS-REAP is appropriately aligned to the Gambia’s priorities and previous
lessons of engagement for the national energy sector. However, environmental, and technical
constraints of the Project include the following:
• technically, the lack of Project site designs to identify the specific locations of the
poles and corridors causes delay and uncertainties in making decisions, particularly
prior to the feasibility studies;
• harmonization of activities of similar projects in the same area. For example,
connecting the ECOWAS-REAP T & D infrastructure to existing grid infrastructure with
different characteristics;
• the T & D corridors cannot be as straight as technically desired as the built-up
environments should be avoided, or compensation paid;
• accessibility for construction and maintenance may be difficult in vast open fields,
remote areas, and floodplains; during the rainy season when the fields are planted,
heavy machinery and equipment used in construction will compact the ground
making it prone to erosion;
• the need for more resources where longer routes will have to be chosen to avoid
densely built communities, and where villages are very away far from each other yet
the distances between them must be included.
Despite the above, the proposal builds upon previous experience with the GESP, GERMP, etc., learning
from several experiences that were not successful in terms of project design and delivery.
v. Fiduciary
Risks in managing the fiduciary aspect of the Project is low. The PIU has successfully implemented the
Gambia Electricity Support Project (GESP) and through this have gained significant experience and
expertise in related project implementation matters. These experiences have been crucial in the
implementation of the ongoing Gambia Electricity and Modernization Project (GERMP).
To mitigate this risk, the PIU will take the lead in ensuring that the RAP is communicated to
government for compensation to commence in earnest to avoid project delay.
44
vi. Insufficient Institutional Capacity
Risks of insufficient institutional capacity to implement the project are medium. NAWEC does not have
the required human, financial, and physical resources to implement the Project effectively. The
institution suffers from insufficient performance incentives. Such constraints pose risks to the
implementation of ECOWAS-REAP.
To mitigate the risks, the Government is working with development partners to build implementation capacity in critical areas. Building on the previous GESP, and the current GERMP, the Project will support several capacity development initiatives at NAWEC.
viiThe Social Risks
The social risks of the Project are medium. The Project will create involuntary resettlement and loss
of livelihood as a result of areas that cannot be avoided. In addition, there may be low participation
of women and other vulnerable groups that need special attention to ensure inclusiveness.
Where resettlement is necessary, compensation of lost property must be made according to existing
resettlement policies. However, during the process of determining eligibility and assessment of
entitlement, potential disagreement regarding ownership of affected assets especially land may be
encountered which, if not properly managed, can lead to Potential Land disputes especially between
neighboring communities. This may occur mainly to the lack of physical demarcation of land borders
as traditional land ownership still dominant.
To mitigate the risks of involvement of regional and land administration officials, community and
traditional leaders in the process is crucial to curb the occurrences of these incidences. The Grievance
Redress Mechanism (GRM)5 put in place by NAWEC at the PIU must be understood project affected
people for them to utilize it when necessary.
Table 4.12: Main Stakes and Risks of the Project
Risks Mitigation Measure
Political and Governance Enforce existing legal instruments
Macroeconomic shocks;
COVID-19 Pandemic
Lower economic governance of the public sector,
and promote development of private sector,
COVID-19 needs assessment, central coordination
of responses, develop business continuity plan to
prevent avoidable project interruptions caused by
the pandemic. Protocole is attached.
Project Design Risks
Build upon previous experience with the GESP,
GERMP, etc., learn from several experiences
Fiduciary
PIU to communicate with government for
compensation to commence to avoid project delay
Insufficient Institutional Capacity
Government work with development partners to
build implementation capacity in critical areas
5 GRM: Grievance Redress Mechanism is a process whereby complaints and grievance’s relating to the Project and emanating from members of the communities will be channelled and addressed in a fair manner. Operational modalities are indicated in Appendix 9.1 and Appendix 9.2
45
Environment and Climate Risks
Use existing institutional coordination mechanisms
of sectoral initiatives; strengthen climate change
adaptation and mitigation in project design
Social Risks
Involve regional community and traditional
leaders; use existing Redress Mechanism (GRM) at
the PIU
The above description of the current baseline conditions of the Projects’ area of influence focuses on
the resources and receptors that may be impacted by the project. It is clear that the interaction of the
proposed activities and the resources and receptors will result in both environmental and social risks
that would need to be addressed.
CHAPTER 5: PUBLIC CONSULTATION
This chapter presents the approach that was taken in order to conduct stakeholder consultations in
the process of developing the ESIA. It describes the process through which the stakeholders, among
other things, shared local and indigenous information with the Consultant, and who, in turn listened
to their views, with a view to ultimately empower them to initiate, manage and control their own self-
development.
5.1 Objectives of the consultation
The consultations were held with community stakeholders and government institutions aimed at
achieving the following objectives:
i. discuss the Project with potential beneficiaries, highlighting its components,
its routings, and the potential positive and negative impacts;
ii. provide information about the ECOWAS-REAP, and to acquire key social
information, including schools, health, and other social facilities
iii. facilitate transparency and inclusive participation of community members in
the project so they can voice their concerns and views regarding the project
design and its project impacts, and to ask questions;
iv. highlight the potential roles and responsibilities of community members,
during both the project design and implementation; this is important
especially in the context of community-level monitoring of ESMP
implementation, which is one way to enhance their participation and
promote sustainability in the project;
v. understand community dynamics, relations, and the broader social and
economic context of the communities and the possible impacts of this Project.
5.2 Methodological Approach
The approach adopted in the process was guided by the following principles:
Free: Engagement was free of external manipulation or coercion and intimidation
46
Prior: Engagement was undertaken in a timely way and prior to decisions being made so that views
expressed can be taken into account
Informed: Relevant and understandable Project information was disclosed to help stakeholders to
understand the risks, impacts and opportunities of the Project
Reactions and feedback from the local communities, regional and national regulatory stakeholders
were used to inform the scope of the ESIA, identify and assess impacts and develop appropriate
mitigation measures. Since stakeholder engagement is a continuous process, it is expected that
ongoing engagement activities will be managed by the ECOWAS-REAP PIU and their Contractors as
the Project moves into the implementation phase.
5.3 Targeted Groups
Criteria used in the selection of stakeholders to be consulted were based on the level of the different
stakeholders’ potential involvement in the Project, e.g. their potential to benefit from the Project, or
where their properties and assets will potentially be impacted negatively. The other set of criteria
used was based on the potential involvement of specific national institutions in the Project based on
their respective institutional oversight of the Project.
Figure 5.1: Meeting with the Community of Buram in Foni Bintang Karanai - Source: SD Focus Ltd,
2020
For the latter category, this included consultative meetings with NAWEC, DPWM, NEA, NRA, DOF, and
NCAC. Discussions with these institutions revolved around their respective sectoral policies and legal
mandates as they relate to the implementation of the Project. The meetings enabled the definition of
their strength and weaknesses in relation to their potential roles and responsibilities in the
implementation of the ESMP.
Organization of the community consultations was mostly spontaneous, i.e. whilst the team of
Consultants, NAWEC and Project staff were in a community, a request would be made of the Alkali
(the village head) for a meeting of about one hour. The Alkali would oblige and call up the community
47
members (both men and women) to his compound, and after a good number of villagers turn up, the
meeting would begin.
At other times notifications were made well ahead of time of arrival of the Consultant’s team, and on
arrival the venues will be full of participants; the meetings would normally last at most, one hour.
Certain stakeholders were consulted mainly based on the fact that the locations of their place of
business was within the potential trajectory of a transmission line; should the works begin the
potential for these businesses to shut down temporarily is very high. These included shops keeping,
and tyre repair workshops located along the road corridor in Mandinaba.
The documentation of consultations enabled the Consultant to track stakeholders’ perceptions and
concerns regarding the development of the Project. To record and track the process and comments
from the stakeholder, the following forms were used:
▪ meeting notes were used to record, and document discussions held between the Consultant
and individuals, groups, and communities
▪ guidance notes and focus group topic points, focusing on questions surrounding economic
activities within the communities; the guidance notes included questions on community’s
health, education, livelihoods, etc.
• A register of attendees, recording all individuals who attended the consultations was made
A summary regarding the stakeholder consultations undertaken is provided in Appendix 5.1 and the
list of persons met is in Appendix 5.2.
5.4 Opinions, concerns and fears of populations and PAPs
Stakeholders in all the Project areas were adequately sensitized on matters relating to the
consultations with the communities, project background, processes, and procedures as well as the
role of the communities and institutions during the implementation of the Project.
In general stakeholders, including potential PAPs, highly appreciated and welcomed the Project and
highlighted the importance of electricity for the lives and livelihoods of the people, as well as the
numerous benefits they will get from the availability of electricity. These benefits they maintained,
would include their ability to preserve and store their different foodstuff, and enable them to engage
in new revenue-earning businesses such as electricity-dependent professions like welding, that will
raise their standard of living.
With the availability of electricity, they said they would also be able to acquire milling machines which
will reduce the drudgery of threshing and milling of agriculture produce for home consumption and
commercial purposes. They also stressed that studying with candles is very challenging for their
children and will become a thing of the past as their children will enjoy studying under light bulbs as
their compatriots in other schools.
From the consultaions, the opinions, concerns and fears of the populations and persons likely to be
affected by the Project (PAPs) have been incorporated into the recommendations of this ESIA.
48
CHAPTER 6: ANALYSES OF POTENTIAL IMPACTS AND MITIGATION MEASURES
This Chapter identifies and analyses the potential impacts resulting from the Project’s activities, and describes the mitigation, management, and monitoring measures to be put in place to sustainably implement the Project. Beneficial impacts are also identified.
6.1 Methodological Approach
6.1.1 Identification of the Main Sources of Potential Impacts of the Project on the Environment Potential impacts, either positive or negative, are the likely changes to occur on the environmental and social components as a result of the Project implementation. Sources of these impacts include all project related activity, carried out during any of the different phases of implementation, which generate these changes. Table 6.1 identifies the main sources of impact for the ECOWAS REAP. Table 6.1: Main Sources of Potential Impacts of the Project on the Environment and the Social aspect
No PROJECT PHASES TYPES OF WORK IMPACT GENERATING ACTIVITIES
1 Pre-construction Planning -Consultation and provision of project information to stakeholders - Physical survey of proposed project sites
Land acquisition for poles Siting of poles in land owned or used by villagers
Land preparation for construction
-Clearing of vegetation for access and poles -Felling and trimming of economic trees within the ROW
Sourcing of earth materials -Clearing of quarrying site -Excavation during quarrying -Stockpiling
Establishment of base camps
-Clearing of camp sites
2 Construction Mobilization of logistics -Transportation of workers, equipment, and materials to Project sites -Importation of workers -Repair of heavy vehicles and equipment -Storage of heavy vehicles and equipment during works
Construction of poles -Digging of trenches -Building of foundations -Erection of poles
Stringing of lines -Installation of cables and accessories
Clearance of sites after works
-Removal of excess materials -Removal of waste materials
3 Operation and Maintenance
Electrification of new lines -Connection to substations and existing grid -Connection to users
Routine clearing of ROW -Pruning of trees
Maintenance of infrastructure
-Repair and replacement of T&D parts
49
4 Decommissioning Closure of quarries Reclamation and restoration of quarries
Closure of base camps Dismantling of equipment and structures
Transportation of materials and equipment from camps
Cleaning of camp sites upon closure
6.1.2. The Environment and Social Components Affected by the Project
The Project implementation may affect the different environmental components as listed in Table 6.2
Table 6.2: Environment and Social Components likely to be affected by the Project
COMPONENTS AFFECTED
Physical Biological Human
Surface water Aquatic ecosystem Public health and safety
Ground water Terrestrial wildlife Occupational health and safety
Air quality and climate Forests and vegetation Labor related issues
Geology and soils Agriculture and livestock Land use and land ownership
Noise and vibration Income
Landscape and aesthetics Energy
Vulnerable groups
Community stability
Cultural and historical sites
6.1.3 Identification of Potential Impacts Having identified the environment components and the Project’s sources of impacts, their correlation was considered using the Leopold’s Matrix. Each activity (source of impact) was listed and the potential for creating an impact considered against each environment component. Where there is likelihood of an impact, the interaction box is highlighted with a cross as indicated in Table 6.3.
55
Table 6.3: Identification of impacts
PROJECT PHASES
ACTIVITIES / SOURCES OF
IMPACTS
ENVIRONMENT COMPONENT AFFECTED
PHYSICAL BIOLOGICAL
HUMAN / SOCIAL
1 Pre-construction Consultation and provision of project information
X X
Physical survey of proposed project sites
X
Siting of poles X X X X X
Clearing of vegetation for access and poles
X X X X X X X X X
Felling and trimming of economic trees within the ROW
X X X X X X X X X X X
Clearing of quarrying site X X X X X X X X
Excavation during quarrying
X X X X X X X
Stockpiling X X X X
Clearing for camp sites X X X X X X
2 Construction Transportation of workers, equipment, and materials
X X
Importation of workers X X X X X X
Repair of heavy vehicles and equipment
X X X X
Storage of heavy vehicles and equipment during works
X X
Digging of trenches X X X X X X X X X
Building of foundations X X X X
Erection of poles X X X X X X X
Installation of cables and accessories
X X X X X X
Removal of excess materials
X X X X X
Removal of waste materials
X X X X X
56
3 Operation and Maintenance
Connection to substations and existing grid
X X X X
Connection to users X X X X X X
Pruning of trees X X
Repair and replacement of T&D parts
X X X
4 Decommissioning Reclamation and restoration of quarries
X X X X
Dismantling of equipment and structures
X X X X X X
Transportation of materials and equipment from camps
X X
Cleaning of camp sites upon closure
X X X X
98
6.2 Evaluating the Significance of Potential Impacts In order to ensure that the limited resources are used optimally to mitigate (prevent, reduce, repair, or compensate) the potential impacts, it is important to identify which impacts are more significant for adequate consideration. The parameters used to assess the significance of an impact include intensity, extent, and duration.
6.2.1 Nature of an Impact
- Negative impacts create adverse changes that destroy or degrade the receiving environmental component. Negative impacts are undesirable as project development is expected to improve biophysical or socioeconomic environments.
- Positive impacts as result of the project activities are changes that are beneficial and improve
quality of the related environmental components.
6.2.2 Types of Impacts
- Direct or primary impacts are those impacts that are created as a result of change to the immediate environmental component by the Project activities. There is clear causative link between the activity and the component. For example, losses of forest cover due to land clearing.
- Indirect impacts are usually secondary in the sense that the correlation between the activity and the environmental component is not readily noticeable and may not necessarily be on the same site.
- Cumulative impacts are those that are only significant when in combination. The potential cumulative impacts of this Project were also analyzed as the Project may exacerbate effects as a result of a combination of issues from activities of the past, present or future, including natural phenomena. The distribution of such impacts may be local, regional, or global. These effects together may cause significant impacts that would not have necessarily been relevant individually. Consideration of cumulative impacts may include combined effects of:
• one activity on existing/previously affected parameter;
• many activities of the same project on various parameters/sites;
• many projects impacting the same parameter;
• many projects impacting multiple parameters.
6.2.3 Evaluation of Impact Severity / Significance The Leopold’s impact identification matrix is further explored to evaluate the extent or scale of correlation between the activity and environmental component. The impacts were weighed based on considerations such as duration of the impact, the magnitude in relation to the total affected area, geographical scope, and population amongst others. The relevance and importance of the impact to the component is also given consideration. Sensitivity and vulnerability of the component, such as protected habitats or women respectively, are analyses in addition to assessing the probability of the impact occurring and possibility of prevention, reversibility, or other mitigation measure.
99
6.6.4 Definition of severity leves The following defines the levels of significance employed for this assessment stated in Tables 6.4 to 6.7: (+2) Major positive significance: Impacts that are highly likely to promote sustainable development by creating changes that will improve the environment. (+1) Low positive significance: Implies that there are some opportunities, possibilities, and alternatives for benefits to be gained as a result of the change caused by the impact. (0) Insignificant positive or negative impact: No discernible impact or interference with the identified environmental parameters. The Project activity is not likely to create any beneficial or problematic change.
(-1) Minor negative significance: Limited adverse impacts caused by the Project activities, and not using sensitive resources. The prevention of such negative effects is also easily possible. (-2) Major negative significance: High vulnerability and sensitivity; irreversible impact, and outcome of the impact affecting a wider area or population, etc.
6.3 Potential Impacts of the Pre-construction Phase
6.3.1 Potential Positive Impacts on the Biophysical Environment During activities of the pre-construction phase, no potential positive impact is anticipated on the biophysical environment.
6.3.2 Potential Negative Impacts on the Biophysical Environment 6.3.2.1 Impacts Relating to Geology and Soils Where quarries are used for sourcing sand and gravel for the Project compared to purchasing from registered mining companies, excavation carried out at the water table level, have the potential to contaminate ground water. Sand and gravel to be used for construction may be mined illegally from unapproved sites causing indirect, secondary negative impacts on soil stability, landscape, and vegetation.
Access roads to borrow pits may remain open after the project due to poor or incomplete site reclamation and restoration, encouraging illegal mining and waste dumping in the future. There is also the possibility of soil compaction from the movement of heavy machinery and vehicles. This will open the bare areas to localized, temporary erosion risks and potential formation of new natural drainage routes during rainy seasons. Agricultural land may also be compacted, particularly with the creation of diversions within farmlands, affecting soil drainage and productivity. Soils may also be polluted by hydrocarbon spills and improper disposal of solid and liquid wastes such as used oils, machine parts, inert wastes, and packaging, etc.
100
6.3.2.2 Air pollution In getting access, siting the poles and base camps, it is expected that existing trees and vegetation around the proposed sites for the poles and base camps will be cleared with the aid of heavy machines such as bull dozers or excavators. Dust and vehicular emissions will be released.
Alternatively, manual labor could equally be hired (preferably from within the communities) using machetes, cutlasses, shovels, and pickaxes to clear existing shrubs and vegetation.
The approximate area required for any proposed base camp is not known at this moment; however, during camp construction, dust pollution is expected from heavy vehicular movement, land clearing, excavations, and other related pre-construction earthworks. Dust emissions will also be produced during truck off-loading of earth materials in stockpiles for storage or heaping nearer the work sites. Nonetheless, whatever methods are employed in the above works will generate dust within the immediate area of the works, but given most of the planned transmission corridors consist mostly of bushes and shrubs, the dust and gaseous emissions, such as the oxides of carbon, etc. will only temporarily affect ambient air quality around the activity sites. In addition to the high dispersion rates around the sites within open areas, the impact is considered low due to the localized and temporary nature during the works phases. Apart from the workers who will be immediately disturbed, this impact will be more significant in populated areas, where poles are to be erected close to compounds and other relaxation or resting areas such as waiting sheds, as compared to farms and open fields.
6.3.2.3 Noise and vibration nuisance Temporarily during pre-construction works, noise and vibration is inevitable from the use of machinery and increased traffic to move workers and materials. Workers are generally the main victims, except where sites, particularly for distribution infrastructure, are in closely developed communities. The use of heavy machinery such as electric saws to cut or trim trees is also another source of noise and vibration.
These localized impacts will scare wildlife in the open fields and aquatic organisms in the short-term during land preparation works. This is particularly relevant within areas which consist of sensitive sites of ecological importance for certain bird and mammalian species. 6.3.2.4 Unsightly landscape The aesthetically unpleasing landscape of the work sites will be visible (although with short-term impact) whilst any borrow pits created specifically for the Project will be more long-term, if not restored. There is also potential for unsightly areas where construction and other wastes are indiscriminately dumped such as cleared vegetation and materials that have been damaged in the process. Cleared camp sites and sites for stockpiles of earth materials within vegetated areas also reduce the green scenery as a result of vegetation clearing.
101
6.1: Example of stockpiles with green background (for a current road project) within this Project's Aol Source: SD Focus Ltd., 2020 6.3.2.5 Impacts due to Improper waste management During land clearing and use of other aggregates to include building base camps, related wastes such as cleared vegetation, solid waste such as cement bags, iron, and other pieces of materials, could cause secondary pollution if not cleared in time. Indiscriminate waste dumping will affect vegetation and water flow while also impacting the aesthetics of the immediate vicinity. In addition to construction rubble, poorly managed solid waste can result in creation of dumpsites which can have environmental health impacts. Laborers (especially imported laborers) will generate domestic wastes such as food and sanitation wastes in camps or around work sites. Poor disposal of such waste may have secondary impacts with the potential of spreading of diseases, contamination of water bodies, degradation of aquatic ecosystems, and generation of greenhouse gases if the waste is burnt. As waste will be produced during all phases of the Project, effects from improper management may be long-term with localized negative impacts on aesthetics, health, and safety.
6.3.2.6 Deforestation This Project involves mostly construction of poles and stringing of lines, and given the area required for the base of the pole, vegetation is not expected to be extensively cleared. Therefore, the chances of change in macro and microclimate are very low.
102
Nonetheless, tree felling, and clearance of vegetation may add to climate change factors on the micro-climate temperature increment. It is expected that this impact could be brought to the absolute minimum or fully mitigated given the relatively small area required for the base of the pole. There is however risk of felling mature trees and unnecessary invasion of forests due to ease of access from routes developed by workers, and poor monitoring. Workers clearing the sites may take the opportunity to fell nearby trees that are not even along the identified trajectories, merely for personal benefits.
As workers are in the habit of lighting small fires for brewing local tea whilst at work, fires may go out of control. There is high risk of potential negative impact where uncontrolled fires spread to cover large vegetated areas, destroying both mature and young trees that provide sanctuary and food for wildlife species, and forest products of various uses for the communities. 6.3.2.7 Loss of Fruit Trees and other Vegetation Total or part loss of fruit trees, such as mangoes and cashews, along the line trajectories due to felling or trimming by the Project to construct and protect the lines will be of high magnitude impact to the owners and users of the trees. Minimal felling of privately owned fruit trees is envisaged during site preparation for this Project. 6.3.2.8 Negative impacts on fauna Terrestrial fauna, including invertebrates, reptiles, and mammalian species, (including the primates) will be impacted by construction activities that create noise and pollution that destroy their sanctuaries. Clearing of terrestrial vegetation will expose dependent wildlife, causing them to move to other areas for food and shelter, with the probability of creating competition and potential nuisance if they move to agricultural fields. According to the International Union for Conservation of Nature (IUCN) Red List the Red Colobus monkey (Colobus badius temmincki) present in the open forests, is threatened, and the Guinea Baboon (Papio papio) is “near threatened”. However, in The Gambia the Guinea baboon population is of least concern, according to the DPWM. Nonetheless, the Biodiversity and Wildlife Act, 2003 accords general protection to certain species including the colobus monkey and the baboon which must be enforced more rigorously. Workers (especially those imported) may hunt wildlife species for food, or income generation and thus compete with the local population, and this could impact the general population of the species and cause conflicts with the community. It could equally impact on the local population’s food source. The Project could create additional or expand quarry pits during the pole construction period, and during the rains, the quarry pits may get flooded, creating watering points for livestock and wildlife; however, their movement is hindered (especially if pits are too steep) and domestic animals may drown. 6.3.2.9 Negative Impacts on Wetlands Wetlands occur in several places along the proposed transmission corridors, in different forms and serve vital functions; these include storing runoff, regenerating groundwater, filtering sediments and pollutants, and providing habitat for aquatic species and wildlife. Locating T & D infrastructure in wetlands can have impacts on these functions.
103
Any of these and other activities can impair or limit wetland functions. Organic soils consist of layers of decomposed plant material that formed very slowly. Disturbed wetland soils are not easily repaired, and severe soil disturbances may permanently alter wetland hydrology.
6.3.3 Potential Positive Impacts on the Human Environment 6.3.3.1 Creation of Temporary Jobs Pre-construction activities including surveying, removal of vegetation and site preparation works will create approximately 16 temporarily employment possibilities for both skilled workers (5 persons) such as planners and engineers, and less skilled workers (11 persons) employed to remove vegetation on camp sites and corridor ROW. This is enhanced with the use of local labor, particularly unskilled workers. Priority will be given to the community local workforce during labor selection to further enhance positive impact on the local community. 6.3.3.2 Improved Community Cohesiveness At the project inception, planning and design stages, the proposed beneficiaries are consulted to encourage participation and ownership whilst also learning from local knowledge on the environmental components. Overall, the communities are delighted with the Project, and discussions around expectations further bring them together for the common goal. The momentum and enthusiasm generated by the impending lighting of the communities could be used as a spring board to form local committees to organize and coordinate community efforts, for example to negotiate with NAWEC on behalf of the communities to reduce the cost of connection. The commitees could equally act as forums where community greivances related to the Project could be lodged for onward transmission to the Project GRC. To further enhance community cohesiveness the following could be possibilities:
• the Project may invest in related community infrastructure such as road upgrades and community reforestation as compensation for losses or as part of the activities;
• consultation and participation of beneficiary communities should be a continuous process during the preconstruction phase;
• the SSS could ensure all the necessary consultation and disclosure is done prior to the commencement of construction;
• the GRM must also be active and made known for timely address of grievances;
• communities can be encouraged to set up committees/groups that can be useful in supporting each other with regards to the benefiting and participating in the Project; this will create an internal support system
6.3.3.3 Income Generation Despite potential loss of economic trees, immediate income can be derived from the sale of the logs, or fuel wood produced therein. Savings made from the Project related activities will provide opportunities for more income generation through investment into more lucrative businesses, therefore, compensation for involuntary resettlement should be accompanied by advice and information to promote improved livelihoods.
104
Employment of local labor, could create capital for local community members to maximize the benefits of the electricty within the communities; they could be encouraged to invest in such trades as welding, carpentry, etc. and this could increase economic activity within local communities. Increased numbers of people in these trades could have spin offs into other trades with increased financial income within the communities.
6.3.4 Potential Negative Impacts on the Human Environment 6.3.4.1 Involuntary Resettlement and Loss of Livelihoods Preconstruction activities will create loss of land for poles and camps, and loss of economic trees for the ROW. Minima loss of agricultural land and range will occur. It is common that open fields within the Project sites are used for farming during the rainy season. Tree felling and clearance of vegetation for the works will be carried out with negligible reduction in range land for cattle. Considering that farming can still take place around the poles with insignificant impact from the loss of minimal space, and cattle have vast surrounding areas to graze on there will be low negative impact during pre-construction. Other potential risks will be associated with people who would lose access to non-wood forest produce, (wild fruits such as baobab, “ditakh”, medicinal plants, etc.) and in the process result in the loss of their livelihood and cultural norms. However, given the large expanse of forested areas left untouched by the Project, the communities will continue to have access to non-wood forest products. 6.3.4.2 Negligence of Vulnerable Groups and Gender Based Violence (GBV) During the preconstruction phase, information on the proposed project is provided to the affected and interested stakeholders. Disadvantaged and vulnerable groups may be at risk of being left out during the process of stakeholder consultations due to their inability to get to consultation venues, and thus will be excluded. Project affected women, people living with disabilities and children, for example, may be sidelined and not considered by the male-headed community leaders during consultations. In this Project there is also risk of some of the PAPs not benefitting adequately from the resettlement benefits and financial compensation. This will potentially include disadvantaged and vulnerable groups (including children, women and female-headed households, the elderly, persons with disabilities, etc.) within some PAPs’ households 6.3.4.3 Risks to Public Health and Safety During preconstruction activities, the communities are at risk of increased traffic accidents, and other incidents related to the project activities. Borrow pits that are not managed properly will pose risks to nearby communities; children in particular, are at risk of falling into them, and in the rainy season may cause drowning. Children are also in the habit of playing around work sites and climbing stockpiles, which increased their risk of involving in an accident. For settlements close to sites of land clearing and preparation, dust and noise nuisance will be created.
105
Due to influx of workers, especially where imported workers live within the communities and not in camps, communicable diseases of most concern include tuberculosis and sexually transmitted diseases and infections (STDs/STIs) such as gonorrhea, and HIV/AIDS.
6.3.4.4 Negative impacts from Violence Against Children (VAC) There is risk of using children as workers in the course of project implementation, particularly during preconstruction for site clearance. Children playing in camps and around work sites may be abused verbally, physically, or sexually, in addition to the risk of worksite accidents occurring. 6.3.4.5 Risks to Occupational Health and Safety During all phases of the Project, there are long-term hazards which could be pertinent to worker health and safety and of high significance because peoples’ lives are directly at risk. These include risks and hazards (noise, soil erosion, high traffic, air quality deterioration, named earlier under physical environment), that may occur during works in the field.
During the preconstruction phase, particularly site clearing, workers are at risk of being attacked by bees, snakes, dogs or other wildlife.
Work related stress including long hours of work and under extreme heat, will affect workers if they are not provided adequate services including water, food, sanitation, rest area and waste disposal facilities. Accidents from equipment use, noise and dust may affect workers on the Project. Accidents and injuries could also arise from:
i. danger from quarry operations and safety risks from abandoned quarries or borrow pits, as well as when quarries continue to be used by unauthorized persons;
ii. operation of machinery, endangering both operators and laborers;
iii. injury/accident due to lack of warning signs, site barricades and safeguards.
6.3.4.6 Risks of Communicable Diseases Communicable diseases of most concern are sexually transmitted diseases (STDs), and HIV/AIDS due to influx of workers to the Project site or living within the communities. The novel Corona Virus pandemic that started in 2019 affects The Gambia and is highly contagious. 6.3.4.7 Community Instability and Reduced Cohesiveness (Including Impacts from Labor Influx) Community instability, conflict or grievances of high significance may arise where information on the Project, land ownership, land use, and community expectations are not clearly relayed to them in a timely manner. Grievances and conflicts may arise especially where negative project impacts (e.g. loss of land or crop due to pole siting, partial or total loss of economic trees, labor influx and impacts to community and intimate partner relationships etc.), mitigation measures and community expectations are not well understood. Clearing activities, particularly during the pre-construction phase, results to the production of vegetation waste (branches, logs, shrubs, whole trees etc.). Conflict may arise where ownership and distribution is unclear.
106
Complaints are also likely, especially where compensations are not provided to PAPs due to disputes regarding eligibility for compensation, or disagreements in the amount of compensation received, or some PAPs not enumerated at all. Other community stability risks that may result from labor influx include Gender-Based Violence (GBV), Sexual Exploitation and Abuse (SEA) and Violence Against Children (VAC) particularly with the use of child labor, sexual and other harassment by workers. There are also risks of breaking community cohesion and reducing community participation on the Project where locally available human resources are not employed. Furthermore, construction crew that comes from outside the communities could introduce alcohol or other social vices to negatively affect existing socio-cultural values, norms, cohesion and the stability of the communities and interpersonal relationships within and among families. 6.3.4.8 Impacts on sites of cultural and historical significance As earlier discussed, there are sensitive sites of cultural and historical significance along some of the proposed line corridors; these include mosques and graveyards, There is always a possibility of finding objects of cultural heritage by chance, particularly during land clearing and preparation for works along corridors. These may be disturbed or lost due to lack of knowledge in managing cultural heritage discovered by chance.
6.4 Potential Impacts of the Construction Phase
6.4.1 Potential Positive Impacts on Biophysical Environment There are no potential positive impacts of significance on the biophysical environment during the
construction phase.
6.4.2 Negative Impacts on the Biophysical Environment 6.4.2.1 Pollution of Surface Water There are a number of seasonal and permanent surface water bodies within the Project’s area of influence (such as the Bulanjor tributary in Foni Bintang Karanai) and construction works within them with heavy machinery could lead to soil compaction; a decrease in the permeability of the surface could result in soil erosion and increase in sediment loads of the nearby tributary. This can lead to alteration of the flow regimes of the tributary, thereby affecting water velocity, depth, and channel morphology.
High turbidity and change in the physical and chemical composition of the water will also slow down flow and affect the local water biome and activities. The probability of this happening will be increased where materials are also left on site, blocking water flow.
Accidental leaks or spills of oil/fuel from storage tanks or construction into these water bodies will lead to pollution.
6.4.2.2 Loss of Aquatic Ecosystems
107
Within the study area are several surface waterbodies that may be impacted and indirectly affecting the flora and fauna they contain. Construction of transmission lines across these resources may have both short-term and long-term effects.
Water quality can be impacted not only by work within these streams, but also by nearby vegetation clearing and pole construction activities. The removal of adjacent vegetation can cause water temperatures to rise and negatively affect the aquatic habitats. Vegetation clearing can also increase erosion of adjacent soils causing sediment to be deposited into the streams, especially during rain events.
Woodlands and shrub vegetation along the streams are a valuable buffer between adjacent land uses such as farmlands and corridors of natural habitats. The vegetation protects water quality, maintains soil moisture levels in stream banks, helps stabilize the banks, filters nutrient-laden sediments and other runoff, maintains cooler water temperatures, and encourages a diversity of vegetation and wildlife habitats.
Overhead transmission lines across the streams or lakes may pose a potential collision hazard for waterfowl and other large birds, especially when located in a migratory corridor. 6.4.2.3 Impacts on Wetlands Pole construction and stringing of the lines can have impacts on the functions provided by wetlands in the following several ways:
- heavy machinery can crush wetland vegetation; - wetland soils, especially very peaty soils can be easily compacted, increasing runoff, blocking
flows, and reducing the soil’s water holding capacity; - the construction of access roads to reach pole sites can change the quantity or direction of
water flow, causing permanent damage to wetland soils and vegetation; - construction and maintenance equipment (cranes, trucks, and other heavy machinery) that
will be used can stir up sediments and endanger fish and other aquatic life; - water flow during the rainy seasons, low and high tides, should not be impeded as a result of
the civil and electromechanical works; - engineering of the poles, construction/installation methods and processes are of the required
standards.
6.4.2.4 Noise and Vibration Nuisance During the construction phase, noise and vibration is inevitable from the use of machinery and increased traffic to move workers, equipment, and materials. Both noise and vibration nuisances are of higher significance where compressor drill machines are used during excavation of hard soil. Workers are generally the main victims, except where sites, particularly for distribution infrastructure, are in closely developed communities. These localized noise impacts will also scare away wildlife in the open fields and aquatic organisms in the short-term during works on the foundation and presence of workers. Within non-seasonal wetlands where the ground is less hard, noise and vibration impacts from digging trenches for the pole foundation is low. Where deadlines for construction are tight, contractors tend to work longer hours into the night when noise effects are more pronounced with less background sounds. 6.4.2.5 Impacts of Unsightly Landscape
108
For the duration of pole construction works and stringing of the lines, the aesthetically unpleasing landscape of the work sites will be visible, and from far afield where heavy vehicles and equipment are parked. Although usually short-term only during the works, there is also likelihood of long-term impacts such as pole foundations that have already been dug and abandoned for any reason.
There is also potential for unsightly areas where excess construction materials (cement and earth materials) are left on site long after the works; other wastes that may indiscriminately be dumped during construction include packaging waste, empty cable drums, engine oils, worn out parts such as drill bits etc. 6.4.2.6 Air pollution Earthworks during construction such as excavations and handling of materials (sand, gravel, basalt, and cement) will produce localized dust emissions. Increased vehicular movement from transportation of equipment, workers, and materials (particularly in remote areas with very limited traffic) will also create an increase in air pollution during the works. The emissions are temporary and significant only to the immediate area of the works. As such, workers around the sites will be disturbed by the nuisance and likely respiratory effects. In populated areas, more so during construction of the LV lines within communities, dust and gaseous emissions may affect the residents.
6.4.2.7 Effects of Extreme Weather Effects of extreme weather conditions can affect materials and construction during works. Heavy rains and storms will affect the erection of poles during construction, especially half completed works and material storage; this could result in wastage of materials, especially cement aggregates which could be washed away or diluted under rain. The significance of heavy rains has some bearing on the water level of the surface water bodies and wetlands, especially in relation to the safety and wellbeing of the workers during construction. With unusual swell of the water in such sites, workers may drown or lose equipment in the water. Locating poles on the banks of water bodies and close to road culverts could lead to poles collapsing due to potential erosion of the banks by heavy storm water runoff. 6.4.2.8 Impacts related to the Importation of Workers
Importing workers (that are not known by the communities) to Project sites may open the
environment such as forests and wildlife or wetlands to illegal exploitation and pollution, respectively.
Bearing in mind that the construction period is relatively short and that they may never return to the
communities to be held accountable, imported workers may engage in illegal activities, such as
logging, with potential long-term consequences.
6.4.3 Potential Positive Impacts on the Human Environment 6.4.3.1 Employment and income Employment resulting from the Project construction will create social benefits and improved standards of living.
During construction, approximately 57 workers, skilled (12) and unskilled (45) workers are required for the various activities. Skilled workers shall include various managers, engineers, planners,
109
environmental and social experts, heavy vehicle drivers, etc. The less skilled workers will include construction handymen, security, housekeeping personnel, etc.
It is uncommon for women to be involved in similar construction works, however, this Project will ensure that men and women are given the same employment opportunities without any impediments put in the way of women. Temporary economic improvement of women in the immediate vicinity of the Project sites will be attained through commercial activities targeting project workers, as is common in most construction sites in Gambia. Employing youth will improve their skills that may encourage interest in the field for further personal
development.
6.4.4 Negative Impacts on Human Environment 6.4.4.1 Risks to Public Health and Safety During construction, where the public risk access to hazards such as open pits, long and heavy materials, increased traffic and heavy equipment, there is potential significant negative impact that may lead to disabilities or loss of lives. During pole construction and line stringing, dust and noise generation may cause nuisance to the communities, especially those settlements close to LV pole construction sites. However, given the required area for the base of the pole, noise and generation of dust will be localized, small scale, and temporary, confined to the period of pole erection when heavy vehicular movement may generate dust; as soon as work is completed, the situation is reversed to pre-Project state. 6.4.4.2 Risks of Communicable Diseases The risk of spreading communicable diseases is always present irrespective of the duration of the Project activity and increases with the importation of workers to communities. Communicable diseases of most concern especially during the construction phase are sexually transmitted diseases (STDs), and highly contagious disease outbreaks such as the novel Corona Virus pandemic. The communities and workers are equally at risk of contracting diseases during the construction phase. 6.4.4.3 Risks to Occupational Health and Safety Construction activities include working in remote areas with risk of pest invasion (insects and wild animals), water bodies and paddy soils in wetlands, working at heights, and working with specialized machinery and equipment. Improper operation of machinery may endanger the lives of both operators and other workers within the sites. There is specific exposure of work crew to risk of falling during line stringing, and injuries from falling into excavation pits or falling on same level. Road traffic accidents will also be considered, particularly where most corridors are along existing roads, and some along busy highways. Other issues which could be pertinent to worker health and safety during the construction phase include risks and hazards associated with noise and vibration, long and heavy parts, air quality and personal attacks.
110
Work related stress including long hours of work and under extreme heat, will affect workers if they are not provided adequate services including water, food, sanitation, rest area and waste disposal facilities. The likelihood of accidents happening during construction is moderate given the nature of the technology expected to be employed in the course of implementation of the Project. However, considering the scope of the Project in at least 104 the cumulative impacts of more than one incident will cause severe grievances and loss of credibility.
6.4.4.4 Negative Impacts from Gender Based Violence and Violence Against Children (VAC) Women and children are vulnerable to exploitation and abuse during the construction phase. Children are generally inquisitive and usually found around Project construction work sites. Children may also be employed during the works or casually asked to carry out errands. Both women and children are at risk of being abused verbally, physically, or sexually, in addition to the risk of worksite accidents. 6.4.4.5 Negative Impacts on Land Use (Loss of Livelihood) During construction of the poles, the work site surrounding should be clear of day-to day activities for health and safety reasons, and to avoid interruption with the works. The main activities involved in line stringing are pulling and stretching of the lines between poles. In the process of such works, activities around the works sites will be affected temporarily. During construction, not much agricultural vegetation will be expected to be affected for the required depth (1.5 m) and width (1.5 m) of excavations to hold the poles. However, agricultural land may be crossed for access. Crops growing close to the line trajectory (especially when the works are done in the farming season) will be trampled upon by the workers and destroyed. Loss of one season’s harvest for a small portion of the land could result if works are carried out during the farming season. The size or area of impact will depend on the level of care and diligence exercised by the Contractor, since the stringing operation will be from one pole to the next, and this could be a distance of a minimum of 100m between two poles; thus the severity of the impact could be moderate to high, with the farmer losing crops and part of his livelihood. Sites of weekly markets could also be disturbed during pole construction and stringing and thus lead to potential loss of earnings especially if works are carried out on market days as they will be temporarily displaced to prevent accidents. 6.4.4.6 Loss of Chance Finds During digging for the pole foundations, there is possibility of finding cultural heritage by chance. These may be disturbed or lost due to lack of knowledge in managing cultural heritage discovered by chance. 6.4.4.7 Risks Caused By Force Majeure Despite various management plans and proper implementation, there may be risks and calamities beyond the control of the Project or Contractors such as wildfires, flooding, storms, or disease outbreaks such as the 2019 Corona Virus pandemic.
111
6.5 Potential Impacts of Operation and Maintenance
6.5.1 Positive Impacts on Biophysical Environment 6.5.1.1 Impact on Climate Change Globally, renewable energy is becoming one of the best replacements of conventional energy to fight climate change. Human activities, especially over the past few centuries, have impacted negatively the global environment; burning fossil fuels to produce energy, expulsion of chlorofluorocarbons that clog the atmosphere, and depletion of forest covers are only some of the activities which have led to the serious threat of global warming and irreversible climate change.
The use of renewable energy, in this case, hydroelectric power generation has potential to mitigate climate change by directly reducing emission of Greenhouse Gases (GHG), which are the main culprits of global warming.
6.5.2 Negative Impacts on the Biophysical Environment
6.5.2.1 Effects of Extreme Weather Efficiency of overhead electricity lines can be reduced through extreme weather conditions such as strong winds and excessive rains that may affect applied loads and cause structural failure of various parts of the transmission and distribution infrastructure that are unable to withhold strong winds. 6.5.2.2 Impacts on Landscape Waste from disused and worn-out materials such as poles, lines, transformers, bolts, and knots etc. will be created during operation, maintenance, and repair works. These will create eyesores when not collected from the sites and managed properly. At the substation sites, along highways, and in developing LV networks within densely built communities, the impact from wirescape is common. There may be criss-crossing or increased numbers of transmission lines, distribution lines, telecommunication lines and other structures in the same areas causing visual disturbances as illustrated in Figures 6.2 and 6.3.
Figure 6.2: Combination of poles and cables around the Brusubi substation (outside Project’s AoI) - Source: SD Focus Ltd. 2020
112
Figure 6.3: Combination of poles and cables (MV and LV poles; streetlight poles, Advertisement Boards) across the highway from Brusubi substation (outside this Project’s AoI) - Source: SD Focus Ltd., 2020 6.5.2.3 Loss of Trees During maintenance, pruning of trees will have minimal significance as only affected branches should be trimmed. 6.5.2.4 Loss of Fauna Consultation with the DPWM highlighted an example of significant impact of non-insulated cables amputating monkeys within the Abuko Nature Reserve in Abuko (outside this Project area); similarly, in the open forests, one could expect such impacts on the populations. Large birds with wider wingspans (such as certain eagles, waterfowl, cranes, hawks, and vultures) may get electrocuted or killed in contact with lines during flight or resting on the lines.
6.5.3 Potential Positive Impacts on Human Environment 6.5.3.1 Employment During operation, approximately 13 workers (9 skilled and 4 unskilled) will be employed at various times to include the more skilled project managers and specialists, operators of T&D systems, maintenance workers, and workers to clear the ROW routinely. 6.5.3.2 Economic Development as a Result of Efficient Energy Supply Enhanced economic development and associated income generation from activities reliant on supply of electricity will specifically improve livelihood and benefit communities within the identified line corridors, and generally the entire country.
113
Improvement of tourism facilities was highlighted, including the importance of energy in the maintenance of museums and offices in remote areas of cultural significance such as the Stone Circles in Kerr Batch.
6.5.3.3 Improved Livelihoods as a Result of Better Services Education, health, communications, security and other social services that are largely dependent on electricity will be improved; with availability of electricity both locally and nationally, students will be able to stay up longer to read, and other social services such as health centers, clinics and national communication infrastructure will be more efficient. Operation of the Project will also result to efficient electricity supply that will improve agricultural productivity such as cool storage and value adding processes. 6.5.3.4 Benefits to Youth and Vulnerable Groups With continuous electricity supply, youth could develop skills and trade to enhance their livelihood; these may include welding, carpentry, or other small businesses that rely on electricity. Consequently, more job creation prospects will encourage youth to stay and work in The Gambia, rather than venture the risky illegal migration journeys to more developed countries. In the long-term, women could benefit by producing and selling, ice blocks and cold drinks made from local ingredients such as “kaba”, baobab and “wonjo” (hibiscus).
As outlined in a number of consultations, women look forward to having the opportunity to refrigerate or freeze food rather than cooking every day or having to get rid of excess food. The physical energy and time saved could be used to spend more time in other activities such as agriculture.
In remote areas where fishmongers come only periodically, women hope to purchase fish, where possible, in bulk when there is electricity for cold storage; this will help in promoting varied and balance diets. 6.5.3.5 Increased Security Operation of the Project will enhance security within the beneficiary communities, specifically at night, as lighting will be available.
6.5.4 Potential Negative Impacts on Human Environment
6.5.4.1 Risks to Public Health and Safety
Operation of T & D networks may cause harm to the public particularly where people encounter broken live lines during operation leading to electrocution or death. The significance is considered high as a single life lost to the Project is irreversible. During pruning of trees, the public may also encounter dangerous equipment such as sawing machines or falling branches where these are collected for domestic use. 6.6.4.2 Occupational Health and Safety Risks During all works, including operation and maintenance activities, workers are at risk of accidents from machinery, traffic, and illnesses. These include exposure of work crew to the risk of falling from heights during maintenance and repair of lines and accessing high trees during pruning. Electrocution and fire outbreaks during maintenance are also potential impacts of high significance.
114
6.5.4.3 Negative Impacts on Public Services During operation on the grids (particularly during connection to the main substations and pole-mounted transformers) there will be temporary disruption of power services to existing customers (within and outside the Project’s area of influence) supplied by the transmission lines and substations involved in the works.
6.6 Impacts of Decommissioning and Dismantling
6.6.1 Potential Positive Impacts on Biophysical Environment 6.6.1.1 Improvement of Landscape Reclamation of quarries, camp sites, and removal of disused structures will return the landscape to original state or even better.
6.6.2 Negative Impacts on Biophysical Environment 6.6.2.1 Impacts of Improper Waste Management Decommissioning activities involve removal and movement of installations that have been used for the Project. These activities will produce waste of various types from earth materials to broken and disused parts, structures and used oils. Such waste may affect aesthetics, surface water, wildlife, livestock, and the public. 6.6.2.2 Air Pollution The decommissioning phases of camps have the potential to temporarily affect local air quality. Heavy machinery and vehicles will also release hydrocarbon incomplete combustion gases to the air, affecting local air quality.
6.6.3 Potential Positive Impacts on Human Environment 6.6.3.1 Employment All activities will have to be carried out by people who are paid. Decommissioning activities will provide short-term employment for drivers, clearing workers, quarry restoration workers etc.
6.6.4 Negative Impacts on Human Environment 6.6.4.1 Public Health and Safety Risks As with all work activities, the decommissioning phase will also create health and safety risks to the public. 6.6.4.2 Risks of Communicable Diseases The risk of spreading communicable diseases is always present irrespective of the duration of the Project activity. Communicable diseases of most concern especially during the construction phase are sexually transmitted diseases (STDs), and highly contagious disease outbreaks such as the novel Corona Virus pandemic. The communities and workers are equally at risk of contracting diseases during the decommissioning phase. 6.7.4.3. Risks to Occupational Health and Safety Decommissioning will involve use of machinery and equipment that may endanger the lives of both operators and other workers within the sites.
115
Other issues which could be pertinent to worker health and safety during the construction phase include risks and hazards associated with noise and vibration, air quality and personal attacks.
Work related stress including long hours of work and under extreme heat may also affect workers. 6.4.4.4 Negative Impacts from Gender Based Violence and Violence against Children (VAC) Women and children are vulnerable to exploitation and abuse during all phases including the decommissioning phase. Children may be found at the Project sites or illegally employed during the works. Both women and children are at risk of being abused verbally, physically, or sexually, in addition to the risk of worksite accidents.
6.8 Cummulative Impacts This Project may give rise to the following cumulative impacts on the biophysical and socioeconomic environment:
• As the T&D lines usually follow existing highways and roads, poles will be erected along the edge of the road which may be boundaries of agricultural fields. Previous loss of agricultural land, or the composition and quality of the soil during the road construction would, in addition to potential disturbance of agricultural land during this project, potentially affect farmers once again. Moreover, larger farmlands too close to the road would be more affected where more than one pole is located along the farm.
• As reported by Forestry Officers, some Community Forests in the Gambia (particularly those without noticeable boundaries) have been affected previously during road construction and similar T&D projects; more Community Forests may be further affected by this Project if control measures are not fully implemented. For example, during field visits for this study, there was evidence of cleared vegetation (as a bye-pass for the road construction) and trees felled along the whole trajectory of the current road construction from Keleng Jawbeh, Sami District (CRR-N)6 to the settlement of Bush Town, across the River from Bansang. Along this bye-pass is a camp, stockpiles of earth materials and clearance for the road alignment. Therefore, no matter how minimal the vegetation clearance is for the Project, in combination with the current loss of vegetation, the impacts will be more pronounced.
• In addition, collective loss of vegetation and consequential disturbance of forests and wildlife habitat, particularly for access during works and indirectly at quarrying sites, may cause fragmentation of biodiversity and potential change to the variety of species as wildlife tend to adapt or move in response to continuous changes in habitat. This could also adversely impact the livelihoods, food security and cultural practices of the community, including women who may depend on access to these resources for food production and livelihoods.
• Excavation activities, increased worker population and vehicle traffic in remote areas at the same time during construction will create a combination of nuisances and reduced tranquility as a result of noise, vibration and air pollution (especially in most rural areas where similar activities and machinery are extremely rarely seen or used).
6 Although not within the WCR and thus outside the scope of this repot, but similar situations have been noted in many other
places; this can contribute to increased cumulative impacts of different projects on the same receptor
116
• Cumulative impacts from similar projects in future, such as adding extra circuit lines to existing poles, will have minimal combined effect as compared to construction of another line along the same routes.
• Potential visual disturbance is likely in the future where electricity transmission lines and lines of other services compete for space, for example, crisscrossing of telecom and electricity lines. In certain areas, poles may be situated near similar structures with adverts or road signs creating unaesthetically pleasing sights collectively. Specific concern is at the main substations where many poles and lines will have to be connected to serve the various feeders creating unsightly wirescapes
• The cumulative impact from potential public health and occupational health and safety risks (falls, electrocution, effects of air and noise pollution, diseases, GBV, SEA, VAC etc.) associated with the project should be noted as various hazards will be present simultaneously during works, creating an environment for increased probability, frequency and number of incidents. The more the number of workers, the more the cumulative nature of the potential impacts and the need for more stringent supervision and monitoring to ensure safety, compliance, credibility, and social cohesiveness.
• Considering the wide scope of the Project with more than 330 villages, low impacts of the Project in these villages in combination may lead to impacts of high significance. For example, where minor grievances are reported from several villages, the Project and GRC will have to work effectively to maintain credibility (especially with the fast spread of news on social media). Moreover, the total land-take of the Project, combining the negligible land-take from each PAP, will become significant.
The results of the anaylsis will assist the ECOWAS-REAP PIU, NEA and other government agencies in
making informed decisions about the environmental and social assessment that has been conducted
on the Project. It will be noted that the Policy and Regulatory framework specified in Chapter 3, has
been taken into consideration in the development of this report, and the impact assessment is based
on the Project’s adherence to these requirements.
117
CHAPTER 7: MANAGEMENT MEASURES OF THE POTENTIAL NEGATIVE IMPACTS ON THE
ENVIRONMENT
This Section prescribes the necessary measures to manage both the negative impacts of the project
activites as well as the positive impacts. Whilst the negative impacts are mitigated, positive impacts
should be enhanced or encouraged.
7.1 Enhancement Measures for Potential Positive Impacts
7.1.1 Enhancement Measures for Positive Impacts During Pre-construction Phase: Human
Environment
7.1.1.1 Creation of Temporary Jobs Temporary employment can be created for more people by providing opportunities to local workers in the various Regions, particularly unskilled labor. Contractors should be encouraged and monitored to ensure equal employment opportunities to men, women, and youth. 7.1.1.2 Improved Community Cohesiveness Overall, the communities are delighted with the Project, and discussions around expectations further bring them together for the common goal. The momentum and enthusiasm generated by the impending lighting of the communities could be used as a spring board to form local committees to organize and coordinate community efforts, to negotiate with NAWEC on behalf of the communities to reduce the cost of connection, among other initiatives. The committees could equally act as forums where community grievances related to the Project could be lodged for onward transmission to the Project GRC. To further enhance community cohesiveness the following could be possibilities:
• the Project may invest in related community infrastructure such as road upgrades and community reforestation as compensation for losses or as part of the activities;
• consultation and participation of beneficiary communities should be a continuous process during the preconstruction phase;
• the SSS could ensure all the necessary consultation and disclosure is done prior to the commencement of construction;
• the GRM must also be active and made known for timely address of grievances;
• communities can be encouraged to set up committees/groups that can be useful in supporting each other with regards to the benefiting and participating in the Project; this will create an internal support system.
7.1.1.3 Income Generation Cleared vegetation should be made available to the communities without discrimination, for sale or domestic use. Savings made from the Project related activities will provide opportunities for more income generation through investment into more lucrative businesses, therefore, compensation for involuntary resettlement should be accompanied by advice and information to promote improved livelihoods. Employment of local labor, could create capital for local community members to maximize the benefits of the electricty within the communities; they could be encouraged to invest in such trades as welding, carpentry, etc. and this could increase economic activity within local communities.
118
Increased numbers of people in these trades could have spin offs into other trades with increased financial income within the communities.
7.1.2 Enhancement Measures for Positive Impacts During Construction Phase: Human
Environment
7.1.2.1 Employment and income
• During construction, employment can be created for more people by providing opportunities to local workers in the various Regions, particularly unskilled labor.
• Hiring practices and training should encourage technology transfer and development programs to promote the use of local suppliers of goods, services, and personnel.
• Where possible, the required materials should be produced in The Gambia, to create further employment as compared to the importation of materials; local suppliers should be encouraged through provision of adequate technical and commercial information for fulfilment of requirements.
• Contractors should be encouraged and monitored to ensure equal employment opportunities to men, women, and youth.
7.1.3 Enhancement Measures for Positive Impacts During Operation Phase: Biophysical
Environment
7.1.3.1 Impact on Climate Change NAWEC shall ensure optimal use of the electricity produced from the renewable energy source to reduce the use of fossil fuels in energy production; transmission and distribution infrastructure should be periodically upgraded to improve efficiency.
7.1.4 Enhancement Measures for Positive Impacts During Operation Phase: Human Environment
7.1.4.1 Employment
During operation, the employment needs are minimal for inspection, repair, and maintenance of infrastructure. Periodic pruning of vegetation along the ROW shall also create employment. To enhance employment during operation, the limited number of employees can be given refresher training to ensure they can handle new technology and designs. This shall improve employment opportunities. Indirect employment can also be created as agents are required in most of the communities for the sale of electricity tokens. 7.1.4.2 Economic Development as a result of Efficient Energy Supply
119
National development is highly dependent on electricity, therefore, NAWEC most ensure during operation that the necessary maintenance and periodic upgrade of the T&D infrastructure is carried out to ensure constant supply; this will prevent unnecessary electricity shortage as a result of breakdown in the T&D system. NAWEC shall also expand to ensure optimal transmission and distribution of the available energy. 7.1.4.3 Improved Livelihoods as a Result of Better Services
Availability of electricity improves livelihoods, therefore, NAWEC most ensure during operation that the necessary maintenance and periodic upgrade of the T&D infrastructure is carried out to ensure constant supply. Reliable energy supply will promote the development and maintenance of businesses and improve domestic livelihood activities with the use of electrical equipment. NAWEC shall also ensure optimal transmission and distribution of the available energy through increased accessibility and affordability. 7.1.4.4 Benefits to Youth and Vulnerable Groups To enhance benefits of the Project to potentially vulnerable groups, NAWEC shall promote equality in energy accessibility and distribution without discrimination.
7.1.4.5 Increased Security NAWEC shall ensure increased affordability of electricity to the wider population; this will encourage
communities to light up.
7.1.5 Enhancement Measures for Positive Impacts During Decommissioning Phase: Biophysical
Environment
7.1.5.1 Improvement of Landscape The ESS and the NEA must ensure the landscape is improved or at least returned to near original state. 7.1.6 Enhancement Measures for Positive Impacts During Decommissioning Phase: Human Environment 7.1.6.1 Employment During decommissioning, local workers should be employed to carry out the removal and clearing activities.
7.2 Impact Management during Pre-construction Phase
7.2.1 – Mitigation Measures of the Negative Impacts on the Biophysical Environment 7.2.1.1 Mitigation of Geology and Soils related Impacts
• For operating new quarries, the materials shall be obtained from quarries only after the consent of relevant authorities, including such as the affected communities, the Geology Department (GD) and the NEA. Extraction sites will need to be assessed before commencement of mining, and after approval of mining and reclamation plans;
120
• quarries approved for this Project, must be officially closed after the works, and communities given the responsibility of reporting to the authorities (NEA, GD) of any illegal mining activities:
• for quarries approved for this Project, copy of licenses should be displayed on site, or produced on request by the relevant national authorities;
• access to the quarries must always be prohibited and communities educated on controlling children to avoid such sites due to the associated risks, including drowning during the rainy season;
• only established transportation routes and diversions must be used to limit destruction and ensure reclamation is done at the end of the works by reinforcing and repair access roads;
• contractor must be cautioned through relevant clauses in the works agreements to use only certified sand and gravel suppliers that have been approved by the NEA and GD;
• vegetation removal must be carefully carried out to avoid major soil disturbance, and only existing transportation routes used to avoid destruction of virgin land.
7.2.1.2 Mitigation of Air Pollution
• access to pre-construction sites by the public must be prohibited by placing appropriate signs and barriers in combination with community sensitization on health and safety during works;
• camps must be located sufficiently away from human settlements (at least 500m);
• reduce speed to 10-20 km/h when entering settlements;
• erecting speed bumps when settlements are regularly crossed. In addition, other mitigation measures for generation of dust and other gaseous pollutants are as follows: Generation of dust
• Wet road surfaces to suppress dust emissions and prevent nuisance;
• workers must be provided with personal protection gear with the aim of preventing dust-related health problems and other dust nuisances;
• trucks transporting sand and gravel must be covered to prevent dust and flying debris;
• special care will be taken when working near educational institutions, recreational grounds, mosques, health facilities, and other areas where the public may gather such as markets. This will include erection of barriers and posting of sign boards to warn against intrusion of people into the work sites.
Gaseous Pollution
121
• contractors must also be warned in their agreement clauses to reduce air pollution through use of well-maintained equipment. Equipment must be serviced frequently and run below the optimal, as overloading strains the mechanisms that produce incomplete combustion. High quality oils must also be used to reduce dangerous air emissions;
• emission standards prescribed in the Environmental Quality, Permitting and Discharge Regulations must not be exceeded;
• ensure that engines of vehicles and machines are not left operating idle; 7.2.1.3 Mitigation of Noise and Vibration Nuisance All works must be carried out during daytime, between working hours, to reduce noise nuisance. In addition, the following must be observed:
• use of well-serviced equipment to reduce nuisance, thus maintenance of vehicles, equipment and machinery should be emphasized ;
• provision of earplugs to workers exposed to high noise levels;
• raise awareness of this risk for the population and the measures put in place.
7.2.1.4 Mitigation of Unsightly Landscape
• work sites must be cleared after all Project activities;
• borrow pits should be reclaimed and restored to enhance landscape;
• all waste produced during the pre-construction phase should be well managed;
• stockpiles should be located at base camps and not numerous locations for ease of access;
• make an environmental and social reception which goes before the technical reception of the
works.
7.2.1.5 Mitigation of Improper Waste Management Improved waste management measures shall be employed and enforced, and these will include developing a waste management plan to include amongst others, the types of waste, expected quantities and frequency, proposed management procedures and responsibilities. The plan will indicate the following:
i. minimizing the production of waste that must be treated or eliminated where waste
generation cannot be avoided;
ii. identification and classification (hazardous or not, solid, gaseous, or liquid) and estimate the likely type of waste to be generated such as cleared vegetation, packaging, excess aggregate, and disused equipment etc.; If hazardous wastes are generated, proper procedures must be taken regarding their storage, collection, transportation, and disposal as indicated in the Hazardous Chemicals and Pesticides Control and Management Act, 1994:
iii. using the cleared vegetation, as firewood within the communities;
122
iv. reusing the solid waste (such as topsoil wastes) generated from the excavation works as backfill while the rest will be disposed of in designated areas;
Other solid wastes (such as cement bags, metallic pieces, wooden planks, and leftover of aggregate material and debris) will be disposed of according to the National Environment Management Act, 1994 and Antilittering Regulations, 2007;
v. recommending that the work contracts include waste management measures (as
indicated in Appendix 6.1) such as those described in World Bank’s Environmental, Health, and Safety (EHS) Guidelines (1.6 Waste Management);
vi. iIdentifying and demarcation of approved disposal areas, clearly indicating the specific
materials that can be deposited in each; waste must not be discarded within, or close to Community Forests;
vii. all waste management options must be in a sound manner that does not affect human
health and the environment;
viii. the Contractor developing a well-organized internal supervision and monitoring system to ensure waste reduction and proper management through full implementation of the waste management plan;
ix. external monitoring to be carried out by the TACs to remind the Contractors that they
are being watched; also, to ensure discontinuation and mitigation where waste has been dumped illegally.
7.2.1.6 Mitigation of Deforestation Deforestation shall be minimized by the following:
• although vegetation will have to be cleared for the camp, poles, and access to certain areas, this should only be limited to the required area;
• divert routings to avoid trees where feasible;
• develop a RAP to assess the potential losses of forest trees and required compensatory reforestation. Where trees to be felled are forest trees (even outside protected forests), and thus belong to the DOF, the RAP consultant should develop a costed tree replacement plan with 1:4 replacement ratio to be implemented by DOF
• workers must be educated and warned by the Contractor to avoid forested areas, extracting wood, hunting, and burning activities, which will degrade the forests (particularly Community Forests certain corridors) and other vegetation.
7.2.1.7 Mitigation for the Loss of Fruit Trees
• only remove trees that are absolutely necessary for the works by diverting lines where possible;
• locate poles within the maximum range to avoid trees;
• encourage replanting programs rather than mere cash compensations; 7.2.1.8 Mitigation of Impacts on Fauna
• all quarry pits created by the Project must be fully rehabilitated after mining;
123
• there must be constant supervision of works to ensure only necessary sites are cleared of vegetation;
• construction workers must protect natural resources and wildlife; thus, they should be educated on guidelines relating to the hunting of wild animals;
• The Guinea baboon, and Red colobus monkey populations, must be protected by: o enforcing more vigorously the relevant national laws and regulations that prohibit
their killing; o conducting training and information meetings on their preservation and protection at
community level; o creating community wildlife reserves where threatened species such as the baboon
could be protected;
• Hunting and eating of bush meat by all workers, particularly imported workers, will be prohibited and alternatives such as fish, and domestic animals encouraged; offenders must be disciplined in any of the following ways:
i. informal warning; ii. formal warning;
iii. loss of up to one week’s salary; iv. suspension of employment (without payment of salary), for a minimum period of
1 month up to a maximum of 6 months; v. termination of employment;
• there should be a labor Grievance Redress Mechanism (GRM) to ensure that employees can report anonymously if needed to prevent risks of reprisals. The labor GRM should be included in the Contractors ESMP (C-ESMP) and as part of the bidding documents.
7.2.1.9 Mitigation of Impacts on Wetlands
• avoid placing transmission lines through wetlands, if possible. If inevitable to avoid wetlands, there should be constant supervision of the works, environmental monitoring, and the Contractor must ensure construction works and mitigation measures are according to the C-ESMP;
• contractors shall minimize impacts wherever possible by integrating all mitigation measures into the design, including evaluation of alternative routes and designs to prevent or mitigate potential impacts. These include:
i. Routing of lines
One method to mitigate impacts during Project design is replacing or double circuiting an existing line rather than building a new line. The same principle could apply in other areas besides wetlands. The environmental advantages of double-circuiting on an existing line are:
- Little or no additional corridor clearing, if the new line can be placed in the center of an existing corridor
- Land use patterns may have already adapted to the existing corridor - Magnetic fields may be reduced because new structure designs place line conductors
closer together resulting in lower fields. Using corridor-sharing to minimize corridor requirements
124
ii. Transmission Line Infrastructure
Choosing a different transmission pole with different construction requirements and aesthetic appeal is another method to mitigate impacts during Project design. These will include:
- Using H-frame structures, which have longer span widths, and thus make it easier to cross rivers, wetlands, or other resources with fewer impacts
- Using the darker color of oxidized steel structures, which blend in better with forested backgrounds
Pole foundation design factors to be considered especially in wetlands will involve:
- Highest flood and /or tidal level shall be established before pole construction - Soil analysis report especially in wetlands - Marine grade design concrete mix is used and vibrated accordingly
iii. Add-ons
By adding flight diverters to conductors, bird collisions with the wires can be minimized. These markers on the top (shield) wire make the lines more visible to birds if the collision potential is high
7.3 Impact Management during Pre-construction Phase
7.3.1 Mitigation Measures of the Potential Negative Impacts on the Human Environment 7.3.1.1 Mitigation for Involuntary Resettlement and Loss of Livelihoods
• avoid agricultural lands by choosing alternative routes wherever possible;
• where alternative routes are not possible, all loss of livelihood, including agricultural and rangeland, firewood and other forest produce collection will be addressed in a RAP;
Although this Project will not involve physical relocation of people, all PAPs should be compensated as required by the Bank’s OP 4.12. In this regard, a RAP shall be developed and implemented making sure that all persons affected by the Project are fully and fairly compensated for lost assets and livelihoods;
• construction activities should be carried out in the dry season when agricultural fields are not in use (although for NAWEC, this is common practice for ease of access to line corridors without damaging crops in farmlands).
7.3.1.2 Mitigation for the impacts on vulnerable groups World Bank policies (such as OP 4.12) require that particular attention is paid to the needs of vulnerable groups, including women. Therefore, the development of any RAP must clearly identify and consult with them and address any potential risks that will prevent them from benefitting appropriately from resettlement benefits and financial compensations
7.3.1.3 Mitigation for risks to public health and safety
• workers should be trained in good practices and contingency measures prior to the start of works. Integrate staff training, especially drivers on defensive driving, given the real road traffic risk;
125
• they must also be sensitized on how accidents or incidents can affect Project implementation, the measures they have to follow and fines in case of non-compliance;
• warning and safety signs must be used before commencement and during the works to inform and warn the public of risks and means of avoidance;
• gravel and sand borrow pits specifically approved for these works must be reclaimed to return the sites to as close as possible to the natural state;
• danger of accidents and injuries from utilities and other equipment and machinery during the pre-construction phase shall be monitored vigorously; to prevent and protect the communities from harm, the contractor shall mount safety cordons and danger signs at strategic locations;
• communities must be informed to stay away from work sites to avoid dust inhalation prior to works;
• sourcing of workers, especially unskilled labor shall be from local communities to avoid imported labor, as much as possible;
• recommended that skilled labor be rotated in on and off duty cycles to make them available to meet with their family members (back home) to minimize the chances of their mixing with the village women to minimize the chances of spreading STDs/STIs and HIV/AIDs (and increasing incidents of conflicts with the community, disruption to social cohesion and interpersonal relationships, including intimate partner relationships);
• the “Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), and Violence Against Children (VAC)” will also be included in contracts including explicit references for monitoring, enforcement and compliance (as per Appendix 6.1);
• awareness campaigns/orientation covering but not limited to HIV/AIDS/STDs transmission risks shall be carried out for workers and host communities;
• regular check-up for workers to determine whether there are new cases of infections, and to what extend are these infections increasing or decreasing.
7.3.1.4 Mitigation of violence against children
• Children must not be employed by the Project, and the Project must comply with all relevant local legislation, including labor laws in relation to child labor and the Bank’s safeguard policies on child labor and minimum age.
• Communities need to be informed about the start of all works at least 5 days before, and the need for them to keep children away from the sites
• Specifically, the project should ensure that the “Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse (SEA) and Violence Against Children (VAC)” are included in the Project’s bidding documents. The Codes of Conduct are meant to:
i. Create awareness of the ESHS and OHS expectations on the Project ii. Create common awareness about GBV, SEA and VAC
126
iii. Ensure a shared understanding that GBV, SEA and VAC have no place in the Project
iv. Create a clear system for identifying, responding to, and sanctioning GBV and VAC incidents
7.3.1.5 Mitigation of Risks to Occupational Health and Safety The following measures are important to be carried out to prevent and manage negative impacts to worker health and safety during the preconstruction phase:
• Training and safety information should generally be provided to management, supervisors, workers, and occasional visitors to areas of risks and hazards. Specifically, there must be on-the-job training, and knowledge on procedures to reduce risks, including coordination and supervision.
• Workers should be trained in good practices and contingency measures prior to the start of works. Integrate staff training, especially drivers on defensive driving, given the real road traffic risk.
• All workers employed by a Contractor for the Project must be informed of the associated hazards and risks. A basic occupational training program and specialty courses should be provided as needed to ensure that workers are aware to the specific hazards of individual work assignments.
• Although the main risks are analysed in Chapter 8 for appropriate action, biological risks (wildlife attacks) can specifically be addressed by:
- Discussing with the commintities risks of potential wildlife attacks in the area - Providing information to the staff on preparedness - Training on response - Provision of first aid kits - Provision of knowledge on the closest health facilities for additional expert help
• The Contractor must provide proper working conditions for labor, including adequate toilets, drinking water, areas for rest and having meals, lighting (for camps) and waste disposal facilities. Consideration must also be given to these facilities at peak sites and times when the demand is higher.
• The Contractor should adopt and implement a health and safety program which entails:
- Effectively identifying and correcting unsafe conditions routinely
- Protection of the workers and the public from dangers arising from operational activities of the facility
- Prevention of events resulting in potential injury to workers, the public, or the environment
- Fire extinguishers, personal protective equipment and first aid kits should be provided, and training given on how to use them
- Reporting of incidents is also essential for the review and improvement of safety procedures
- A tailor-made Accident Prevention Plan (APP) must be prepared and implemented by the Contractor. At the minimum, the Plan must consist of the following elements:
i. Management Policy Statement
127
ii. Authority and Accountability iii. Goals and Objectives iv. Employee Commitment and Responsibilities v. Employee Involvement vi. Disciplinary Policy vii. Record Keeping viii. Safety and Health Surveys and Inspection/Program ix. Safety or Other Related Meetings x. Safety and Health Training xi. Safety Audit and Inspection xii. Accident hazard and risk assessment xiii. Accident and Hazard Investigation xiv. Accident Reporting and Investigation xv. Review and Revision of Components
• Despite the accident prevention plan, incidents may occur, and an Emergency measures plan in case of accidents will be implemented to address:
i. General measures ii. Internal Operation Plan (POI)
iii. Circulation and movements on the sites iv. Individual and collective protection equipment v. Special instructions for the use and movement of vehicles
vi. Works inspection and maintenance program vii. Fire protection measures
viii. Training and exercise procedures 7.3.1.6 Mitigation of Risks of Communicable Diseases
• The workforce shall be sourced locally to reduce the need for importation of workers. Employing local workers enhances community cohesion as the local workers know the community, culture, and norms which may also help decrease risks to GBV, SEA, spread of STDs and so on
• Nonetheless, to prevent STDs, it is essential that Contractors are required through the contracts to educate their workers on the risks and prevention methods before, and constantly during works. In addition to implementing measures on sensitization and education on the dangers and mitigation measures to address STIs, there will also be strict monitoring to ensure adherence to the relevant codes of conduct.
• Other methods include:
• Encouraging use of condoms
• NAWEC and Contractors providing surveillance and active screening and treatment of workers
• Ensuring the Contractor routinely reviews the Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse and Violence Against Children with Project workers, including mandatory reviews with new workers to a Project site to ensure all workers understand behavior expectations and GBV/SEA risks, including sexual harassment. The Social Safeguards Specialist of the Project will attend sensitization meetings to ensure they are taking place. The Codes of Conduct are meant to:
128
- Create awareness of the ESHS and OHS expectations on the project - Create common awareness about GBV, SEA and VAC - Ensure a shared understanding that GBV, SEA and VAC have no place in the
project - Create a clear system for identifying, responding to, and sanctioning GBV, SEA
and VAC incidents
• Regarding the global Corona Virus Pandemic, the PIU and contractors shall rely on national, WHO and WB guidance for safety of workers and community beneficiaries (the WB Guidelines are stated in Appendix 7.2).
7.3.1.7 Mitigation for community instability
• Initiate extensive consultations and sensitization with the communities and project affected persons about eligibility and compensation requirements through awareness-building meetings
• With regards to the management of deforestation products, privately owned trees are left with the owners and forest trees with the DOF, whilst products from other vegetation in the open can be collected by villagers on a first-come, first-served basis as traditionally practised.
• Use the Grievance Redress Mechanism (GRM) at the ECOWAS-REAP PIU for prevention and resolution of conflicts arising from complaints and grievances relating to compensations and redress. Appendices 9.1 to 9.2 explains the GRM process.
• The GRM will involve a Grievance Redress Committee (GRC) to investigate all complaints and grievances from PAPs relating to, for example: eligibility for compensation; PAPs not listed; etc.
• Employing local workers enhances community cohesion as local workers know the community, cultures, and norms which may also help decrease risks to GBV, SEA, spread of STDs and so on, as workers know the community and vice versa. As such, the Contractor will be required to write a hiring plan to incorporate local workers
• Contractor to develop a hiring plan to ensure that community labor is being used, and also to ensure that women are employed in the Project
• Apply the Codes of Conduct in order to mitigate against VAC, SEA and GBV in Project sites; prior to the start of work, the staff will be well sensitized, and they will sign the Codes of Conduct. Ensure regular trainings and awareness-building on the Codes of Conducts among all key stakeholders (community, contractor, workers) which will also be included in contractor’s C-ESMP and in bidding documents
7.3.1.8 Mitigation of impacts on sites of cultural and historical significance
• The Contractors must avoid all sites of cultural or historical significance including any buffer created for their protection. These may include complete diversion of the lines or ensuring poles are not locating next to such sites. For example, small mosques along the routes can be avoided by adjusting the line span to ensure the poles are far away from the structures
129
7.4 Potential Impact management during the construction phase
7.4.1 Mitigation Measures of the Potential Negative Impacts on the Biophysical Environment 7.4.1.1 Mitigation of Surface Water Pollution
• Adjust the span between the poles to avoid waterbodies.
• For larger water bodies and wetlands, integrate all the identified mitigation measures, from design to implementation, in order to prevent or mitigate potential changes of water quality. For example, designs and plans should ensure siting of poles at a minimum safe distance from the water bodies.
• Constant supervision of the works and environmental monitoring will ensure construction works are not carried out close to the banks in order to avoid soil compaction leading to soil erosion and increase in sediment load of the tributaries
• Workers shall be careful to prevent spills and improper management of waste and excess materials. Contractors will also ensure prescribed procedures are followed to protect water quality as required by the Environmental Quality Standards Regulations, 1999, and the Environmental Discharge (Permitting) Regulations, 2001
7.4.1.2 Mitigation of Loss of Aquatic Ecosystems
• Existing vegetative buffers should be left undisturbed whenever possible.
• For areas where construction impacts cannot be avoided, low-growing native tree and shrub buffers along these streams should be allowed to regrow so as to maintain the pre-construction water quality in the streams. To allow regrowth, the Contractor must ensure that the sites are returned to near original state (clear all excess materials and wastes that may affect regeneration; level soil around worksites similar to the surroundings to allow water movement).
• Place markers on the top (shield) wire to make the lines more visible to birds if the collision potential is high.
7.4.1.3 Mitigation of Impacts on Wetlands
• Avoid placing transmission lines through wetlands, if possible. If inevitable to avoid wetlands, there should be constant supervision of the works, environmental monitoring, and the Contractor must ensure construction works and mitigation measures are according to the C-ESMP.
• Adjust pole placements to span wetlands, or limit equipment access in wetlands, wherever possible. By making minor adjustments in pole locations (especially given the allowable span between poles), impact on archaeological sites and agricultural operations can be minimized. Line clearance safety is important to take into consideration during the routing of the MV lines. Use Table 7.1 below as guide. Table 7.1; Recommended Minimum Clearance Distances for Various Situations
Nature of Area Minimum Clearance (meters)
Over Open Country 5.20
130
Over the Road 6.10
Alone the Road 5.80
Over telecom Lines 2.44
Over Rivers 6.10
Over MV or LV Lines 2.44
Under HV Lines 2.44
Near Buildings Vertical 3.70
Horizontal 2.00
Source: OMVG, 2018 7.4.1.4 Mitigation of Noise and Vibration Nuisance All construction works must be carried out during daytime, between 8am and 6pm, to reduce noise and vibration nuisance. In addition, the following must be observed:
• Use of well-serviced equipment to reduce nuisance, thus maintenance of vehicles, equipment and machinery should be emphasized
• Provision of earplugs to workers exposed to high noise levels
• Enforce strict work rules to limit only necessary workers at the sites 7.4.1.5 Mitigation of Unsightly Landscape
• During the works, Contractors must encourage good housekeeping to ensure sites are organized. All excavations and piles of earth materials that have been made during the works and not used must be levelled to return the sites similar to its surroundings.
• All equipment and heavy vehicles must be parked securely at special sites (base camp or identified sites for this purpose) at the end of each workday.
• All excess and waste materials will be removed from the work sites for appropriate management as earlier discussed.
7.4.1.6 Mitigation of Air Pollution Mitigation measures for air pollution through generation of dust and other gaseous pollutants during construction include:
• Wetting work sites to suppress dust emissions and prevent nuisance
• Workers must be provided with personal protection gear with the aim of preventing dust nuisances and other dust-related health problems
• Trucks transporting sand and gravel to the work sites must be covered to prevent dust and flying debris
• Special measures will be taken when working near complex areas such as educational institutions, recreational grounds, mosques, markets, and health facilities. This will include erection of barriers and posting of sign boards to warn against intrusion of people into the work sites.
131
• The workdays will also be altered to make use of opportunities when these sites are free or less busy. For example, avoiding school or weekly market days.
• Contractors must also be warned in their agreement clauses to reduce air pollution through use of well-maintained equipment. Equipment must be serviced frequently and run below the optimal, as overloading strains the mechanisms that produce incomplete combustion. High quality fuels and oils must also be used to reduce dangerous air emissions.
• Emission standards prescribed in the Environmental Quality, Permitting and Discharge Regulations must not be exceeded.
• Ensure that engines of vehicles and machines are not left operating idle.
• Reduce speed to 10-20 km/h when entering settlements.
• Erecting speed bumps when settlements are regularly crossed.
7.4.1.7 Mitigation of Extreme Weather Impacts
• Plan and execute pole erection after the rainy season as this would prevent works from being interrupted due to potential heavy rains.
• Workers should be trained and supervised in safe practices, such as daily inspection of equipment, and use of personal protective gear.
• The planners and contractors should avoid locating poles at the edges of culverts and water bodies to prevent poles from collapsing as a result of erosion. Given that the minimum span between poles is 100m, contractors must not site poles less than 15m on each side of surface water bodies to prevent possible erosion and collapsing of poles. Poles should be located at least 5m from the edge of the culvert, and not within the route of water flow.
• Within wetlands, specially engineered foundation types should be employed for durability. 7.4.1.8 Mitigation of Impacts related to the Importation of Workers
• Employing construction workers in the various Project intervention villages will be impractical considering the short-term nature of the construction activities with little time for scouting and training. Therefore, contractors should at least aim to employ workers from the various administrative Regions of The Gambia where the Project falls.
• Communities should also be aware of the GRM in case of complaints and reports relating to the Project, including activities of its workers.
• Internal supervision and monitoring by the Contractor’s team will ensure workers are controlled within the Project sites and identified construction activities.
7.4.2 Mitigation Measures of the Negative Impacts on the Human Environment 7.4.2.1 Mitigation of Impacts related to Public Health and Safety
• At sites of weekly markets or schools, construction works must be carried out only on non-market or school days. Where some traders remain permanently at the sites, a RAP will be
132
developed to include any loss of livelihood for displacement to a safe location during the construction phase.
• Alternatively, the routing of the lines can be changed where possible, and be located behind the markets, to avoid the congested areas.
• Strict restrictions must be put in place to prohibit access of the public to work sites, materials, and equipment
• Communities must be given prior notice before commencement of the works to inform and warn the public of risks and means of avoidance. Communities must be informed to stay away from work sites.
• To prevent road traffic accidents, work supervisors must ensure speed limits are controlled and operators of vehicles and heavy equipment well trained other measures to mitigate the potential health risks in traffic and vehicular movement, include:
- The Contractors must emphasize safety aspects among drivers - Drivers’ skills should be tested and improved through training, including training on
defensive driving - Contractors should adopt limits for trip duration and preparing driver rosters to avoid
overtiredness - Drivers must avoid dangerous routes and busy times of day to reduce the risk of
accidents, particularly with long parts - Contractors should maintain regular maintenance of vehicles and use of manufacturer
approved parts to minimize potentially serious accidents caused by equipment malfunction or premature failure
- Institute fines and penalties for non-compliance, including deduction of wages, suspension, or even dismissal for habitual errant Project drivers
- There should be effective site management, including signage, lighting, and warning signs, including restriction of access by unauthorized personnel.
7.4.2.2 Mitigation of Risks of Communicable Diseases
• During disease outbreaks, the PIU and Contractors must ensure that the Project related activities and workers are in line with the Emergency Regulations set by the Government of The Gambia. Specifically, these include distancing, crowd control, improved sanitation, and movement restrictions.
• The workforce shall be sourced locally to reduce the need for importation of workers. Employing local workers will make them take more responsibility for their actions and will reduce promiscuousness. Knowing the community, culture, and norms will also help decrease risks to GBV, SEA, and spread of STDs.
• Nonetheless, to prevent STDs, it is essential that Contractors are required through the contracts to educate their workers on the risks and prevention methods before, and constantly during works. In addition to implementing measures on sensitization and education on the dangers and mitigation measures to address STIs, there will also be strict monitoring to ensure adherence to the relevant codes of conduct.
• Other methods include:
• Encouraging use of condoms
133
• NAWEC and Contractors providing surveillance and active screening and treatment of workers
• Ensuring the Contractor routinely reviews the Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse and Violence Against Children with Project workers, including mandatory reviews with new workers to a Project site to ensure all workers understand behavior expectations and GBV/SEA risks, including sexual harassment. The Social Safeguards Specialist of the Project will attend sensitization meetings to ensure they are taking place. The Codes of Conduct are meant to:
- Create awareness of the ESHS and OHS expectations on the project - Create common awareness about GBV, SEA and VAC - Ensure a shared understanding that GBV, SEA and VAC have no place in the
project - Create a clear system for identifying, responding to, and sanctioning GBV, SEA
and VAC incidents
• It is recommended that skilled labor be rotated in on and off duty cycles to make them available to meet with their family members (back home) to minimize the chances of their mixing with the village women to minimize the chances of spreading STDs/STIs and HIV/AIDs (and increasing incidents of conflicts with the community, disruption to social cohesion and interpersonal relationships, including intimate partner relationships)
• Awareness campaigns/orientation covering but not limited to HIV/AIDS/STDs transmission risks shall be carried out for workers and host communities
• Regular check-up for workers to determine whether there are new cases of infections, and to what extend are these infections increasing or decreasing.
7.4.2.3 Mitigation of Occupational Health and Safety Risks The following measures will be implemented to mitigate worker health and safety risks during construction. In addition, Chapter 8 covers the accident risk assessment and management plan which will be employed for specific risks and accidents.
• Specifically, biological risks (wildlife attacks) can be addressed by: - Discussing with the commintities risks of potential wildlife attacks in the area - Providing information to the staff on preparedness - Training on response - Provision of first aid kits - Provision of knowledge on the closest health facilities for additional expert care
• Training and safety information should generally be provided to management, supervisors, workers, and occasional visitors to areas of risks and hazards. Specifically, there must be on-the-job training, and knowledge on procedures to reduce risks, including coordination and supervision.
• Workers should be trained in good practices and contingency measures prior to the start of works
• All workers employed by the Contractor for the Project must be informed of the associated hazards and risks. A basic occupational training program and specialty courses should be
134
provided as needed to ensure that workers are aware to the specific hazards of individual work assignments.
• The Contractor must provide proper working conditions for labor, including adequate toilets, drinking water, areas for rest and having meals, lighting (especially for camps) and waste disposal facilities.Consideration must also be given to these facilities at peak sites and times when the demand is higher.
• The Contractor should support in providing medical care to workers, particularly for health conditions occurring during work. This may include health insurance, transportation costs to health facilities and medical fees.
• The Contractor should adopt and implement a health and safety program which entails:
- Effectively identifying and correcting unsafe conditions routinely
- Protection of the workers and the public from dangers arising from construction activities
- Prevention of events resulting in potential injury to workers, the public, or the environment
- Fire extinguishers, personal protective equipment and first aid kits should be provided, and training given on how to use them
- Reporting of incidents is also essential for the review and improvement of safety procedures
- A tailor-made Accident Prevention Plan (APP) must be prepared and implemented by the Contractor. At the minimum, the Plan must consist of the following elements:
i. Management Policy Statement
ii. Authority and Accountability iii. Goals and Objectives iv. Employee Commitment and Responsibilities v. Employee Involvement
vi. Disciplinary Policy vii. Record Keeping
viii. Safety and Health Surveys and Inspection/Program ix. Safety and other Related Meetings x. Safety and Health Training
xi. Safety Audit and Inspection xii. Accident hazard and risk assessment
xiii. Accident and Hazard Investigation xiv. Accident Reporting and Investigation xv. Review and Revision of Components
• Despite the accident prevention plan and due diligence, incidents may occur, and an Emergency Measures Plan in case of accidents will be implemented to address:
i. General measures ii. Internal Operation Plan (POI)
iii. Circulation and movements on the sites iv. Individual and collective protection equipment v. Special instructions for the use and movement of vehicles
135
vi. Works inspection and maintenance program vii. Fire protection measures
viii. Training and exercise procedures 7.4.2.4 Mitigation of Gender Based Violence and Violence against Children
• Children must not be employed by the Project (paid or unpaid), and the Project must comply with all relevant local legislation, including labor laws in relation to child labor and the World Bank’s safeguard policies on child labor and minimum age.
• Communities need to be informed about the start of all works, at least 5 days before, and the need for them to keep children away from the sites.
• Specifically, the project should ensure that the “Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse (SEA) and Violence Against Children (VAC)” are included in the Project’s bidding documents. The Codes of Conduct are meant to:
i. Create awareness of the ESHS and OHS expectations on the Project ii. Create common awareness about GBV, SEA and VAC iii. Ensure a shared understanding that GBV, SEA and VAC have no place in the
Project iv. Create a clear system for identifying, responding to, and sanctioning GBV and
VAC incidents 7.4.2.5 Mitigation of Land Use Impacts and Loss of Livelihoods
• Avoid agricultural lands by choosing alternative routes wherever possible
• Where alternative routes are not possible, this Project will not involve permanent, physical relocation of people; all PAPs will be compensated as required by the national laws and the World Bank’s OP 4.12. In this regard, a RAP shall be developed and implemented making sure that all persons affected by the Project are fully and fairly compensated for any loss of assets and livelihoods.
• Construction activities should be carried out in the dry season when agricultural fields are not in use (although for NAWEC, this is common practice for ease of access to line corridors without damaging crops in farmlands).
• Contractors must ensure to use the maximum allowable distance between poles to reduce the number of poles that would potentially be located within a single farmer’s field
• Construction works will be carried out outside loumo (market) days to avoid impacting shops and vendors’ income and revenues
7.4.2.6 Mitigation of Chance Finds Impacts
• Should an unusual, uncommon or atypical finding be made along any of the feeder corridors, the Chance Find Procedures described in Appendix 4.4 will be applied: avoid further disturbance and secure discovery, inform the supervisor for onward conveyance to NAWEC and the National Council for Arts and Culture (the legal institution responsible to manage cultural heritage) for proper management.
136
7.4.2.7 Mitigation of Risks from Force Majeure
• All reasonable precaution will be taken by the Project during construction to prevent danger to the workers and the public. This will include provision of timely information, and in certain instances (such as disease pandemics) postponement of works until the risk subsides.
• The PIU and Contractors will abide by any national emergency regulations passed by the Government of The Gambia during such periods.
7.5 Impact Management during the Operation and Maintenance Phase
7.5.1 Mitigation Measures of the Negative Impacts on the Biophysical Environment
7.5.1.1 Mitigation of effects of extreme weather conditions
• During operation, routine inspection and maintenance shall reduce destruction of infrastructure during strong winds and heavy rainfall.
7.5.1.2 Mitigation of Impacts on Landscape and Aesthetics
• All waste must be collected and disposed according to the C-ESMP.
• T & D technical designs and plans will consider reducing the number of feeder lines emanating from the same points of a particular substation (different directions or underground). NAWEC planners and surveyors will also be trained in improving the scenery during installation of distribution networks.
7.5.1.3 Mitigation for Impacts on Trees
• Fruit tree pruning must be carried out only when tree branches grow towards the conductors
• Pruning should also be planned when fruit trees are not in their fruiting season to reduce losses
7.5.1.4 Mitigation of Loss of Fauna
• Although overhead MV lines are usually of bare cables, this Project must give special design consideration to corridors within protected areas in order to avoid impact on avifauna and climbing animals. The Project design should include a more protective line design.
• Add-ons may be installed, such as flight diverters to conductors, to minimize bird collisions with the wires. These markers on the top (shield) wire make the lines more visible to birds if the collision potential is high.
• Nesting grounds and migratory paths should be protected; to reduce risk of birds colliding with the lines, bird-flight diverters will be used. These are designed to make overhead lines and guyed structures visible to birds and provide an economical means of reducing the hazard to both lines and birds.
• Anti-nesting devices, or artificial nest platforms must be used to mitigate and reduce risks to the avifauna
7.5.2 Mitigation Measures of the Negative Impacts on the Human Environment
7.5.2.1 Mitigation of Risks to Public Health and Safety
137
• General education on the safety of electricity infrastructure will be included in public awareness programs.
• Maintenance teams routinely clearing the ROW for the T & D corridors will ensure community members are prohibited from work sites during pruning.
7.5.2.2 Mitigation of Occupational Health and Safety Risks The following measures will be implemented to mitigate worker health and safety risks during operation and maintenance.
• Training and safety information should generally be provided to management, supervisors, and workers on the risks and hazards. Specifically, there must be on-the-job training, and knowledge on procedures to reduce risks, including coordination and supervision.
• Workers should be trained in good practices and contingency measures prior to the start of works
• All workers employed the Project activities must be informed of the associated hazards and risks. A basic occupational training program and specialty courses should be provided as needed to ensure that workers are aware to the specific hazards of individual work assignments.
• The Contractor / NAWEC staff carrying out maintenance works should adopt and implement a health and safety program which entails:
- Effectively and routinely identify and correct unsafe conditions routinely
- Protection of the workers and the public from dangers arising from construction activities
- Prevention of events resulting in potential injury to workers, the public, or the environment
- Fire extinguishers, personal protective equipment and first aid kits should be provided, and training given on how to use them
- Reporting of incidents is also essential for the review and improvement of safety procedures
- A tailor-made Accident Prevention Plan (APP) must be prepared and implemented by the Contractor. At the minimum, the Plan must consist of the following elements:
i. Management Policy Statement
ii. Authority and Accountability iii. Goals and Objectives iv. Employee Commitment and Responsibilities v. Employee Involvement
vi. Disciplinary Policy vii. Record Keeping
viii. Safety and Health Surveys and Inspection/Program ix. Safety and other Related Meetings x. Safety and Health Training
xi. Safety Audit and Inspection xii. Accident hazard and risk assessment
138
xiii. Accident and Hazard Investigation xiv. Accident Reporting and Investigation xv. Review and Revision of Components
• Despite the accident prevention plan and due diligence, incidents may occur, and an Emergency Measures Plan in case of accidents will be implemented to address:
i. General measures ii. Internal Operation Plan (POI)
iii. Circulation and movements on the sites iv. Individual and collective protection equipment v. Special instructions for the use and movement of vehicles
vi. Works inspection and maintenance program vii. Fire protection measures
viii. Training and exercise procedures 7.5.2.3 Mitigation of Impacts on Public Services
• Prior to connection of the new infrastructure to the substations, the public must be informed well in advance about disruptions to electricity services. This will allow them to plan and prepare accordingly.
7.6 Impact Management during the Decommissioning Phase
7.6.1 Mitigation Measures of the Negative Impacts on the Biophysical Environment
7.6.1.1 Mitigation of Improper Waste Management Improved waste management measures shall be employed and enforced, and these will include developing a waste management plan to include amongst others, the types of waste, expected quantities and frequency, proposed management procedures and responsibilities. The plan will indicate the following:
i. Minimizing the production of waste that must be treated or eliminated where waste
generation cannot be avoided
ii. Identification and classification (hazardous or not, solid, gaseous, or liquid) and estimate the likely type of waste to be generated such as cleared vegetation and disused equipment etc. If hazardous wastes are generated, proper procedures must be taken regarding their storage, collection, transportation, and disposal as indicated in the Hazardous Chemicals and Pesticides Control and Management Act, 1994 Other wastes will be disposed of according to the National Environment Management Act, 1994 and Antilittering Regulations, 2007
iii. Recommending that the work contracts include waste management measures (as
indicated in Appendix 6.1) such as those described in World Bank’s Environmental, Health, and Safety (EHS) Guidelines (1.6 Waste Management)
iv. Identifying and demarcation of approved disposal areas, clearly indicating the specific
materials that can be deposited in each; waste must not be discarded within, or close to Community Forests
139
v. The Contractor developing a well-organized internal supervision and monitoring
system to ensure waste reduction and proper management through full implementation of the waste management plan
vi. External monitoring to be carried out by the TACs to remind the Contractors that they
are being watched; also, to ensure discontinuation and mitigation where waste has been dumped illegally.
7.6.1.2 Mitigation of Air Pollution In addition, other mitigation measures for generation of dust and other gaseous pollutants are as follows:
• Wet road surfaces to suppress dust emissions and prevent nuisance.
• Workers must be provided with personal protection gear with the aim of preventing dust-related health problems and other dust nuisances
• Contractors must also be warned in their agreement clauses to reduce air pollution through use of well-maintained equipment. Equipment must be serviced frequently and run below the optimal, as overloading strains the mechanisms that produce incomplete combustion. High quality oils must also be used to reduce dangerous air emissions.
• Reduce speed to 10-20 km/h when entering settlements.
• Erecting speed bumps when settlements are regularly crossed.
7.6.2 Mitigation Measures of the Negative Impacts on the Human Environment
7.6.2.1 Mitigation of Impacts related to Public Health and Safety
• Gravel and sand borrow pits specifically approved for these works must be reclaimed to return the sites to as close as possible to the natural state to prevent water looging and drowning of children and animals
• Strict restrictions must be put in place to prohibit access of the public to work sites, materials, and equipment
• Communities must be given prior notice before commencement of the works to inform and warn the public of risks and means of avoidance. Communities must be informed to stay away from decommissioning work sites.
• To prevent road traffic accidents, work supervisors must ensure speed limits are controlled and operators of vehicles and heavy equipment well trained other measures to mitigate the potential health risks in traffic and vehicular movement, include:
- The Contractors must emphasize safety aspects among drivers - Drivers’ skills should be tested and improved, including training on defensive driving
given the real road traffic risks. - Contractors should adopt limits for trip duration and preparing driver rosters to avoid
overtiredness - Drivers must avoid dangerous routes and busy times of day to reduce the risk of
accidents, particularly with long parts
140
- Contractors should maintain regular maintenance of vehicles and use of manufacturer approved parts to minimize potentially serious accidents caused by equipment malfunction or premature failure
- Institute fines and penalties for non-compliance, including deduction of wages, suspension, or even dismissal for habitual errant Project drivers
- There should be effective site management, including signage, lighting, and warning signs, including restriction of access by unauthorized personnel.
7.6.2.2 Mitigation of Risks of Communicable Diseases
• During disease outbreaks, the PIU and Contractors must ensure that the Project related activities and workers are in line with the Emergency Regulations set by the Government of The Gambia. Specifically, these include distancing, crowd control, improved sanitation, and movement restrictions.
• The workforce shall be sourced locally to reduce the need for importation of workers. Employing local workers will make them take more responsibility for their actions and will reduce promiscuousness. Knowing the community, culture, and norms will also help decrease risks to GBV, SEA, and spread of STDs.
• Nonetheless, to prevent STDs, it is essential that Contractors are required through the contracts to educate their workers on the risks and prevention methods before, and constantly during works. In addition to implementing measures on sensitization and education on the dangers and mitigation measures to address STIs, there will also be strict monitoring to ensure adherence to the relevant codes of conduct.
• Other methods include:
• Encouraging use of condoms
• NAWEC and Contractors providing surveillance and active screening and treatment of workers
• Ensuring the Contractor routinely reviews the Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse and Violence Against Children with Project workers, including mandatory reviews with new workers to a Project site to ensure all workers understand behavior expectations and GBV/SEA risks, including sexual harassment. The Social Safeguards Specialist of the Project will attend sensitization meetings to ensure they are taking place. The Codes of Conduct are meant to:
- Create awareness of the ESHS and OHS expectations on the project - Create common awareness about GBV, SEA and VAC - Ensure a shared understanding that GBV, SEA and VAC have no place in the
project - Create a clear system for identifying, responding to, and sanctioning GBV, SEA
and VAC incidents
• Awareness campaigns/orientation covering but not limited to HIV/AIDS/STDs transmission risks shall be carried out for workers and host communities
7.6.2.3 Mitigation of Occupational Health and Safety Risks The following measures will be implemented to mitigate worker health and safety risks during decommissioning:
141
• Training and safety information should generally be provided to management, supervisors, workers, and occasional visitors to areas of risks and hazards. Specifically, there must be training on-the-job, and knowledge on procedures to reduce risks, including coordination and supervision.
• Workers should be trained in good practices and contingency measures prior to the start of works.
• The Contractor must provide proper working conditions for labor, including adequate toilets, drinking water, areas for rest and having meals, lighting (for camps) and waste disposal facilities. Consideration must also be given to these facilities at peak sites and times when the demand is higher.
• The Contractor should support in providing medical care to workers, particularly for health conditions occurring during work. This may include health insurance, transportation costs to health facilities and medical fees.
• All workers employed by the Contractor for the Project must be informed of the associated hazards and risks. A basic occupational training program and specialty courses should be provided as needed to ensure that workers are aware to the specific hazards of individual work assignments.
• The Contractor should adopt and implement a health and safety program which entails:
- Effectively identifying and correcting unsafe conditions routinely
- Protection of the workers and the public from dangers arising from construction activities
- Prevention of events resulting in potential injury to workers, the public, or the environment
- Fire extinguishers, personal protective equipment and first aid kits should be provided, and training given on how to use them
- Reporting of incidents is also essential for the review and improvement of safety procedures
- A tailor-made Accident Prevention Plan (APP) must be prepared and implemented by the Contractor. At the minimum, the Plan must consist of the following elements:
i. Management Policy Statement ii. Authority and Accountability iii. Goals and Objectives iv. Employee Commitment and Responsibilities v. Employee Involvement vi. Disciplinary Policy vii. Record Keeping viii. Safety and Health Surveys and Inspection/Program ix. Safety and other Related Meetings x. Safety and Health Training xi. Safety Audit and Inspection xii. Accident hazard and risk assessment xiii. Accident and Hazard Investigation xiv. Accident Reporting and Investigation xv. Review and Revision of Components
142
• Despite the accident prevention plan and due diligence, incidents may occur, and an Emergency Measures Plan in case of accidents will be implemented to address:
i. General measures ii. Internal Operation Plan (POI) iii. Circulation and movements on the sites iv. Individual and collective protection equipment v. Special instructions for the use and movement of vehicles vi. Works inspection and maintenance program vii. Fire protection measures viii. Training and exercise procedures
7.6.2.4 Mitigation of Gender Based Violence and Violence against Children
• Children must not be employed by the Project (paid or unpaid), and the Project must comply with all relevant local legislation, including labor laws in relation to child labor and the World Bank’s safeguard policies on child labor and minimum age.
• Communities need to be informed about the start of all works, at least 5 days before, and the need for them to keep children away from the sites.
• Specifically, the project should ensure that the “Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV), Sexual Exploitation and Abuse (SEA) and Violence Against Children (VAC)” are included in the Project’s bidding documents. The Codes of Conduct are meant to:
i. Create awareness of the ESHS and OHS expectations on the Project ii. Create common awareness about GBV, SEA and VAC iii. Ensure a shared understanding that GBV, SEA and VAC have no place in the
Project iv. Create a clear system for identifying, responding to, and sanctioning GBV and
VAC incidents
7.7 Mitigation of Potential Cumulative Impacts
The cumulative impacts can be mitigated by ensuring that all the mitigation measures in the ESMP are fully implemented. These include amongst others, working outside the farming season, avoid forests and unrelated removal of vegetation, strategically locate poles, develop, and implement the C-ESMP, provide information and educate on health and safety. Future cumulative impacts may be mitigated by studies done and implemented at that time. Strategic Environmental Assessment (SEA) of the Government’s and NAWEC’s wider plans and programs can contribute in coordinating similar projects or different projects in the same area with the aim of mitigating the cumulative impacts.
Given the above, it is evident that there will be negative impacts created by the Project, although for the most part they will be short-term, localized and small scale, and can be mitigated through this ESMP; with full implementation of the ESMP in a timely manner, the beneficiaries / affected communities will be better-off with the Project than the null alternative.
CHAPTER 8: MANAGEMENT OF RISKS AND ACCIDENTS
143
This Chapter identifies and analyses the potential risks and accidents that may occur during the various phases of the Project. It further outlines the main issues to be addressed by the Contractor including mitigation and prevention, training needs, contingeny and emergency response planning, recording, reporting and monitoring. 8.1 Methodological Approach for Hazards and Risks Identification
8.1.1 Objectives of the Risk Assessment and Management The main purpose of the risk assessment is to:
• identify potential risks of the Project activities (factors / hazards that have the potential to expose the workers, communities, and property to harm);
• evaluate which risks require priority actions;
• recommend corresponding measures to prevent or reduce the risks, and at last resort, protection against the risks;
8.1.2 Methodology In this risk identification, the Project activities (sources of hazards and risks) earlier stated were correlated with a list of possible risks. Where there is likelihood of a risk causing harm to the public or workers, the interaction box is highlighted with a cross as indicated in Table 8.1.
Further analysis of the risks (severity, probability, exposure levels and possibility of control) will consider their importance and magnitude of mitigation measure needed for prevention or effective management.
Adopted from Moja et al. (2016), the procedure below was modified for this risk assessment:
i. Rate the risks: Scores (1-5) were allocated to the various risks on severity, probability, exposure, and control
according to the ratings described in Table 8.2.
ii. Calculate the actual risk: actual risk = severity + probability + exposure
iii. Calculate significance of the risk = actual risk - possibility of control
iv. Rate the final scores according to the following levels of significance as in Table 8.3:
0 means no significance of risk
1 - 5 means low significance of risk
6 - 9 means medium significance of risk
10 - 15 means high level of concern
Following the risk analyses, corresponding preventive and protective measures are then recommended for mitigation. These should follow the mitigation hierarchy from elimination, control, and reduction of the risks to providing protection against the hazards. An example of the risk analysis matrix for the pre-construction phase is given for replication by the contractor. The contractor should tailor-make the analyses based on his tasks and program.
144
8.1.3 Risk Identification Table 8.1 identifies the risks likely to cause harm during the different phases of the Project implementation. It further identifies whether the communities or workers are exposed to such risks.
99
Table 8.1: Risk identification matrix
PROJECT PHASES
ACTIVITIES / SOURCES OF RISKS
RISKS TO THE PROJECT WORKERS
RISKS TO THE PUBLIC
No
ise
nu
isan
ce
Vib
rati
on
ris
ks
Ch
em
ical
ris
ks
Mo
vem
en
t an
d
circ
ula
tio
n
Equ
ipm
en
t u
se
and
st
ora
ge
Ele
ctri
cal s
ho
cks
Fir
es a
nd
exp
losi
on
s Ex
plo
sio
ns
Pe
rso
nal
inju
rie
s
Erg
om
etr
ics
Re
spir
ato
ry r
isks
Sab
ota
ge
Inse
curi
ty
Co
nta
gio
us
illn
ess
Un
eth
ical
wo
rker
s
Wild
life
atta
cks
Wo
rk s
ite
co
nd
itio
ns
Wo
rk r
ela
ted
str
ess
No
ise
nu
isan
ce
Mo
vem
en
t an
d
circ
ula
tio
n
Equ
ipm
en
t u
se
and
st
ora
ge
Ele
ctri
cal s
ho
cks
Fir
es a
nd
exp
losi
on
s Ex
plo
sio
ns
Pe
rso
nal
inju
rie
s
Re
spir
ato
ry r
isks
Co
nta
gio
us
illn
ess
Un
eth
ical
wo
rker
s
Pre-construction Consultation and provision of Project information
X X
Physical survey of proposed project sites X X X X X X X X
Siting of poles in land owned or used by villagers
X X X
Clearing of vegetation for access and poles
X X X X X X X X X X X X X X X X X X
Felling and trimming of economic trees within the ROW
X X X X X X X X X X X X X X X
Clearing of quarrying site X X X X X X X X X X
Excavation during quarrying X X X X X X X X X
Stockpiling of earth and other materials X X X X X X X
Clearing for camp sites X X X X X X X X
Construction Transportation of workers, equipment, and materials
X X X
Importation of workers X X X X X X
Repair of heavy vehicles and equipment X X X X X X X
Storage of heavy vehicles and equipment during works
X X X
Digging of trenches for pole foundations X X X X X X X X X X X X X X
100
Building of foundations X X X X X X X X
Erection of poles X X X X X X
Installation of cables and accessories X X
Removal of excess and waste materials X X X X
Operation and Maintenance
Connection to substations and existing grid
X X X
Connection to users X X X X X X X X
Pruning of trees X X X X X X
Repair and replacement of T & D parts X X X X X X
Decommissioning Reclamation and restoration of quarries X X X X X X X
Dismantling of equipment and structures X X
Transportation of materials and equipment from camps
X X X X
Cleaning of camp sites upon closure X X X
100
Table 8.2: Risk evaluation / rating
Source: S D Focus Ltd. (2020), Adapted from Moja et al. (2016)
Description Score Definition
PROBABILITY (The Likelihood that a risk consequence will occur)
Insignificant 1 Risk consequences will occur only in exceptional circumstances
Minor 2 Risk consequences unlikely to occur in a year
Moderate 3 Risk consequences likely to occur in a year
Major 4 Risk consequences could likely occur within a month
Catastrophic 5 Risk consequences almost certain to occur a few times in a month
EXPOSURE (which parties and how many people are exposed)
Rare 1 Exposure to this risk is limited to only 1 person (employee/public) who may be affected
Unlikely 2 Exposure to this risk may affect more than 1 person
Possible 3 Exposure to this risk may affect 50% of (workers or beneficiary community)
Likely 4 Exposure to this risk may affect more the 50% of employees / beneficiary community
Almost certain 5 Exposure may affect 100 % of workforce / beneficiary community
SEVERITY (what will be the seriousness of the expected consequence)
Minimal 1 Insignificant or no likely injury or treatment will be required (minimum time of exposure)
Restricted 2 Minor injury or need for medical attention. No lost time
Local 3 Likely disabling condition
Widespread 4 Several disabilities may occur
Extensive 5 Fatality; Imminent risk of long-term disability
CONTROL (possible mitigation measures that can prevent or reduce risks)
1 Measures that protect the individual worker e.g. provision of masks, safety shoes, helmets, fencing etc.
2 Measures that in addition to the above, involve changes in procedure to safety to involve instructions, training, awareness, and screening
3 Measures that address hazards by design of infrastructure or equipment e.g. insulation or infiltration
4 Measures that replace the hazard with a safer option
5 Measures that eliminate the risk completely
101
8.2 Risk Analysis Table 8.3 is an example of risk analysis using the described procedure. The Contractors shall develop similar matrices for the construction, operation and maintenance and decommissioning phases. The Contractors shall tailor-make the analyses based on the specific tasks, resources, personnel, procedures etc. they plan to employ. Table 8.3: Preconstruction Phase Risk Analysis Matrix
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
1 Sabotage Poor
consultations,
non-cohesive
communities
Consultation
activities
All Project
workers
(Consultants
/ NAWEC
staff /
Contractors)
2 1 1 4 4 0 Consultations to
start well in
advance during
the project
development
phase to
enhance
acceptability
2 Movement
and circulation
risks such as
traffic
accidents
Increased
movement of
vehicles and
number of
people
Physical
surveying
Workers 2 3 3 2 8 6 Workers must
employ good
driving and
parking skills;
avoid parking in
middle of roads;
use reflector
vests; use
hazard lights
102
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
Train all drivers
on defensive
driving
Clearing for
access and
sites of
poles
Workers
and the
public
3 3 4 2 10 8 Constant
supervision of
workers;
employ
qualified
workers; train
workers;
restriction
warning signs;
inform
community to
avoid sites;
work during
daylight only
Clearing for
quarrying
Workers
and the
public
2 3 2 2 7 5 Constant
supervision of
workers;
employ
qualified
workers; train
workers;
restriction
warning signs;
inform
103
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
community to
avoid sites;
work during
daylight only
Excavation
during
quarrying
Workers
and the
public
2 2 2 2 6 4 Constant
supervision of
workers;
employ
qualified
workers; train
workers;
restriction
warning signs;
inform
community to
avoid sites;
work during
daylight only
Stockpiling
of materials
Workers
and the
public
3 4 3 2 10 8 Constant
supervision of
workers;
employ
qualified
workers; train
workers;
restriction
warning signs;
104
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
inform
community to
avoid sites;
work during
daylight only;
secure
stockpiles
Clearing of
base / camp
sites
Workers
and the
public
2 2 2 2 6 4 Constant
supervision of
workers;
employ
qualified
workers; train
workers;
restriction
warning signs;
inform
community to
avoid sites;
work during
daylight only
3 Noise nuisance Heavy
machinery
and
equipment;
workers
Clearing for
access and
sites of
poles
Workers
and the
public
4 1 2 2 7 5 Use
appropriate,
well-serviced
equipment;
provide
protective gear
105
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
for workers;
restriction
warning signs;
inform
community to
avoid sites; only
work during the
day
Felling and
trimming of
trees within
ROW
Workers
and the
public
2 2 2 2 6 4 Use
appropriate,
well-serviced
equipment;
provide
protective gear
for workers;
restriction
warning signs;
inform
community to
avoid sites; only
work during the
day
Clearing for
quarrying
Workers 2 1 1 3 4 1 Use
appropriate,
well-serviced
equipment;
provide
106
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
protective gear
for workers;
inform
community to
avoid sites; only
work during the
day
Clearing of
base / camp
sites
Workers 2 1 1 3 4 1 Use
appropriate,
well-serviced
equipment;
provide
protective gear
for workers;
restriction
warning signs;
inform
community to
avoid sites;
work during the
day
4 Vibration risks
Heavy
machinery
and hand-held
tools
Clearing for
access and
sites of
poles
Workers 2 3 3 4 8 4 Use of
appropriate
machinery and
equipment
107
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
based on the
type of terrain
Felling and
trimming of
trees within
ROW
Workers 2 3 3 3 8 5 Limit exposure
by reducing
working hours
on handheld
equipment such
as chain saws
5 Risks related to
improper use
and storage of
equipment
Heavy
machinery,
sharp and hot
objects
Clearing for
access and
sites of
poles
Workers
and the
public
4 4 4 2 12 10 Employ workers
with requisite
skills; keep
equipment in
secure base
camps; restrict
access to sites
Clearing for
quarrying
Workers 3 2 4 2 9 7 Constant
supervision of
workers;
employ
qualified
workers; train
workers; set
procedures for
safe operation
108
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
Felling and
trimming of
trees within
ROW
Workers
and the
public
2 3 3 2 8 6 Constant
supervision of
workers;
employ
qualified
workers; train
workers; set
procedures for
safe operation;
prohibit the
public from the
sites during
works
Excavation
during
quarrying
Workers 2 3 2 2 7 5 Constant
supervision of
workers;
employ
qualified
workers; train
workers; set
procedures for
safe operation
Clearing of
base / camp
sites
Workers 3 4 4 2 11 9 Constant
supervision of
workers;
employ
qualified
109
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
workers; train
workers; set
procedures for
safe operation
6 Fires and
explosions
Vegetation
and other
waste from
clearing
Clearing for
access and
sites of
poles
Workers
and the
public
3 3 3 2 9 7 Waste should
never be burnt;
follow waste
management
plan
Clearing for
quarrying
Workers
and the
public
2 3 3 2 8 6 Waste should
never be burnt;
follow waste
management
plan
Clearing of
base / camp
sites
Workers 2 3 3 2 8 6 Waste should
never be burnt;
follow waste
management
plan
7 Personal
injuries such as
cuts, struck by
objects,
stepping on
objects, falls
Hanging trees
branches,
stones,
equipment
etc.
Physical
survey of
proposed
project sites
Workers 3 2 3 3 8 5 Use trained
personnel that
incorporate
health and
safety issues in
the work
programmes;
110
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
use personal
protective gear
Clearing for
access and
sites of
poles
Workers
and the
public
4 3 5 1 12 11 Use trained
personnel that
incorporate
health and
safety issues in
the work
programmes;
provide
personal
protective gear;
prohibit public
access to sites
Felling and
trimming of
trees within
ROW
Workers
and the
public
2 2 5 2 9 7 Use trained
personnel that
incorporate
health and
safety issues in
the work
programmes;
provide
personal
protective gear
111
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
Excavation
during
quarrying
Workers
and the
public
2 4 2 2 8 6 Use trained
personnel that
incorporate
health and
safety issues in
the work
programmes;
provide
personal
protective gear;
prohibit public
access to sites
Stockpiling
of materials
Workers
and the
public
3 4 4 3 11 8 Prohibit public
access to
stockpiles; use
security
personnel
Clearing of
base / camp
sites
Workers 2 2 4 2 8 6 Use trained
personnel that
incorporate
health and
safety issues in
the work
programmes;
provide
112
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
personal
protective gear
Clearing for
quarrying
Workers
and the
public
2 3 3 2 8 6 Provide
personal
protective gear;
prohibit public
access to
quarries;
supervise
constantly
8 Risks related to
ergometrics;
poor manual
handling etc.
Long
materials,
heavy
materials,
tasks involving
bowing for
long
Excavation
during
quarrying
Workers 4 3 5 2 12 10 Use excavation
machinery
rather than
manual labour;
allow adequate
breaks during
work
Stockpiling
of materials
Workers 4 4 4 1 12 11 Use machines to
assist moving
heavy and long
loads; supervise
constantly
113
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
9 Respiratory
risks
Dust, gaseous
vehicular
emissions
Clearing for
access and
sites of
poles
Workers
and the
public
4 2 5 3 11 8 Provide masks
for workers;
prohibit public
access to work
sites; give prior
notification
particularly for
LV lines within
populated areas
Felling and
trimming of
trees within
ROW
Workers 2 2 4 3 8 5 Provide masks
for workers;
prohibit public
access to work
sites
Clearing for
quarrying
Workers 3 3 5 2 11 9 Provide masks
for workers
Excavation
during
quarrying
Workers 5 3 5 2 13 11 Provide masks
for workers
Stockpiling
of materials
Workers 2 2 3 2 7 5 Provide masks
for workers;
prohibit public
access to work
sites
114
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
Clearing of
base / camp
sites
Workers 2 3 5 2 10 8 Provide masks
for workers
10 Insecurity from
burglary,
threats and
personal
attacks
Aggressive
PAPs,
stockpiles left
in the open
Siting of
poles in land
owned or
used by
villagers
Workers 4 4 2 3 10 7 Early
consultation;
involvement of
village heads;
use well trained
personnel; work
in teams; use
base camps and
provide security
Stockpiling
of materials
Workers 2 2 5 4 9 5 pack materials
only at
designated
bases / camps;
employ security
personnel
11 Contagious
illnesses,
ingestion of
contaminated
food or drink
Microbes
(e.g. STIs, E-
coli, Covid 19)
Physical
surveying
Workers,
villagers
2 4 5 2 11 9 Education and
awareness on
prevention and
relevant codes
of conduct;
provision and
use of masks,
condoms
115
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
Clearing for
access and
sites of
poles
Workers,
villagers
4 4 5 2 13 11 Educate
workers and
communities of
risks and
prevention of
contagious
illnesses;
provide
protection;
provide
sanitation
means for
workers; reduce
importation of
workers
Felling and
trimming of
trees within
ROW
Workers,
villagers
2 4 3 2 9 7 Educate
workers and
communities of
risks and
prevention of
contagious
illnesses;
provide
protection;
provide
sanitation
116
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
means for
workers
Clearing for
quarrying
Workers 2 4 2 2 8 6 Educate
workers and
communities of
risks and
prevention of
contagious
illnesses;
provide
protection;
provide
sanitation
means for
workers
Clearing of
base / camp
sites
Workers 2 4 3 2 9 7 Educate
workers and
communities of
risks and
prevention of
contagious
illnesses;
provide
protection;
provide
sanitation
117
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
means for
workers
12 Risks related to
unethical
workers
(Discriminating
vulnerable
PAPs,
insensitivity to
local norms,
alcohol/drug
abuse impacts)
unethical /
untrained
workers
Siting of
poles in land
owned or
used by
villagers
Villagers
(especially
women,
children,
disabled)
3 3 4 2 10 8 Educate PAPs on
the RAP and
GRM. Educate
workers on
involuntary
resettlement
and loss of
livelihoods
safeguards;
Induction and
monitoring of
workers; include
prohibition of
substance abuse
during work in
the work rules;
Replace workers
with known
record of
discrimination;
train workers on
inclusiveness.
Physical
surveying of
proposed
sites
Workers,
villagers
2 3 4 2 9 7
118
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
13 Wildlife
attacks
(reptiles,
insects and
animals etc.)
Wildlife (e.g.
snakes, bees,
dogs etc.)
Physical
survey of
proposed
project sites
Workers 5 5 2 1 12 11 First aid kits
made available;
discuss with the
community
about wildlife
risks; include
awareness on
response and
recovery
Clearing for
access and
sites of
poles
Workers 5 5 3 1 13 12 First aid kits
made available;
discuss with the
community
about wildlife
risks; include
awareness on
response and
recovery
Felling and
trimming of
trees within
ROW
Workers 5 5 4 1 14 13 First aid kits
made available;
discuss with the
community
about wildlife
risks; include
awareness on
119
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
response and
recovery
Clearing for
quarrying
Workers 5 5 3 1 13 12 First aid kits
made available;
discuss with the
community
about wildlife
risks; include
awareness on
response and
recovery
14 Risks of work
site conditions
Uneven
terrain, loose
soil, wetland,
remote and
densely
vegetated
areas etc.
Clearing for
access and
sites of
poles
Workers 4 3 3 2 10 8 Use protective
gear such as
hard boots;
work during low
tides in
wetlands;
supervisors to
assess site
conditions and
educate
workers prior to
work activities
120
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
Clearing for
quarrying
Workers 3 3 5 2 11 9 Use protective
gear such as
hard boots;
work during low
tides in
wetlands;
supervisors to
assess site
conditions and
educate
workers prior to
work activities
Felling and
trimming of
trees within
ROW
Workers 2 3 3 2 8 6 Use protective
gear such as
hard boots;
work during low
tides in
wetlands;
supervisors to
assess site
conditions and
educate
workers prior to
work activities
121
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
Excavation
during
quarrying
Workers 3 3 3 2 9 7 Use protective
gear such as
hard boots;
work during low
tides in
wetlands;
supervisors to
assess site
conditions and
educate
workers prior to
work activities;
Avoid mining
into caves
15 Work related
stress
Overexertion,
hot work
environments,
long work
hours,
untrained for
the task
Clearing for
access and
sites of
poles
Workers 5 3 5 2 13 11 Control work
hours to include
enough rest
time; do not
work at night;
provide
adequate
training and
employ
qualified
workers;
122
Risk Hazard Source of
Risk
Who is at
Risk
Exposure
level
Severity Probability Control Actual
Risk
Significance Level of
Significance
Mitigation
Excavation
during
quarrying
Workers 4 3 5 2 12 10 Control work
hours to include
enough rest
time; do not
work at night;
provide
adequate
training and
employ
qualified
workers;
Source: S D Focus Ltd (2020)
Risk significance Key: 0 means no significance of risk
1 - 5 means low significance of risk
6 - 9 means medium significance of risk
10 - 15 means high level of concern
108
8.3 Mitigation of Risks The identified risks that have been analysed will be treated accordingly by implementing proposed mitigation measures, giving more attention to risks of medium to high significance. Mitigation measures range from training, change in design, alternative equipment, warning, and prohibition signage etc.
8.4 Training The contractor will develop an Internal Operation Plan to guide all workers, and will include works inspection and supervision, instructions and standard operating procedures for special activities such as working at heights, manoeuvring of vehicles carrying long materials (poles), storage of equipment and machinery outside established camps and the use of individual and collective protective equipment. Training will also be a continuous process to ensure awareness and improve skills including:
• Training of new staff on-the-job and on occupational health and safety including: - knowledge of materials and equipment - hazards and risks with coressponding managemnt options - risk exposure prevention - hygiene requiments - use of PPE - expected response - incident reporting procedures
• Periodic refresher training of existing workers as people tend to short-cut procedures with experience over time.
• Visitor orientation and restrcitions to work sites and camps
8.5 Emergency Response in Case of Incidents Despite the risk assessment and implementation of mitigation measures, accidents may occur due to human error or machine failure etc. Therefore, the Contractor shall develop a contingency plan to guide emergency response in case of accidents. It should be relevant and realistic with regards to the activities, human capacity, and resource requirements. The response plan will include actions to be taken when an incident (the risks with medium to high significance) occurs, and may include:
• response actions for various accidents;
• alerting workers, community members and visitors of the emergency situation;
• identify roles and responsibilities, including coordination;
• identify the relevant partners;
• accounting for people;
• evacuation to a safe location or for treatment;
• procedures for notifying management, relatives, and the authorities. Workers must however be trained on this plan and drills carried out to test it. All accident sites must be cordoned-off to prevent bystanders and other workers from accessing the site. This will reduce impacts of potential secondary incidents such as unstable objects from an accident falling on people, and electrocution of rescuers getting into contact with electrocuted
109
victims. Moreover, restricting access will allow the rescuers to freely carry out activities without hindrance. During and after all incidents, provision of facts is very important to prevent the spread of rumours. In some instances, requesting for expert support (firefighters, police officers, health personnel etc.) in a timely manner is necessary in efficiently responding to accidents.
8.6 Health and Safety Reporting and Recording The contractor should develop standard recording and reporting formats to ensure consistency and ease of comparison. These will ensure workers have means of immediately reporting to the supervisors, situations believed to have imminent risk of causing accidents and incidents that have already occurred. All work-related injuries, near misses, and suspected cases of diseases, particularly contagious diseases, should also be reported and investigated to ascertain what happened, the specific causes and means of preventing recurrences.
All the procedures and plans, reports, training programs and monitoring reports should be recorded and stored for evaluation and litigation purposes.
8.7 Health and Safety Monitoring OHS monitoing programs should be routinely carried during all phases of the Project to evaluate the effectiveness of the accident mitigation measures or response procedures. Monitoring will include:
- safety inspection and testing of work equipment and processes - surveillance of the work environment - surveillance of the workers health and wellbeing - evaluation of trainings carried out includeing drills to out the knowledge to test.
Since the aim of this Chapter is to ensure that no one is injured or hurt by a hazard, following the
above prescribed process should minimize the expected risks associated with health and safety in the
implementation of the Projec
110
CHAPTER 9: ENVIRONMENTAL AND SOCIAL MANAGEMENT PLAN
The Section presents the Environmental and Social Management Plan (ESMP), essentially an action
plan which defines the basic management and monitoring measures that are needed to identify
whether: a) impacts remain in conformance with predictions and applicable standards; and b)
mitigation measures are effectively addressing impacts, and compensatory measures and offsets are
reducing effects to the extent predicted. It is also to ensure compliance with the Bank’s OP 4.01.
9.1 Objectives of The ESMP
The Objectives of this ESMP are to:
- ensure environmental sustainability of the ECOWAS REAP in The Gambia; - provide a project specific environmental management guide to support the PIU during
implementation; - identify responsibilities for the various environmental management actions; - provide an estimated budget for mitigation measures to ensure environmental issues and
financial requirements are incorporated at the planning stage; - provide direction and guidance to the contractors whose focus is usually getting technical
works done; - ensure the project is implemented according to environmental laws of The Gambia and
policies of the WB.
9.2 ESMP Implementation and Monitoring Arrangements
9.2.1 Roles and Responsibilities for ESMP Implementation Implementation of this ESMP is the responsibility of the Contractor and PIU. Most of the mitigation measures are the responsibility of the Contractor who will be carrying out the works according to the C-ESMP that will be based on the Project ESIA/ESMP. The ECOWAS-REAP PIU will be responsible for overall follow-up, and to ensure that the ESIA/ESMP is fully implemented with the support of the PIU Environmental Safeguards Specialist (ESS) and Social Safeguards Specialists (SSS). Specifically, the ECOWAS-REAP PIU will include clauses in the Contractor’s agreements that will ensure compliance, and coordination with the GRM, among others. The supervising firm, Owner Engineer, will support the PIU in field supervision of all the contractors and their works. The Owner Engineer will also assist the PIU in the bidding processes and verifies that contractors abide by clauses in the contracts. Communities will also have the responsibility of ensuring that villagers avoid work sites and report to NAWEC or relevant authorities, issues of concern related to the Project; the PIU and Contractor will engage the community regularly as an oversight measure in this regard, and conduct sensitization sessions to ensure communities are aware of reporting measures and understand Project risks. As the Secretariat of the EIA Working Group7, and supported by its members, NEA will be responsible for the overall external monitoring of the ESMP implementation; in collaboration with the PIU ESS and
7 The EIA Working Group is one of nine multisector technical groups located at NEA. Nationally, NEA is the custodian of the ESIA process, and is supported by a multisector EIA Working Group which comprises the public sector, private sector and civil society, and at the Regional level, it is represented by the EIA/ANR (Agriculture and Natural Resources) Working Group sub committees of the Technical Advisory
111
SSS, they will monitor compliance with the Bank policies as they relate to the environmental aspects of this Project. In addition to the permanent members in the EIA Working Group, other institutions on ad hoc basis will include those specialized in social aspects such as the Women’s Bureau, Department of Social Welfare, Department of Labor, and Department of Health Services, amongst others. Meanwhile, monitoring of the implementation of the social aspects of the Project in line with the Bank’s safeguards instruments will be the responsibility of the PIU SSS. The NEA will also provide technical support and participate in training and sensitization of stakeholders to enhance the understanding of the national and the Bank’s environmental safeguards instruments. Technical advice and/or regulatory information and support will be provided by the DOF for all forest related issues, the Department of Physical Planning and Housing (DPPH) and the Department of Lands and Surveys (DLS) will be responsible for addressing resettlement issues. The Local Authorities and beneficiary community members will be relevant during the preparatory stage of the works, as they can provide valuable information to assist in the planning of the works. The breakdown of the institutional arrangement for the ESMP implementation is as follows:
a) ECOWAS REAP Project Steering Committee in The Gambia (PSC) The ECOWAS-REAP Project Steering Committee (PSC), chaired by the Permanent Secretary, Ministry of Petroleum and Energy, will oversee all the activities of the Project, including the implementation of the ESMP, and any other relevant safeguards document. The Permanent Secretary, Ministry of Lands and Regional Governments (MOLRG) will be on the PSC due to the importance of the potential resettlement issues, and social risks relating to possible felling or pruning of private economic trees along the line corridors. The PSC’s roles and responsibilities include:
• oversee and monitor overall implementation of the ECOWAS-REAP safeguards documents including the ESMP, and RAP;
• review and address all issues relating to resettlements and disputes;
• review and monitor the progress reports;
• Visit the Project sites to ensure progress of work and other activities.
b) ECOWAS-REAP Implementation Unit (PIU)
The PIU will consist of the following, among others:
• project Coordinator;
• Environmental Safeguards Specialist (ESS);
• Social Safeguards Specialist (SSS);
• power Engineer (PE);
• procurement Specialist;
• monitoring and Evaluation Specialist (M&ES).
Committees (TAC). A major responsibility of the EIA Working Group (whether at central or regional level), is to provide support to the NEA in assuring the quality and integrity of the EIA process. Specifically, it:
• Provides expert advice on the EIA process and review impact statements and ESMPs upon receiving requests
• Approves impact statements and ESMPs
• Conducts periodical environmental audits
• Ensures that public consultations as part of the EIA process are done
112
The PIU will oversee the implementation of this Project, including the ESMP. Its other responsibilities will include:
• ensuring alignment of the environmental and social safeguards standards applied to the Project;
• working with the technical and procurement teams to ensure that contract documents contain Environmental and social safeguard clauses that Contractors must fully implement;
• coordinating internal monitoring and evaluation of the ESMP based on monitoring plans;
• coordinating Project related grievance redress activities.
• Where applicable, facilitating Project related activities of partner stakeholders
c) National Environment Agency The NEA will be responsible for overall monitoring of the implementation of the ESMP, particularly the environmental component. According to Section 31 of the EIA Regulations 2014, NEA will monitor routinely to guide and audit the progress of the ESMP implementation to ensure compliance with both national laws and the policies of the Bank; NEA’s mandate is to monitor the national environment, and so in collaboration with the PIU safeguards specialists, can also monitor compliance with the Bank’s policies as they relate to this Project. The monitoring visits should be at least once quarterly, to provide technical advice and support in project implementation.
d) Ministry of Lands and Regional Governments In view of the high possibilities for the Project to trigger involuntary resettlement, the MOLRG will play a crucial role in the development and implementation of the RAP that may arise because of the Project.
Specific Roles and Responsibilities of Project Personnel
a) Project Coordinator (PC) The PC will oversee the implementation of the Project, and consequently the ESMP and will have the responsibility for ensuring that implementation of the ESMP is carried out as required under the national law and the World Bank’s Procedures. b) Environmental Safeguards Specialist (ESS) The ESS is responsible for validating the ESIA and obtaining the environmental compliance certificate and publishing the ESIA. The ESS will make sure that all environmental measures outlined in the ESMP are integrated in the bidding documents and in the companies’ contracts. S/He will also assure the approving of the contractors’ site-ESMP. The ESS will provide day-to-day management for all environmental issues and activities including implementation of the ESMP, in collaboration with NEA. He will prepare progress reports for submission to the PIU for transmission to the PSC, NAWEC, RCU (Regional Coordination Unit) and the World Bank. S/He will also directly oversee the implementation of the capacity building of stakeholders on environmental and social safeguards.
c) Social Safeguards Specialist (SSS)
The ESS will make sure that all social measures outlined in the ESMP are integrated in the bidding documents and in the companies’ contracts. S/He will also make sure that all social measures outlined in the ESMP are integrated in the bidding documents and in the companies’ contract. S/He will provide day-to-day management for all social issues as they relate to implementation of any resettlement
113
issues; prepare periodic reports on progress on social issues; prepare progress reports on the level of potential PAPs, and their participation in project activities on the issues of resettlement. These reports will be submitted to the PIU for transmission to the PSC, NAWEC, RCU (Regional Coordination Unit) and the World Bank. The SSS will directly oversee the implementation of the capacity building of stakeholders on the GRM and the Code of Conduct for addressing GBV, SEA and VAC. d)Power Engineer (PE) The PE will integrate the construction phase mitigation measures and environmental and social clauses into the bidding documents; ensure that the Contactors obtain all the necessary approvals and integrate the relevant measures in the works breakdown structure or execution plan. In collaboration with the ESS, SSS and other relevant members of the PIU (including the Procurement Specialist and Financial Management Specialist) the PE will ensure that contract documents contain environmental and social safeguard clauses spelling out the expectations of Contractors with regards to their mitigation responsibilities; Contractors must fully implement these clauses.
e) Monitoring and Evaluation Specialist (M&ES) Monitoring and evaluation activities are fundamental components of the ESMP to be carried out throughout the Project cycle. Monitoring of the ESMP implementation is normally the responsibility of the PIU whereas evaluation is undertaken by an external entity. The M&E Specialist will coordinate internal monitoring and evaluation of ESMP implementation based on the monitoring plan. Table 9.1 summarizes the above write-up on the roles and responsibilities for the implementation of this ESMP. Table 9.1: Summary of Roles and Responsibilities in ESMP Implementation
No. Steps/Activities Responsible Collaborating
Partners
Service Provider
Preparation of the works Contract documents, ESIA/RAP etc. in accordance with the national
legislation/procedure (taking into account the World Bank’s policy requirements)
1 Preparation and approval of
the ToRs/Contracts
ESS/SSS; PC; PE
ESS/SSS; PC; PE
ESS/SSS
PC
NEA PIU
Internal monitoring of ESMP
implementation
ESS; SSS Consultant
Report validation and
issuance of the permit (when
required)
ESS/SSS; NEA Consultant; World
Bank
Disclosure of the document NEA; NAWEC
Management
NAWEC and the
PIU;
also disclosed on
the World Bank’s
external website
114
2.
(i) Integrating the mitigation
measures of the construction
phase and E&S clauses in the
bidding document prior to
being advertised (see
Appendix 8.1)
(ii) ensuring that the
contractor integrates
relevant ESMP measures in
the works breakdown
structure or execution plan /
C-ESMP
PE ESS/SSS;
NAWEC; PSC;
Engineer;
Contractor
Contractor; NEA
3.
Implementation of the other
safeguards’ measures,
including environmental
monitoring (when relevant)
and sensitization activities
ESS/SSS PE; M&ES; NEA
and EIA Working
Group; PSC;
General public
Consultants;
Other relevant
public institutions
4.
Oversight of safeguards
implementation (internal)
ESS/SSS/PC M&ES; PSC; NAWEC MD and
Management
Reporting on project
safeguards performance and
disclosure
PC M&ES; ESS, SSS;
PSC
NAWEC MD and
Management
External oversight of the
project safeguards
compliance and performance
EIA Working
Group/NEA
PC; M&ES; ESS-
ECOWAS REAP;
SSS; PSC
NAWEC MD and
Management
5. Building stakeholders’
capacity in safeguards
management
ESS PC; SSS; NEA Consultant
Other qualified
public institutions
9.2.2 Institutional Training and Sensitization During the consultations, it became evident that there is need for the members of the Regional
Technical Advisory Committees (TACs) of the affected Regions to be trained in the general area of
environmental and social administration, ESIA, GRM and ESMP management. They will also be trained
on preventing and managing related GBV, SEA and VAC. Thus, it will be necessary to strengthen the
capacity of members of the TACs, some NAWEC staff (including the ESS, SSS, etc.) on the safeguards,
procedures, and resettlement programs. This will require organizing training workshops. Capacity
building of NAWEC and other collaborating institutions is estimated at US$ 30,000 (see Table 9.2) to
be started before the works begin.
In addition, public sensitization on the Project will be carried out to prevent complaints and conflicts,
and to highlight community roles in promoting issues related to public health and safety at an
estimated budget of $US 2,000 per Region (Total, $US 8,000).
115
Table 9.2: Capacity Enhancement Program for Effective ESMP Implementation
No Identified Activity Expected Output Target
Beneficiary
Budget
(US $)
Institutional Capacity – Technical skills development and awareness creation
1 Workshops and meetings
to strengthen the human
resource capacity of the
Regional TACs in managing
ESIA
• Project components and
related activities known
• Capacity enhanced in EIA
Procedures
• ESMP requirements
understood
• Roles and responsibilities of
TAC members with regards to
the ESMP understood
• Plan for enforcement of the
ESMP developed
• Skills of the TAC members in
GBV, SEA and VAC prevention
and handling developed
NEA and TAC
of WCR
(5,000 x 4)
= 20,000
2 Capacity building of
relevant NAWEC staff
• Environmental and social
safeguard issues understood
• Roles and responsibilities of
NAWEC staff towards
implementing the ESMP
understood
NAWEC Senior
Management
Team and
other relevant
technical
officers (E.g.
from the
planning, T&D
and
generation
departments).
10,000
Public Sensitization - Education, communication and information provision
3 Public sensitization to
raise awareness on the
Project issues (such as
project risks and benefits,
developments, progress,
GBV, SEA, VAC and GRM
etc.) through relevant
radio/TV programs and
meetings as appropriate
Increased community
participation on environmental
and social affairs related to the
Project
General
public,
specifically
communities
where the
Project will be
implemented
(2,000 x 4)
= 8,000
TOTAL 38,000
116
9.2.3 Monitoring Once the Project commences, including implementation of accompanying mitigation measures, monitoring must be carried out by the different stakeholders to ensure effectiveness in maintaining environmental and social sustainability. Monitoring will act as an oversight mechanism to remind and push the one responsible for mitigation that they are under guard and enforcement action may be executed upon them for any breaches. Issues to be monitored include activities that have been identified earlier to have potential significant negative impacts on the environment and socio-economic parameters, and their corresponding mitigation actions. Routine monitoring may also identify new issues that have arisen due to changes (at the sites, or in Project design or activities) that will need alternative mitigation measures. Thus, appropriate mitigation will be developed accordingly. Internal monitoring will be the responsibility of the Environmental Safeguards Specialist and Social Safeguards Specialist within the PIU, in addition to ensuring compliance with the World Bank’s social and environmental policies. The recommended arrangements and roles for implementing the ESMP will also be evaluated for completeness, and improvements suggested where necessary. The NEA and other relevant institutions identified in the ESMP will monitor for compliance with requirements under Gambian law. Selected relevant TAC members (including the representatives of NEA and NAWEC who will provide leadership and technical support respectively) will conduct monitoring visits to the Project sites. TAC members whose sectoral expertise will not be useful, nor add value to the process, will not be included in the TAC monitoring team. This arrangement will ease coordination and lower expense on resources. Furthermore, it will be more cost-effective and focused to use the regional TACs than displace members of the national EIA Working Group (in the Greater Banjul Area) to monitor Project activities in the respective Regions where the Project will be implemented. The regional TACs are also supposed to be more familiar with the local terrain and communities. NEA’s representative in the TACs will forward the monitoring reports to the NEA Headquarters for eventual transmission to the PIU.
To support the TACs in monitoring, an estimated budget of US$ 20,000 is recommended for the entire implementation of the Project. Disbursements should be made when due to the Offices of the Governors with NEA at TAC providing oversight, coordinating the monitoring visits to the Project sites.
A monitoring plan with frequency and indicators is further outlined in Table 9.3, and an estimate for the cost of mitigation has also been provided in Table 9.4.
117
Table 9.3: ESMP Monitoring Program
Mitigation outputs to be monitored
Responsibility for mitigation
Monitoring Responsibility
Time to monitor
Monitoring frequency
Monitoring indicators
1 Involuntary resettlement of PAPs addressed
NAWEC ESS/SSS/NEA/MOLRG
Before initial works and any development
Monthly during RAP development and implementation
• No. of sensitization sessions considering land use and ownership issues
• RAP report developed
• RAP fully implemented
Loss of land, crops, economic trees, assets, livelihood, and inheritance addressed
NAWEC ESS/SSS/NEA/MOLRG
Before initial works and any development
Monthly during RAP development and implementation
• No. of consultative sessions
• No. of related complaints
• RAP developed
• RAP implemented
• No. of PAPs compensated as compared to the total no. of PAPs
2 Protection of forest trees and effect on the environment, landscape, drainage and wildlife
Contractor / NAWEC
NEA/DOF During and after works
Monthly during RAP development and implementation
• No. of forest tress felled
• No. of forest trees pruned
• No. of wildlife species impacted
• No. of sensitization meetings on forest and biodiversity
• No. of nesting grounds protected
• Tree replacement plan implemented
• No. of reports of illegal activities
3
Protection against Gender Based Violence and Sexual Exploitation and Abuse
Community NAWEC
SSS with support from the Women’s Bureau and Department of Social Welfare
Before and during project implementation
Quarterly • No. of sensitization meetings on GBV codes of conduct
• No. of women participating in consultations
• % of women PAPs addressed
• No. of community sensitization meetings where
118
Mitigation outputs to be monitored
Responsibility for mitigation
Monitoring Responsibility
Time to monitor
Monitoring frequency
Monitoring indicators
GBV/SEA and discrimination are discussed
• No. of meetings on GRM
• Reports on progress in enforcement of Codes of conduct to address GBV/ SEA etc.
• Number and type of complaints through the GRM including SEA/GBV
• Number and type of complaints relating to discrimination exclusions from benefits and inequality (for example based on vulnerability such as sex, age, etc.)
• Number of women hired in the Project
Tenure security for women
NAWEC / community
NEA/MOLRG Before works Monthly during RAP development and implementation
• No. of consultative sessions considering women’s land tenure
• No. of related complaints
• No. of women receiving equitable benefits and access to land rights
4 Women and youth considered
Contractor/ NAWEC
PIU SSS Before and during works
Annually • No. of women participating in consultations
• No. of youth participating in consultations (male and female)
• No. of youth employed by the Project (male and female)
119
Mitigation outputs to be monitored
Responsibility for mitigation
Monitoring Responsibility
Time to monitor
Monitoring frequency
Monitoring indicators
5 Protection from Violence Against Children
Contractor / NAWEC
PIU SSS Before and during project
Quarterly • No. of reports of child labor / abuse
• No. of women participating in consultations
• % of children PAPs addressed
• No. of Community sensitization meetings where VAC issues are discussed
• No. of meetings on GRM
• Reports on progress in enforcement of Codes of conduct to address VAC.
• No. of reports of children involved in Project related accidents
6 Public and worker health and safety
Contractor
ESS/SSS/NEA Beneficiaries
During land preparation, construction, and operation
Quarterly • No. of accidents related to the Project activities
• No. of health education / sensitization sessions
• No. of reports on works during nighttime
• No. of heavy vehicle/machinery left broken down
• No. of complaints /reports on lack of measures to address air polluting emissions
• No. of dust suppression equipment
• No. of protective gear provided to workers
7 Proper waste management
Contractor
ESS/SSS/NEA During works and operation
Quarterly • No. of waste dumps on and around sites
120
Mitigation outputs to be monitored
Responsibility for mitigation
Monitoring Responsibility
Time to monitor
Monitoring frequency
Monitoring indicators
• No. of sensitization meetings on waste management
• No. of contracts that included waste management clauses
• Waste management plans developed
• No. of reports/complaints on waste management issues
8 Employ local labor
Contractor/ NAWEC
ESS/SSS/NEA/Labor Department
Before works and during works
Annually • No. of people employed from the local communities
• No. of contracts that specify use of local labor
9 Consultation and participation of beneficiaries
Contractor/ NAWEC
NEA/ESS/SSS Before and during works
Biannually • No. of consultative meetings with beneficiaries
• No. of complaints on lack of consultation
• No. of minutes /reports of consultations
• No. of persons in attendance
10
Social cohesion
NAWEC / community
NEA/PIU Before and during works
Quarterly • No. of locals employed
• No. of community conflicts
11
Prevention of impacts from quarrying on geology, landscape, wildlife, agriculture etc.
Contractor NEA/GD/PIU Before and during works
Quarterly
• Mine management Plans developed
• Reports on process of mining
• No. of mining approvals from GD
12
Soil compaction from vehicles / machinery controlled
Contractor
ESS/SSS/ NEA
During works and operation
Quarterly • No. existing new routes established
• Lengths of access roads graded and improved
123
9.2.4 Reporting As monitoring of the ESMP implementation falls under the general monitoring and evaluation system of the Project, its reporting should be synchronized. This will ensure efficient reporting and communication of the ESMP related issues to all relevant stakeholders for holistic management, particularly where changes for improvement are recommended. It is recommended that the NEA submits annual reports to NAWEC (through the ECOWAS REAP PIU) on its monitoring of the ESMP implementation. NEA will work with its Regional Environment Officers to ensure issues reported by the TACs are incorporated and follow-up actions by the various affected institutions and stakeholders coordinated accordingly. Where incidents or accidents occur that require immediate action, NEA shall report to NAWEC immediately, and NAWEC should in turn notify the World Bank as soon as possible. The PIU, according to its work plan, shall submit all reports to the World Bank for consideration.
9.2.5 Environmental Auditing According to Part VI of the EIA Regulations, 2014, environmental audits should be carried out by the Project and the NEA. A systematic environmental audit shall evaluate predictions made during the ESIA study and determine the level of implementation of proposed mitigation measures. The audit may also identify potential impacts that have arisen due to any modification in planned design or activities; or changes to environmental and social parameters. The Project may carry out self-audit to include review of its activities, the Project ESMP implementation, monitoring reports and any subsequent improvement measure, capacity, and communication between the affected stakeholders amongst others. Whilst the self-audit is a routine activity of the PIU, an independent environmental audit will be carried out midway during implementation of the ESMP and upon project completion, preferably by an external auditor to avoid conflict of interest. Environmental Inspectors of the NEA are also empowered to carry out audits in their own time, with the aim of confirming that all mitigation measures are complied with, and any breach pursued for appropriate redress.
9.2.6 Budget for Implementation of the ESMP The proposed budget for implementation of the ESMP is US$ 62,000 as indicated in Table 9.4.
Table 9.4: Estimated Budget to Implement the ESMP
No. Activity Time Frame Budget (US$) Responsibility implement measure
Responsibility to coordinate
1 Capacity Building
Workshops and meetings to strengthen the capacity of the Regional TACs in managing ESIA and RAP
First quarter of the Project implementation
5,000 PIU/ESS/SSS NEA
Capacity building of relevant NAWEC staff on
Annually during project implementation
10,000 PIU/ESS/SSS
PIU/NAWEC Management /
124
environmental and social safeguards and their roles
Public sensitization to raise awareness on the Project issues through relevant radio / TV programs and meetings
First and second quarter of the project implementation
8,000 PIU/ESS/SSS NEA
2
ESMP Implementation, Monitoring, Evaluation and Reporting
Implementation of the mitigation measures
Annually during all phases (construction, operations, and maintenance)
10,000 PIU PIU
Regular environmental and social monitoring of the implementation of mitigation measures and the activities.
Project implementation period
5,000 NEA
PIU
Audit of environmental and social measures
During and after construction
10,000 Independent Consultant
PIU/NEA
3
Operation of the GRM
Field investigations
Project implementation period
5,000 GRC SSS/PIU
Implementation of GRM related to activities and mitigation measures
Annually during all phases (construction, operations, and maintenance
9,000 (pa) PIU NEA
TOTAL
62,000
9.3 Matrix on the Mitigation of the Identified Potential Negative Impacts
Table 9.5 illustrates the proposed mitigation measures for the potential impacts identified during all
Project activities; specific mitigation measures have also been highlighted for the various activities
(pole construction and stringing, operation of the transmission and distribution lines, and any
quarries).
Responsibilities for specific mitigation measures, period of expected mitigation, and responsibility for
monitoring have been identified.
142
Table 9.5: Potential Impacts and Corresponding Mitigation Measures
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
CONSTRUCTION WORKS (LAND PREPARATION, EXCAVATION FOR POLE CONSTRUCTION AND STRINGING OF LINES)
Land acquisition for pole location
Involuntary resettlement of PAPs; loss of crops and earnings; loss of livelihoods
Prepare and implement a RAP to evaluate all potential losses
NAWEC/PIU Before works Regional TACs with NEA to coordinate, MOLRG
In RAP budget
Works within Loumo (weekly market day) sites must not be carried during such days
Contractor During works Regional TACs -
Gender-based Violence; Sexual Exploitation and Abuse; Violence Against Children; discrimination of women in employment opportunities; in tenure and disproportionate compensation
Conduct community sensitization meetings on the need for everybody to benefit from project activities irrespective of gender (inclusive access to benefits); 50/50 sharing of project and resettlement benefits between men and women
NAWEC/PIU Project Affected Community Leaders
Before works Regional TACs where NAWEC is co-opted as a member
Under total capacity building budget ($US 38,000)
Ensure awareness of the GRM NAWEC/PIU Before and during operation
PIU Social Safeguards Specialist
-
Monitor risks for escalating tensions Affected communities
All phases PIU Social Safeguards Specialist
-
8 (No value = included in PIU’s safeguards activities)
Mitigation measures that are to be done by the PIU have no budget attached as costs are included in the PIU’s safeguards activities; other measures without values have no mitigation costs such as community leaders encouraging women to participate in decision making, and reporting of illegal activities such as illegal felling of forest trees
143
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Encourage women and other vulnerable groups to raise their concerns safely and anonymously, if they so choose, on the resettlement process and other issues
NAWEC/PIU Project Affected Communities
All phases PIU Social Safeguards Specialist
-
Encourage women to enlist for employment in project activities without any impediments put in their way; Contractor to develop a hiring plan that would include hiring labor from within the community giving equal opportunity to men and women; Enforce and monitor Codes of Conduct for workers and all those involved in the project Sensitize about the Codes of Conduct for workers and community; Ensure survivor-centered approach to address GRM as per the procedures in the GRM (and Codes of Conduct) Conduct periodic training of employees on the codes of conduct and related procedures
Contractor All phases NAWEC/PIU Social Safeguards Specialist
Contractor’s budget
144
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Include the above measures in bidding documents including, codes of conduct for GBV, SEA and VAC, for contractors to enforce on their employees
NAWEC/PIU Before works PIU Social Safeguards Specialist
-
Felling and trimming of economic trees
Compensation of PAPs; loss of livelihoods and access to resources
Prepare and implement a RAP to consider any loss of farmland, fruit and timber trees, livelihood sources, property, and usufructs etc.
NAWEC/PIU Before construction works start
Regional TACs (to be coordinated by the NEA)
For RAP budget
Trimming of fruit trees should be carried out only when tree branches are on the ROW of lines
Contractors During works PIU Social and Environmental Safeguards Specialists
-
Gender-based Violence; Sexual Exploitation and Abuse; Violence Against Children; discrimination of women in employment opportunities; in tenure and disproportionate compensation
Conduct community sensitization meetings on the need for everybody to benefit from project activities irrespective of gender (inclusive access to benefits); 50/50 sharing of project and resettlement benefits between men and women
NAWEC/PIU Project Affected Community Leaders
Before works Regional TACs where NAWEC is co-opted as a member
Capacity building budget
Ensure awareness of the GRM NAWEC/PIU Before and during operation
PIU Social Safeguards Specialist
-
Monitor risks for escalating tensions Affected communities
All phases PIU Social Safeguards Specialist
-
Encourage women and other vulnerable groups to raise their concerns safely and anonymously, if they so choose, on the resettlement process and other issues
NAWEC/PIU
All phases PIU Social Safeguards Specialist
-
145
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Project Affected Communities
Encourage women to enlist for employment in project activities without any impediments put in their way; Contractor to develop a hiring plan that would include hiring labor from within the community giving equal opportunity to men and women; Enforce and monitor Codes of Conduct for workers and all those involved in the project Sensitize about the Codes of Conduct for workers and community; Ensure survivor-centered approach to address GRM as per the procedures in the GRM (and Codes of Conduct) Conduct periodic training of employees on the codes of conduct and related procedures
Contractor All phases NAWEC/PIU Social Safeguards Specialist
Contractor’s budget
Include the above measures in bidding documents including, codes of conduct for GBV, SEA and VAC, for contractors to enforce on their employees
NAWEC/PIU Before works PIU Social Safeguards Specialist
-
146
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Land clearance and preparation
Loss of vegetation along line corridor
Remove vegetation around pole site only as necessary
Contractor Before and during works
Regional TACs (NAWEC co-opted as member)
-
Cover area around the pole foundations to facilitate revegetation
Contractor During and after works
NAWEC/PIU Contractor’s budget
Loss of livelihoods (e.g. rangeland, firewood, other usufructs etc.)
Prepare and implement RAP NAWEC/PIU Before beginning of works
TAC (to be coordinated by the NEA)
For RAP budget
Destruction of forest trees and effect on the environment, landscape, drainage and wildlife
Compensatory reforestation will be developped and implemented in collaboration with the forestery department.
NAWEC/PIU Before beginning of works
DOF For RAP budget
Ensure that only the right of way is cleared; avoid forests
Contractor
Before and during works
NAWEC/PIU/ and TAC with DOF leading the process
-
Seek approval from DOF before forest trees are felled
Keep records (types and quantities) of all ‘forest trees’ to be fell
Educate and warn workers to avoid burning activities
Hunting by imported workforce will be prohibited; All employees, including volunteers and sub-contractors encouraged to anonymously report suspected or actual acts of hunting/killing of wild animal by a fellow worker
Contractor Before, during and after works
NAWEC/PIU/TAC
-
Disciplinary measures must be applied Contractor During works NAWEC/PIU/TAC Contractor’s budget
147
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
The endangered and threatened and endangered species must be protected by: Enforcing more vigorously the relevant laws and regulations that prohibit its killing Conducting training and information meetings on its preservation and protection at community level at least once every quarter Creating community wildlife reserves where threatened species such as the baboon could be protected
Contractor/ DPWM
Before and during works
DPWM/NEA/PIU Environmental Safeguards Specialist
Contractor’s budget
Avifauna nesting grounds and migratory paths are to be protected
Contractor Before and during works
DPWM / PIU Environmental Safeguards Specialist
-
Soil compaction from vehicles / machinery destroying farmland and causing erosion
Use only approved and existing routes Contractor During works Regional TACs / Communities
-
Do not establish new routes
Contractor During works Regional TACs / Communities
-
Grade existing routes to improve surface drainage
Contractor During works Regional TACs / Communities
Contractor’s budget
Destruction and loss of cultural, historical or archaeological sites
Inform relevant parties of the Chance Find Procedures and apply where applicable
NAWEC PIU/ Contractor
Before and during works
NCAC, PIU Social Safeguards Specialist
-
148
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Avoid mosques, cemeteries, World Heritage Sites and similar sites of cultural significance
Contractor Before and during works
NCAC/ Regional TACs / Communities
-
Consult with community to help identify any other cultural or spiritual sites of importance
Contractor Before and during works
NCAC/ Regional TACs / Communities
-
All Construction Activities (During all land preparation and construction activities including establishment of base camps)
Nuisance from noise, vibration, and air pollution from dust or hydrocarbon non-combustion emissions
Integrate ESMP into Contract Bidding Documents and ensure compliance by Contractor
NAWEC PIU Contractor
In contract before works, and during works
PIU Social Safeguards Specialist / Regional TACs / Communities
-
Works shall only be carried out during daytime
Contractor During works Regional TACs / Communities
-
Use dust suppression measures such as dampening
Contractor During works Regional TACs -
Provide masks and necessary protective gear to workers with the aim of preventing dust related health problems and other dust nuisances
Contractor During works Regional TACs Contractors’ budget
Use well-serviced equipment and machinery; avoid overloading that strains the engines
Contractor During works Regional TACs Contractor’s budget
Trucks transporting sand and gravel must be covered to prevent dust and flying debris
Contractor During works Regional TACs Contractor’s budget
Ensure that engines of vehicles and machinery are not idle for prolonged periods unnecessarily
Contractor During works Regional TACs Contractor’s budget
Special care will be taken when working near educational institutions and health facilities such as:
Contractor During works Regional TACs / PIU Social Safeguards Specialist
Contractor’s budget
149
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Giving prior notice to the institution about the works Cordoning off work sites to prevent access Working during weekends when activities are less around these institutions
Reduction in water quality of tributaries along the corridors due to construction activities
Protect water sources and report any noticeable reduction in quality
Contractor / Communities
During works Regional TACs / Department of Water Resources
-
Effects of improper management of wastes (solid and liquid/used oils, machine parts, and domestic and sanitary waste, excess materials left on sites, cement bags, etc.) on land, water, fauna, and public health
Develop a waste management plan including types of waste, expected quantities and frequency, proposed storage and disposal procedures and responsibilities, etc.
Contractor
Develop plan before works, and implement during works
NEA / PIU Environmental Safeguards Specialist
Do not burn any type of waste Contractor All phases Regional TACs / Communities
-
Set an internal supervision and monitoring system to ensure waste reduction and management
Contractor Before, and implement during works
NEA / PIU Environmental Safeguards Specialist
Contractor’s budget
Waste must be collected and stored for disposal or treatment at approved sites as per waste management plan
Contractor During works NEA / PIU Environmental Safeguards Specialist
-
150
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Clean waste such as cleared vegetation, packaging and rubble shall be given to workers or communities for reuse and recycling
Contractor During works NEA / PIU Environmental Safeguards Specialist
-
Ensure waste management issues are incorporated in Agreements with the Contractors
NAWEC PIU Before works PIU Environmental Safeguards Specialist
-
Unpleasing landscape and impact on aesthetics
Remove excess and unused materials and equipment from work sites
Contractor During works NEA / PIU Environmental Safeguards Specialist
-
Replace lost vegetation cover NAWEC PIU During and after works
Regional TACs For RAP budget
Risks to public health and safety during construction (at pole sites, quarries, camp sites, within beneficiary communities etc.), from imported diseases, VAC, SEA, GBV, and work site hazards etc.
Restrict and monitor public access to the work sites
Contractor/ communities
During the works NAWEC PIU -
Integrate staff training especially drivers on defensive driving
Contractor Before and during works
NAWEC PIU -
Construction works within the Loumo area on a market day must be avoided
Contractor During works NAWEC PIU / Regional TACs including NEA
-
Cover up the trucks, to prevent wind blowing away sand and gravel to generate dust
Contractors In contract before works and during works
Regional TACs Contractor’s budget
Initiate sensitization and education programs for communities and workers on the dangers and mitigation measures to address STIs; Encourage use of condoms to prevent STIs
NAWEC PIU Contractor
In contract before works and during works
PIU Social Safeguards Specialist
For capacity building budget
151
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Carry out active monitoring of workers (screening, testing and analysis of such recorded data, etc.) to take timely action through treatment and health education to prevent spread of diseases
Contractor Before and during works
Regional TACs with Department of Health Services leading
Contractor’s budget
Ensure surroundings are safe and secure for all (implement health and safety plan, coordinate, inform, supervise and monitor)
Contractor Before and during works
Regional TACs with Department of Health Services leading
Contractor’s budget
Employ local unskilled workers to enhance community cohesion as local workers will know the community better, its culture, norms, and values, which may also help in reducing the risks of GBV, VAC and STIs.
Contractor Before and during works
NAWEC PIU -
Risk of violence against children and women
Ensure enforcement and adherence to Codes of Conduct for addressing VAC, GBV, and SEA, including regular monitoring and awareness building of the Codes of Conduct
Contractor Before and during works
Regional TACs, Communities / Department of Labor
Contractor’s budget
Do not employ or exploit children for project works
Contractor Before and during works
Regional TACs, Communities / Department of Labor
-
Conduct community sensitization meetings on the need for everybody to benefit from project activities irrespective of gender (inclusive access to benefits)
NAWEC/PIU Project Affected Community Leaders
Before works Regional TACs where NAWEC is co-opted as a member
Capacity building budget
152
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Ensure awareness of the GRM NAWEC/PIU Before and during operation
PIU Social Safeguards Specialist
-
Monitor risks for escalating tensions Affected communities
All phases PIU Social Safeguards Specialist
-
Encourage women and other vulnerable groups to raise their concerns safely and anonymously, if they so choose, on the resettlement process and other issues
NAWEC/PIU Project Affected Communities
All phases PIU Social Safeguards Specialist
-
Encourage women to enlist for employment in project activities without any impediments put in their way; Contractor to develop a hiring plan that would include hiring labor from within the community giving equal opportunity to men and women; Enforce and monitor Codes of Conduct for workers and all those involved in the project Sensitize about the Codes of Conduct for workers and community; Ensure survivor-centered approach to address GRM as per the procedures in the GRM (and Codes of Conduct)
Contractor All phases NAWEC/PIU Social Safeguards Specialist
Contractor’s budget
153
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Conduct periodic training of employees on the codes of conduct and related procedures
Include the above measures in bidding documents including, codes of conduct for GBV, SEA and VAC, for contractors to enforce on their employees
NAWEC/PIU Before works PIU Social Safeguards Specialist
-
Risks to health and safety of workers (work related stress, heat stress, electrocution, falls, mechanical accidents, human conflict, wildlife attacks, poor handling techniques, diseases etc.).
Provide induction and training on the job, safety issues and other relevant ESMP requirements
Contractor Before and during works
NAWEC PIU Contractor’s budget
Make the hiring medical examination for all workers compulsory
Contractor Before and during works
NAWEC PIU Contractor’s budget
Sensitize on interpersonal relationship management between and among workers and community members; set codes of conduct
Contractor Before and during works
NAWEC PIU Contractor’s budget
Provide appropriate protective gear (helmets, masks, safety goggles, hand gloves and rubber boots, etc.) to workers
Contractor Before and during works
PIU Social Safeguards Specialist / Regional TACs
Contractor’s budget
Provide fire extinguishers and first aid kits including training on their use
Contractor Before and during works
PIU Environmental and Social Safeguards Specialists / Regional TACs
Contractor’s budget
Provide constant supervision and record and report incidents to address causes for preventing recurrence and promoting improvement
Contractor During works PIU Environmental and Social Safeguards Specialists / Regional TACs
Contractor’s budget
QUARRY SITES
154
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Quarrying earth materials (gravel / sand) for construction works
Quarrying impacts on geology, landscape, ground water, wildlife, and agriculture, etc.
Where sand and gravel dealers are used, ensure only suppliers certified by the NEA and GD are used
Contractor Before works NEA/Geology Department
-
Ensure approval is obtained from the NEA and GD for any proposed quarry site
Contractor Before works NEA/Geology Department
-
Fully implement the mine management plans
Contractor During mining NEA/Geology Department
-
All quarry pits created by the project must be rehabilitated after construction works
Contractor After mining is completed
NEA/Geology Contactor’s’ budget
Ensure the above measures are included in bidding documents for contractors
NAWEC/PIU Before works PIU ESS -
Indirect water contamination by exposure of groundwater from over extraction
Avoid extraction to the water table and near surface water bodies
Contractor During operation of quarries
NEA/Geology Department
-
OPERATION OF THE TRANSMISSION AND DISTRIBUTION NETWORKS (INCLUDING MAINTENANCE)
All activities during operation of the T & D networks (including routine clearing of ROW, connection to users, repair,
Effects from improper waste management of items such as trimmed vegetation, broken cables, broken poles, old and worn out parts such as bolts and knots
Develop a waste management plan including types of waste, expected quantities and frequency, proposed storage and disposal procedures and responsibilities etc.
NAWEC as the operator of the T & D networks will be responsible for all mitigation during operation; where
Develop plan before, and implement during operation
NEA / NAWEC To be funded by NAWEC as part of its operational mandate Waste must be collected and stored for
disposal or treatment at approved sites as per waste management plan
During operation NEA / NAWEC
Do not burn any type of waste During operation NEA / Communities
155
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
maintenance and replacement of T & D infrastructure parts)
Clean waste such as cleared vegetation and packaging shall be given to workers or communities for reuse and recycling
contractors are used for specific activities rather than NAWEC staff, all mitigation measures corresponding to the activities should be included in contracts
During operation NAWEC’s ESS and SSS
Set an internal supervision and monitoring system to ensure waste reduction and management including training of relevant NAWEC staff
During operation NAWEC’s ESS
Ensure waste management issues are incorporated in Agreements with the Contractors carrying out maintenance works such as tree pruning and electricity connection to users
Before specific works
NAWEC’s ESS -
Risk of violence against children and women
Ensure enforcement and adherence to Codes of Conduct for addressing VAC, GBV, and SEA, including regular monitoring and awareness building of the Codes of Conduct
Before and during works
NAWEC’s ESS and SSS -
Do not employ or exploit children for project works
Before and during works
-
Ensure awareness of the GRM Before and during operation
-
Monitor risks for escalating tensions All phases -
Encourage women and other vulnerable groups to raise their concerns safely and anonymously, if they so choose, on the resettlement process and other issues
All phases -
Encourage women to enlist for employment in project activities without any impediments put in their way;
All phases -
156
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
Enforce and monitor Codes of Conduct for workers and all those involved in the project Ensure survivor-centered approach to address GRM as per the procedures in the GRM (and Codes of Conduct) Conduct periodic training of employees on the codes of conduct and related procedures
Risks to health and safety of workers, operators etc.) (E.g. fires, electrocution, explosions, pest and wildlife attacks in remote areas, falls etc.)
Provide induction and training on the job, safety issues and other relevant ESMP requirements
Before and during works
NAWEC ESS and SSS -
Ensure medical exams are compulsory prior to employment
Before and during works
NAWEC ESS and SSS -
Provide appropriate protective gear (helmets, masks, safety goggles, hand gloves and rubber boots, etc.) to workers
Before and during works
NAWEC ESS and SSS -
Sensitize on interpersonal relationship management between and among workers and community members; set codes of conduct
Before and during works
NAWEC ESS and SSS -
Provide first aid kits including training on their use
Before and during works
NAWEC Environmental and Social Safeguards Specialists
-
Provide supervision; record and report incidents to address causes for preventing recurrence and promoting improvement
During works NAWEC ESS and SSS -
157
Activity / Issue Potential Negative Impacts Proposed Mitigation Measures Mitigation Responsibility
Mitigation Period / Timeline
Monitoring Responsibility
Budget ($US)8
DECOMMISSIONING
Closure of quarries
Sites open to illegal exploitation after the Project
Proper closure and timely restoration and rehabilitation of borrow pits
Contractors After mining and before Project ends
NAWEC PIU / NEA / Geology Department
-
Monitor sites and report illegal activities Communities After restoration NEA/Geology Department
-
Dismantling and transportation of materials and equipment from the camp(s)
During decommissioning, all potential impacts on public and occupational health likely during construction, are also significant
As per the construction phase for mitigation of public and worker health and safety; All mitigation measures are also applicable during decommissioning
Contractors During decommissioning
TAC/NAWEC Contractor’s budget
Poor aesthetic quality from excess materials and waste abandoned on camp sites
Implement measures prescribed in the Waste Management Plan for decommissioning activities
Contractors During decommissioning
Regional TACs / PIU ESS Contractor’s budget
Ensure waste management issues are incorporated in Agreements with the Contractors carrying out decommissioning works
NAWEC Before works NAWEC’s ESS -
Risk of leakages, fires and explosions from abandoned fuel facilitates
Remove all fuel storage facilities including burnt/used oils
Contractors During decommissioning
Regional TACs / PIU ESS -
Total 38,000
143
Considering the evaluation of the potential impacts of the Project, and the recommended mitigation measures, it is concluded most of the adverse environmental impacts are short-term, localized, and small scale, and can be mitigated through this ESMP. With full implementation of the ESMP in a timely manner, the beneficiaries/affected communities will be better-off with the Project than without it.
CONCLUSION
The ECOWAS-REAP in The Gambia is expected to generate temporary and long-term employment, economic development from improved services dependent on reliable electricity and consequently improved livelihoods. In The Gambia, indirect benefits to the biophysical environment expected from the Project include protection of natural resources from overexploitation as the increased access to electricity will create alternative means of livelihood. For example, welding and carpentry as compared to fuelwood burning; cooling of seafood rather than smoking for preservation; and cold storage of perishable foods during increased agricultural productivity (more efficiency in production means less land and agrochemicals required). Despite the potential benefits, the ECOWAS-REAP is likely to create socio-economic negative impacts such as involuntary resettlement and loss of livelihood as a result of land-use and land-take; public and occupational health and safety risks such as traffic accidents, falls from heights and imported contagious diseases; violence against vulnerable groups such as disproportionate compensation for women, sexual exploitation and child employment; destruction of cultural/historical sites of importance; and instability in the affected communities. Negative environmental impacts include air and surface water pollution, vegetation clearing and destruction of forest trees with its indirect impact on dependent wildlife, land degradation causing erosion and invasion of environmentally sensitive protected areas that destroy biodiversity. This ESIA recommends a resettlement action plan to address land and livelihood loss due to the Project implementation. Stakeholder consultation and participation during all phases will encourage ownership and prevent grievances. Training and sensitization of all relevant stakeholders in implementing their specific roles in the ESMP including the affected public, TACs, relevant NAWEC staff and workers to be employed by the Contractors. It is recommended that the contractor develops the Contractors ESMP to specify and guide all mitigation measures related to the construction. This will include proper management of waste, avoidance of forests and other protected parks, avoidance of hunting, legal sourcing of earth materials and use of well serviced equipment and machinery that produces less emission. To mitigate the identified negative impacts, the PIU will ensure that the contractors’ agreements stipulate the ESMP requirements and that efficient monitoring takes place. The total estimated cost for the ESMP implementation is US $62,000 (sixty-two thousand dollars).
144
BIBLIOGRAPHY DPWM (2020) Nuimi National Park Management Plan
DWR (2019) Climate data of The Gambia
ECOWAS Energy Protocol (2003) A/P4/1/03
ECOWAS White Paper for Increasing Access to Energy Services, 2006
GoTG (1945) Lands (Regions) Act
GoTG (1990) Public Health Act
GoTG (1991) Physical Planning and Development Control Act, 1991
GoTG (1994) Hazardous chemicals and pesticide control and management Act
GoTG (1994) Hazardous Chemicals and Pesticides Control and Management Act
GoTG (1994) National Environment Management Act
GoTG (1999) Environmental Discharge (Permitting) Regulations
GoTG (1999) Environmental Quality Standards Regulations
GoTG (2001) The Gambia Public Utilities Regulatory Act (2001)
GoTG (2002) Local Government Act
GoTG (2003) Gambia Roads Technical Services Authority Act
GoTG (2003) National Council for Arts and Culture Act, 2003
GoTG (2005) Mines and Quarries Act
GoTG (2005) The Children’s Act (2005)
GoTG (2006) Forestry Policy (2006-2016)
GoTG (2018) Forestry Act, 2018
GoTG (2007) Anti-littering Regulations
GOTG (2007) Labor Act
GoTG (2009) National Women’s Bureau (2009) The Gambia National Gender and Women
Empowerment
GoTG (2019) GBOS Date
GoTG (2017) The Stone Circles of Senegambia Management Plan -2017-2021
GOTG (2009) The National Youth Policy (2009-2018)
GoTG (2010) The Women’s Act
GoTG (2014) EIA Regulations
GoTG (2017) National Development Plan 2018-2021
Moja SJ, Van Zuydam CS, Mphephu (2016) Hazard and Risk Assessment in Electricity Sector: A Case of
Swaziland Electricity Company. Journal of Geography and Natural Disasters S6: 006. doi:
10.4172/2167-0587.S6-006
NEA (1999) Environmental Impact Assessment (EIA) Guidelines
NEA (2009) Gambia Environmental Action Plan, Phase II (2009-2018)
OMVG (2018) Study For The Project Of Electricity Access From The Substations Of Regional Project (Omvg And Omvs) In The Republic Of Senegal, Guinea, Guinee Bissau And The Gambia; Deliverable N° 4 : Detailed Studies; Final Report (Revised); The Gambia
UN Convention on Biological Diversity (CBD) (1992) UN Convention on the Elimination of all Forms of Discrimination Against Women (CEDAW) (1979)
UN Convention on the Rights of Persons with Disabilities (CRPD) (2006) UN Convention on the Rights of the Child, (UNICEF) (1989) UN Framework Convention on Climate Change (UNFCCC) (1994)
145
United Nations (2001) Convention to Combat Desertification (CCD) (1994)
World Bank (March, 2020) Technical Note: Public Consultations and Stakeholder Engagement in WB-
Supported Operations when there are Constraints on Conducting Public Meetings
WB (1999) Operational Manual Operational Policies OP 4.01 Environmental Assessment
WB IFC (2007) EHS General Guidelines
http://hdr.undp.org/en/content/gender-inequality-index
https://www.lavanguardia.com/natural/actualidad/20191021/471036333031/aguila-pesacadora-
migres-red-electrica-plataforma-nido.html
https://www.lavanguardia.com/natural/actualidad/20191021/471036333031/aguila-pesacadora-
migres-red-electrica-plataforma-nido.html
“The Gambia, Guinea Bissau, Mali and Economic Community of West African States (ECOWAS) -
ECOWAS-Regional Electricity Access Project” (IDA/R2018-0379/1) dated November 26, 2018, with a
closing date of December 13, 2018.
Ramsar Wetland Study The Gambia, 1997).
hdr.undp.org/en/countries/profiles/gmb
chartsbin.com/view/4319
www.ecowrex.org/.../2008_ecowas_environmental_policy_-_ecowa… · PDF file
146
Appendix 2: Communities Along the Brikama Feeders
No: Village/Community District Population # of Households
Total M F
BRIKAMA SUB-STATION FEEDER 1
1.1 Bafuloto Kombo Central 1389 697 692 189
1.2 Makumbaya Kombo North 2691 1333 1358 307
1.3 Kubaruko Kombo North 809 445 364 76
1.4 Galoya Kombo Central 686 337 349 85
1.5 Kubuneh Kombo Central 1455 725 730 151
1.6 Kunkujang Kombo North 21256 10721 10535 2861
1.7 Madinaring Kombo North 8559 4273 4286 830
Sub-Total 36845 18531 18314 4499
BRIKAMA SUB-STATION FEEDER 2
2.1 Kembujeh, Kombo Central 7633 3874 3759 733
2.2 Serekundanding Kombo Central 615 319 296 63
2.3 Tabakuta Kombo East 2026 1155 871 165
2.4 Bassore Kombo East 3352 1681 1671 246
2.5 Madina Talokoto Kombo East 700 350 350 97
2.6 Gidda Sukuta Kombo East 425 222 203 12
2.7 Giboro Kuta Kombo East 1624 831 793 248
2.8 Giboro Koto Kombo East 1248 620 628 213
Sub-Total 17623 9052 8571 1777
BRIKAMA SUB-STATION FEEDER 3
3.1 Mandinaba Kombo East 2390 1203 1187 277
3.2 Kuloro (Tunjina) Kombo East 716 361 355 71
3.3 Pirang Kombo East 2506 1227 1279 311
3.4 Berending Kombo East 3456 1695 1761 43
3.5 Faraba Banta Kombo East 3041 1451 1590 309
3.6 Sotokoi Kombo East 1449 706 743 146
3.7 Amdalie Kombo East 292 150 142 43
3.8 Faraba Sutu Kombo East 718 355 363 89
3.9 Sohm Kombo East 1116 579 537 144
3.10 Kafuta Kombo East 4415 2141 2274 470
3.11 Sanyangha Kombo East 452 239 213 56
3.12 Bullock Foni Brefet 4073 2054 2019 463
3.13 Buram Foni Bintang Karanai 171 90 81 18
3.14 Badjana Foni Brefet 1197 566 631 87
3.15 Sutusinjang, Foni Brefet 1615 809 806 189
3.16 Jagil Foni Berefet 333 158 175 38
3.17 Katakor Foni Bintang karanai 570 278 292 52
3.18 Besse Foni Brefet 895 402 493 93
3.19 Ndemban Foni Brefet 2372 1188 1184 298
3.20 Somita, Foni Brefet 2723 1322 1401 292
3.21 Jalokoto Foni Brefet 530 272 258 64
3.22 Tempoto Foni Bintang Karanai 429 224 205 46
3.23 Komosorr Foni Bintang Karanai 54 22 32 5
3.24 Sangajor Foni Kansala 870 427 443 108
3.25 Jomo Kunda Foni Kansala 213 104 109 28
147
No: Village/Community District Population # of Households Total M F
3.26 Jonyer Foni Kansala 124 64 60 15
3.27 Bajiran Foni Bondali 82 36 46 8
3.28 Bantajang Foni Bondali 75 39 36 8
3.29 Kallang Foni Bondali 41 23 18 4
3.30 Mayork Foni Bondali 579 296 283 48
3.31 Kafenkeng Bambarang Foni Bondali 972 502 470 116
3.32 Buramba Foni Bondali 151 76 75 11
3.33 Kanwally Foni Bondali 330 174 156 29
3.34 Jending Ba Foni Bondali 90 50 40 6
3.35 Kalimou Foni Bondali 108 51 57 9
3.36 Jendi Foni Bondali 31 20 11 3
3.37 Kanjibat Foni Bondali 74 32 42 11
3.38 Bondali Tenda Foni Bondali 143 74 69 15
3.39 Kankurang Foni Bondali 443 213 230 31
3.40 Bulengart Foni Bondali 199 103 96 18
3.41 Jorem Drammeh Kunda Foni Jarrol 72 39 33 11
3.42 Sibanor Foni Bintang Karanai 3118 1512 1606 436
3.43 Batabute Kantora Foni Bintang Karanai 810 392 418 80
3.44 Arragelen Foni Bintang Karanai 706 368 338 84
3.45 Janack – t-off from Kabacor Foni Bintang Karanai 400 208 192 49
3.46 Tampoto Koto Foni Bintang Karanai 133 72 61 12
3.47 Kanuma – t-off from Tampoto
Foni Bintang Karanai 344 182 162 35
3.48 Bajakarr Foni Bintang Karanai 729 350 379 74
3.49 Kanpart Foni Kansala 228 99 129 26
3.50 Kambong Foni Kansala 165 85 80 19
3.51 Genia, Foni Kansala 151 68 83 15
3.52 Bwiam Foni Kansala 3013 1496 1517 494
3.53 Darsilameh Foni Kansala 407 173 234 31
3.54 Nyadinding, Sangajor,– (t-off from Sangajor)
Foni Kansala 38 15 23 4
3.55 Burock Foni Kansala 309 168 141 34
3.56 Dumbuto – (t-off from Kanfenda)
Foni Kansala 184 99 85 17
3.57 Kappa – t-off from Kampant
Foni Kansala 225 111 114 25
3.58 Kalagi Foni Jarol 291 166 125 51
3.59 Sintet Foni Jarol 1171 559 612 135
3.60 Kanmamudu Foni Jarol 248 131 117 22
3.61 Kampassa Foni Jarol 735 444 291 71
3.62 Jonkel Foni Jarol 219 120 99 23
3.63 Chabai Foni Bondali 337 176 161 27
3.64 Wasswdu Foni Jarol 831 465 366 97
3.65 Arangkoli Kunda Foni Jarol 181 102 79 17
3.66 Jorem Drammeh Kunda Foni Jarrol 72 39 33 11
3.67 Jorem Bunda kunda Foni Jarrol 88 39 49 9
148
No: Village/Community District Population # of Households Total M F
3.68 Kambale ba Foni Jarrol 44 24 20 4
3.69 Nigie Kombo East 305 153 152 40
3.70 Omorto Kombo East 698 345 353 98
3.71 Brefet Foni Berefet 452 215 237 46
3.72 Kandunku Foni Bintang Karanai 543 265 278 54
3.73 Somita Foni Berefet 2723 1322 1401 292
3.74 Batendeng Kajara Foni Bintang karanai 341 160 181 34
3.75 Bulanjor Foni Bintang Karanai 388 186 202 35
3.76 Kaimo Foni Bintang Karanai 54 22 32 5
3.77 Kusamai Foni Bintang Karanai 449 234 215 52
3.78 Siwol/Kayanga Foni Bintang Karanai 446 254 192 44
3.79 Gilanfari Foni Bintang Karanai 210 98 112 19
3.80 Sitanunku Foni Bintang Karanai 44 22 22 5
3.81 Bajagarr Foni Bintang Karanai 729 350 379 74
3.82 Tampoto Foni Bintang Karanai 296 152 144 34
3.83 Tampoto koto Foni Bintang Karanai 133 72 61 12
3.84 Kanuma Foni Bintang Karanai 344 182 162 35
3.85 Kabokor Foni Bintang Karanai 349 172 177 40
3.86 Janack Foni Bintang Karanai 400 208 192 49
3.87 Kampant Foni Kansala 228 99 129 26
3.88 Kappa Foni Kansala 225 111 114 25
3.89 Kanfenda Foni Kansala 674 335 339 81
3.90 Burok Foni Kansala 309 168 141 34
3.91 Dumbuto Foni Kansala 184 99 85 17
3.92 Sangajor Foni Kansala 870 427 443 108
3.93 Sangajor Jiramba Foni Kansala 179 81 98 17
3.94 Nyadingding Foni Kansala 38 15 23 4
3.95 Darsilame Sheriff Kunda Foni Kansala 407 173 234 31
3.96 Arankolikunda Foni Jarrol 181 102 79 17
3.97 Kambaleba Foni Jarrol 44 24 20 4
3.98 Jorem Drammeh Kunda Foni Jarrol 72 39 33 11
3.99 Jorem Bunda Kunda Foni Jarrol 88 39 49 9
3.100 Bondali Foni Bondali 520 250 270 71
3.101 Bondali Tenda Foni Bondali 143 74 69 15
3.102 Kamwally Foni Bondali 330 174 156 29
3.103 Kanjibati Foni Bondali 74 32 42 11
3.104 Kalimu Foni Bondali 108 51 57 9
3.105 Jending Foni Bondali 31 20 11 3
3.106 Jending Ba Foni Bondali 90 50 40 6
3.107 Burambang Foni Bondali 151 76 75 11
3.108 Bulengat Foni Bondali 199 103 96 18
3.109 Kankurang Foni Bondali 443 213 230 31
3.110 Kafenkene Foni Bondali 68 29 39 6
3.111 Bambara Foni Bondali 972 502 470 116
Sub-Total 70,819 35,176 35,643 7,663
149
No: Village/Community District Population # of Households Total M F
Total Population/Household 125,215 62,720
62,495 13, 939
Source: SD Focus Ltd, (2020) with data from GBOS, 2019
150
Appendix 3: List of Corridors under the Brikama Substation Feeders
Brikama Feeder 1 (BF 1) Transmission Line Corridors
Corridor 1: Mandinary – Brikama - Along Road Corridor
Number of Corridors = 1 Brikama Feeder 2 (BF-2) Transmission Line Corridor Corridor 1: Brikama – Serekundanding - Along Road Corridor
Corridor 2: Mandinaba – Giboro Koto - Along Road Corridor
Number of Corridors = 2
Brikama Feeder 3 (BF-3) Transmission Line Corridor
Corridor 1: Faraba Sutu - Sohm – Omorto - Along Road Corridor
Corridor 2: Buram – Bulanjor - Along Farmlands
Corridor 3: Buram – Katakor - Along Farmlands
Corridor 4: Besse – Berefet - Along Road Corridor
Corridor 5: Somita – Batendeng Kajara - Along Road Corridor
Corridor 6: Komosor – Sibanor - Along Farmlands
Corridor 7: Sangajor – Mayork - Along Road Corridor
Corridor 8: Sintet – Arankoli Kunda - Along Road Corridor
Corridor 9: Sibanor – Bajagar – Along Road Corridor
Corridor 10: Tampoto – Kanuma - Along Road Corridor
Corridor 11: Kabacorr – Janak – Along Farmland
Corridor 12: Kampant – Kappa - Along Road Corridor
Corridor 13: Kamfenda – Kanfenda Badji Kunda – Along Farmland
Corridor 14: Kanfenda – Dumbutu – Along Farmland
Corridor 15: Sangajor – Dasilami - Along Road Corridor
Corridor 16: Kanwally – Jending Jilahar - Along Road Corridor
Corridor 17: Kanwally – Kalimu - Along Road Corridor
Corridor 18: Buramba – Bambarang - Along Road Corridor
Corridor 19: Jorem Drammeh Kunda – Jorem Bunda Kunda - Along Road Corridor
Corridor 20: Arankoli Kunda – Kambaleba - Along Road Corridor
Number of Corridors = 20
Total Number of Corridors for Brikama Feeders = 23
151
Appendix 4: Location-Specific Baseline Environmental Conditions along the Brikama Transmission
Corridors
Corridor 1: Mandinary – Brikama
Distance from Mandinary (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Mandinary Proposed Transmission Line Pole Pole
LHS 5m No action needed from ECOOWAS-REAP
The Mandinary-Brikama corridor has an existing line
1.1 Mandinary Road junction to Kunkujang Jattaya
LHS Run a Tee-off to Kunkujang Jattaya
2.9 Makumbaya Private property
LHS 10 Avoid putting Pole Poles inside property
Sony Enterprise fenced with cement blocks.
4.7 Makumbaya Road junction to Galoya and Kubuneh
LHS Run a Tee-off to Galoya and Kubuneh
4.8 Makumbaya Road junction to Kubariko
RHS Run a Tee-off to Kubariko
6.4 Bafuloto No features impacted
Both MV and LV exist
9.2 Brikama Brikama Sub Station
LHS Brikama Feeders originate from here
9.5 Serekundanding
New transmission line to be located here with pole mounted transformer
LHS For health and safety concerns transformer must not be accessible to public
The Proposed Brikama - Serekundanding Line terminates here with a pole -mounted transformer.
Brikama Feeder 2 (BF-2) Transmission Line Corridor
152
Corridor 1: Brikama – Serekundanding
Distance from Brikama (km)
Location Features Position of Feature
Approx. Height/Area (m)
Action Proposed by the Project
Remarks
0.0 Brikama Sub Station
Proposed transmission line pole
LHS 5m The existing MV line shall be reconfigured and adjusted to allow double line construction for feeders 2 and 3. This configuration shall start from Brikama Power Plant all the way to Mandinaba where the two lines separate; feeder two branching to the right and be linked/ connected to the existing tee-off leading to the border town of Giboro
The proposed Brikama –Serekundanding line already exist and runs on the Right-hand side of the Brikama - Serekundanding Road.
1.2 Brikama Proposed transmission line pole
LHS 1 Line turns left to run on LHS of road
1.4 Brikama 1 Mango and 1 orange trees
RHS 1 Trim
1.7 Brikama Proposed transmission line pole
LHS 10 Line turns left and runs on LHS of Brikama – Soma highway
1.8 Brikama Carpentry/Mechanical workshops
LHS 5 Avoid putting Pole Poles above workshops
Health and safety concerns during construction of poles.
153
Distance from Brikama (km)
Location Features Position of Feature
Approx. Height/Area (m)
Action Proposed by the Project
Remarks
1.9 Brikama Mechanical/Tyre repair workshop
LHS 6 Avoid putting Pole Poles above workshops
Health and safety concerns during construction of poles
4.5 Kembujeh No features impacted
Both MV and LV Lines exist
6.3 Serekundanding
Proposed transmission line pole with transformer
LHS For health and safety concerns transformer must not be accessible to public
The Proposed Brikama - Serekundanding Line terminates here with a pole -mounted transformer.
154
Corridor 2: Mandinaba – Giboro Koto
Distance from Mandinaba (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Mandinaba
The Proposed MV line already exists from Brikama to Mandinaba – Giboro Koto At the Junction of Mandinaba/Gibro, there are a few structures and businesses that will potentially be impacted during line construction; a shop keeper/Afra man, and a tyre repair man.
LHS The existing MV line shall be reconfigured and adjusted to allow double line construction for feeders 2 and 3. This configuration shall start from Brikama Power Plant all the way to Mandinaba where the two lines separate; feeder two branching to the right and be linked/ connected to the existing tee-off leading to the border town of Giboro
There is a potential RAP to address the loss of earnings
2.1 Tabakuta No features impacted
Both MV and LV exist
4.7 Basori No features impacted
Both MV and LV exist
7.9 Madina Talokoto
No features impacted
Both MV and LV exist
9.0 Gida Bajonki
No features impacted
Both MV and LV exist
10.1 Giboro Kuta
No features impacted
Both MV and LV exist
11.4 Giboro koto
Proposed transmission Line
LHS The Proposed
155
Distance from Mandinaba (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
pole with transformer
Mandinaba - Giboro koto Line terminates here with a pole mounted transformer.
Brikama Feeder 3 (BF-3) Transmission Line Corridor
Corridor 1: Faraba Sutu - Sohm – Omorto
Distance from Sohm (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Faraba Sutu
Proposed Transmission Line Tee-off to Sohm-Omorto
RHS Proposed transmission line Tee-off to Sohm-Omorto
Faraba Sutu - Sohm has an existing MV/LV lines running on the RHS of the Faraba Sutu-Sohm road corridor
0.02 Sohm Mango Tree RHS 2 Avoid
0.1 Sohm Proposed Transmission Line Pole
LHS 3 Line turns right and runs along the road to Omorto
0.2 Sohm Mango Tree RHS 5 Avoid
0.2 Sohm Police Station RHS 8 Avoid putting poles inside Police Station premises
Health and safety concerns during construction of poles.
0.3 Sohm Proposed transmission line pole
LHS 5 Line crosses the road and runs on LHS on the opposite side, to Omorto
0.6 Sohm Mango Tree LHS 2 Avoid
156
Distance from Sohm (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
1.3 Sohm Mahogany LHS 5 Trim
2.4 Niji Group of Mango Trees
LHS 2 Avoid
2.9 Niji Cashew Plantation
LHS 6 Trim cashews along the frontage
Potential RAP
3.7 Omorto Group of 6 Mango Trees
LHS 3 Avoid
4.0 Omorto Mango Tree LHS 5 Avoid
4.2 Omorto New transmission line to be located here with pole mounted transformer
RHS For health and safety concerns transformer must not be accessible to public
The Proposed Sohm - Omorto Line terminates here with a pole -mounted transformer.
Corridor 2: Buram – Bulanjor
Distance from Buram (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Buram Proposed transmission line pole
RHS Construct proposed Buram –Bulanjor line on the RHS of the Buram - Bulanjor Road
2.7 Bulanjor Tributary Across the road
Avoid putting pole s close to the tributary
Low lying waterway liable to flooding
3.1 Bulanjor New transmission line to be located here with pole mounted transformer
LHS For health and safety concerns transformer must not be accessible to public
The Proposed Buram - Bulanjor Line terminates here with a pole -mounted transformer.
157
Corridor 3: Buram – Katakor
Distance from Buram (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Buram Proposed transmission line pole
RHS Construct the proposed Buram –Katakor line on the RHS of the Buram - Katakor Road.
0.3 Buram Football field; Unfenced.
RHS 8 Avoid putting poles on football field
Stringing should be done when match is not in progress
1.4 Buram Cashew tree RHS 3 Avoid
1.9 Katakor Football field; Unfenced.
RHS 10 Avoid putting poles on football field
Stringing should be done when play is not in progress
2.1 Katakor Proposed transmission line pole with transformer
LHS For health and safety concerns transformer must not be accessible to public
The Proposed Buram - Katakor line terminates here with a pole -mounted transformer.
Corridor 4: Besse – Berefet
Distance from Besse (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Besse Proposed transmission line pole
LHS The Proposed Besse –Berefet Line runs on LHS of the Besse - Berefet Road.
0.2 Besse St. Andrews Nursery School; partly fenced with cement blocks
LHS 2 Health and safety concerns during construction of poles
158
Distance from Besse (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.2 Besse Besse Community Association
LHS 3 Fenced with cement blocks. Health and safety concerns during construction of poles
2.4 Besse Kassila Community Forest (CF)
Both sides of road
Avoid erecting poles inside CF
5.1 Berefet Proposed transmission line pole
LHS Line turns right and runs on RHS
5.5 Berefet Proposed transmission line pole with transformer
LHS For health and safety concerns transformer must not be accessible to public
The Proposed Besse - Berefet Line terminates here with a pole -mounted transformer.
159
Corridor 5: Somita – Batendeng Kajara
Distance from Basse (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Somita Proposed transmission line pole
RHS The Proposed Somita –Batendeng Kajara Line runs on RHS Somita – Batendeng Kajara Road.
3.4 Kandunku Cashew Plantation RHS 5 Avoid
4.0 Kandunku Women’s Vegetable Garden
RHS 7 Avoid putting poles inside the Garden
Health and safety concerns during construction of poles
4.3 Kandunku Mosque RHS 5 Avoid running the line above the Mosque
Health and safety concerns during construction of poles
5.6 Batendeng Kajara
Proposed transmission line pole with transformer
RHS For health and safety concerns transformer must not be accessible to public
The Proposed Somita – Batendeng Kajarabu Line terminates here with a pole -mounted transformer.
Corridor 6: Komosor – Sibanor
160
Distance from Komosor (km)
Location Features Position of Feature
Approx. Height/Area (m)
Action Proposed by the Project
Remarks
0.0 Sibanor Proposed transmission line pole
RHS The Proposed Komosor –Sibanor runs on RHS Komosor - Sibanor Road.
3.3 Batendeng No features impacted
Usual Bush/farmland
5.1 Komosor
Proposed transmission line pole with transformer
LHS For health and safety concerns transformer must not be accessible to public
The Proposed Komosor - Sibanor Line terminates here with a pole -mounted transformer.
Corridor 7: Sangajor – Mayork
Distance from Sangajor (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Sangajor Proposed transmission line pole
LHS 5m Construct poles to run on RHS of the Sangajor - Mayork road corridor
0.3 Sangajor Gully RHS 2 Avoid putting poles close to gully
3.7 Jomo Kunda
Group of Mangoes RHS 3 Avoid
3.9 Jomo Kunda
Silk cotton Tree RHS 6 Avoid
6.4 Jomo Kunda
Jomo Kunda/Jonyerr Community Forest
RHS 7 Avoid putting poles inside forest
6.7 Jomo Kunda
Mango Tree RHS 4 Trim
8.5 Jonyerr Mango Tree RHS 5 Trim
161
Distance from Sangajor (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
8.7 Jonyerr Mosque RHS 6 Avoid running the line over the mosque
Health and safety concerns during construction of poles
8.8 Jonyerr Mango Tree RHS 8 Avoid
10.0 Bajiran No features impacted
Usual Bush/farmland
10.1 Bantajang No features impacted
Usual Bush/farmland
11.9 Bantajang Mango Tree RHS 5 Trim
15.0 Kallang Group of 2 Mangoes RHS 3 Avoid
17.7 Mayork Proposed transmission line pole with transformer
RHS For health and safety concerns transformer must not be accessible to public
The Proposed Sangajor - Mayork Line terminates here with a pole -mounted transformer.
Corridor 8: Sintet – Arankoli Kunda
Distance from Sintet (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
0.0 Sintet No features impacted
Usual Bush/farmland
6.8 Kanmamudu No features impacted
Usual Bush/farmland
7.8 Kampassa No features impacted
Usual Bush/farmland
9.7 Jonkel No features impacted
Usual Bush/farmland
14.0 Chabai No features impacted
Usual Bush/farmland
16.1 Wassadu Quranic School of cement block structure
RHS 8 Health and safety concerns during construction of poles
18.0 Arankoli Kunda
Proposed transmission line pole with transformer
RHS For health and safety concerns transformer
The Proposed Sintet - Arankoli Kunda Line
162
Distance from Sintet (km)
Location Features Position of Feature
Approx. Height/ Area (m)
Action Proposed by the Project
Remarks
must not be accessible to public
terminates here with a pole -mounted transformer.
160
Appendix 5: Chance Find Procedures
This Chance Find Procedure shall be applied in case previously unknown culturally valuable materials are unexpectedly discovered during the implementation of the Project:
• In the case of chance find of any material with possible archaeological, historical, paleontological, religious, or other cultural value, all work at and around the find, feature or site must immediately stop.
• The discovery will be clearly demarcated and secured from unauthorized access, and all found remains will be left where they were found. If necessary, artefacts will be protected and measures to stabilize the area will be implemented.
• Notify the Project Manager/PCU of the findings who in turn will immediately notify the National Council for Arts and Culture for the necessary, assessment, recording and determination of the the next course of action.
• Restart construction and public works only upon authorization of the relevant authorities (the National Council for Arts and Culture under the Ministry of Tourism and Culture).
• Relevant findings will be recorded in the Banks’ supervision reports.
• These procedures must be referred to as standard provisions in construction contracts.
161
Appendix 6: Summary of Comments and Views expressed at the Consultations
Communities/Venues Dates Introduction and objectives of ECOWAS-REAP
The lead Consultant introduced the team, including
the NAWEC team of experts who were also part of
the field exercises.
The Consultant took time to share valuation
information on matters surrounding the field trips,
consultations with the communities, project
background, processes, and procedures as well as the
role of the communities and institutions during the
implementation of the Project.
He gave a brief background of the ECOWAS-REAP;
that it is an IDA/World Bank funded regional project
meant to enhance electricity access to ECOWAS
member countries. He informed the meetings that
the OMVG Energy Project is currently building an
electricity substation in Brikama; that ECOWAS-REAP
will connect from the substation to provide electricity
to rural and peri-urban communities 100km radius of
the substation via MV (30kV) and LV (400V)
infrastructure.
This means therefore, that the lines will pass through
communities, feeder roads, farmlands,
bushes/shrubs, protected areas such as forests, parks
and cultural heritage sites. He informed the gathering
that as part of the assessment, the routing of the lines
is being done collectively with the NAWEC team, and
the objective is to avoid or minimize environmental
and social impacts. Where impacts are inevitable, the
assessment shall be carried out to ensure that the
appropriate mitigation measures are recommended
and implemented. If compensation is required, the
affected families shall be consulted adequately
before the compensation is done.
He concluded by saying that once implemented, the
Project will contribute to improving the livelihoods of
the people in many ways.
Rationale of the Public Consultations
Buram - WCR 15/02/20
Komossor - WCR 15/02/20
National Regulatory Institutions
National Water and Electricity
Company
???
Department of Parks and
Wildlife Management
10/03/20
National Roads Authority 10/03/20
Department of Forestry 11/03/20
National Environment Agency 11/03/20
National Council for Arts and
Culture
11/03/20
Consultant’s Opening Remarks
162
The Consultant informed the meetings that the
rationale for the public consultations is for
information sharing with Project beneficiaries; to
seek their opinion, learn from their experiences of
past projects, hear their concerns and fears to help in
better planning of the ECOWAS-REAP activities.
From the consultations an ESIA report will be
developed with an ESMP to address the potential
negative environmental and social impacts that may
be caused by the Project.
Remarks, Comments by Project beneficiaries
Location Comments/Views
Mandinaba The Project is highly welcomed, but the villagers decried:
• Lack of confidence as several neighboring villages were promised electricity which is still not forthcoming
• Women are particularly disadvantaged as they spend a lot of time and resources on ice cubes for their businesses
• Electricity will greatly help in preserving foodstuff at the household level as well as make the youth stay at home
Buram • This Project has more positive impacts than negative ones. In addition, it will make the neighborhood a lot brighter and therefore increase security in the village
Komosor • Making electricity accessible is very good and welcomed but how much will it cost the poor farmers in the village?
• With electricity we can engage in businesses that are dependent on electricity and enhance our livelihood even further
Government Institutions
Department of Parks and Wildlife Management
• Coated wires should be used, to reduce risks of animals being electrocuted
• Anything inside any National Park, including forest trees belong to DPWM but any tree felled and needs to be taken out of the Park, approval of DOF must be sought
• Any destruction must be repaired
163
National Roads Authority • Poles should not be erected within road corridors which are less than 15m from the center of roads
• In the case of expansion of roads, relocation of poles can be costly; thus, erect poles as far away from roads as possible
• The possibility of running lines behind communities should be considered to avoid busy roads within communities
Department of Forestry • As far as this Project is concerned, DOF’s interests relates to impacts on flora whilst DPWM is concerned with fauna
• However, there is always a positive consultation between the two Departments especially as it relates to consultations in respect of forest products
• In case of any impacts on National Parks resulting in a RAP, DOF can always support DPWM with seedlings production in case of reforestation
National Environment Agency • Challenges are foreseen in some National Parks including issues pertaining to RAP and water facility
• Possibility of underground cable to avoid impacts on habitat, flora and fauna etc. should be explored
• The need to build capacity especially at the regional level will help in the monitoring of Project works
• Monitoring from HQ is not going to be effective, so there is need to utilize the TACs; TACs at regional level must always be engaged and their capacities should be built too
NCAC • The Project will be very close to the stone
circles in Kerr Batch, which is protected in
the country
• Funds have been secured to refurbish the
Kerr Batch site and presence of electricity
in the future will make the place more
164
attractive and viable for tourism and its
related benefits for the community
• Due to its cultural heritage, the Kerr Batch
Stone Circles has immense significance
and needs to be preserved; lines should
be designed not to pass close to the site.
178
Appendix 8: Codes of Conduct and Action Plan For Implementing ESHS and OHS Standards, and
Preventing Gender Based Violence and Violence Against Children
Background
The purpose of these Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards,
and Preventing Gender Based Violence (GBV) and Violence Against Children (VAC) is to introduce a set
of key definitions, core Codes of Conduct, and guidelines that:
i. clearly define obligations on all project staff (including sub-contractors and day workers) with
regard to implementing the project’s environmental, social, health and safety (ESHS) and
occupational health and safety (OHS) requirements, and;
ii. help prevent, report and address GBV and VAC within the work site and in its immediate
surrounding communities.
The application of these Codes of Conduct will help ensure the project meets its ESHS and OHS
objectives, as well as preventing and/or mitigating the risks of GBV and VAC on the project and in the
local communities.
These Codes of Conduct are to be adopted by those working on the project and are meant to:
i. create awareness of the ESHS and OHS expectations on the project;
ii. create common awareness about GBV and VAC and:
(a) ensure a shared understanding that they have no place in the project; and,
(b) create a clear system for identifying, responding to, and sanctioning GBV and VAC
incidents.
Ensuring that all project staff understand the values of the project, understand expectations for all
employees, and acknowledge the consequences for violations of these values, will help to create
smoother, more respectful and productive project implementation thereby helping ensure that the
project’s objectives will be achieved.
Definitions
The following definitions apply:
Environmental, Social, Health and Safety (ESHS): an umbrella term covering issues related to the
impact of the project on the environment, communities, and workers.
179
Occupational Health and Safety (OHS): Occupational health and safety is concerned with protecting
the safety, health and welfare of people engaged in work or employment. The enjoyment of these
standards at the highest levels is a basic human right that should be accessible by each worker.
Gender-Based Violence (GBV): is an umbrella term for any harmful act that is perpetrated against a
person’s will and that is based on socially ascribed (i.e. gender) differences between males and
females. It includes acts that inflict physical, sexual, or mental harm or suffering, threats of such acts,
coercion, and other deprivations of liberty. These acts can occur in public or in private. The term GBV
is used to underscore systemic inequality between males and females (which exists in every society in
the world) and acts as a unifying and foundational characteristic of most forms of violence perpetrated
against women and girls. The 1993 United Nations Declaration on the Elimination of Violence against
Women defines violence against women as “any act of gender-based violence that results in, or is
likely to result in, physical, sexual or psychological harm or suffering to women.”9 The six core types
of GBV are:
• Rape: non-consensual penetration (however slight) of the vagina, anus or mouth with a penis,
other body part, or an object.
• Sexual Assault: any form of non-consensual sexual contact that does not result in or include
penetration. Examples include: attempted rape, as well as unwanted kissing, fondling, or
touching of genitalia and buttocks.
o Sexual Harassment: is unwelcome sexual advances, requests for sexual favors, and
other verbal or physical conduct of a sexual nature. Sexual harassment is not always
explicit or obvious, it can include implicit and subtle acts but always invoLVes a power
and gender dynamic in which a person in power uses their position to harass another
based on their gender. Sexual conduct is unwelcome whenever the person subjected
to it considers it unwelcome (e.g. looking somebody up and down; kissing, howling or
smacking sounds; hanging around somebody; whistling and catcalls; in some
instances, giving personal gifts).
o Sexual Favors: is a form of sexual harassment and includes making promises of
favorable treatment (e.g. promotion) or threats of unfavorable treatment (e.g. loss of
job) dependent on sexual acts—or other forms of humiliating, degrading or
exploitative behavior.
• Physical Assault: an act of physical violence that is not sexual in nature. Examples include:
hitting, slapping, choking, cutting, shoving, burning, shooting or use of any weapons, acid
attacks or any other act that results in pain, discomfort or injury.
• Forced Marriage: the marriage of an individual against her or his will.
• Denial of Resources, Opportunities or Services: denial of rightful access to economic
resources/assets or livelihood opportunities, education, health or other social services (e.g. a
9 It is important to note that women and girls disproportionately experience violence; overall 35 percent of women worldwide have faced
physical or sexual violence (WHO, Global and regional estimates of violence against women: prevalence and health effects of intimate partner violence and non-partner sexual violence, 2013). Some men and boys also face violence based on their gender and unequal power
relationships.
180
widow prevented from receiving an inheritance, earnings forcibly taken by an intimate partner
or family member, a woman prevented from using contraceptives, a girl prevented from
attending school, etc.).
• Psychological / Emotional Abuse: infliction of mental or emotional pain or injury. Examples
include: threats of physical or sexual violence, intimidation, humiliation, forced isolation,
stalking, harassment, unwanted attention, remarks, gestures or written words of a sexual
and/or menacing nature, destruction of cherished things, etc.
Violence Against Children (VAC): is defined as physical, sexual, emotional and/or psychological harm,
neglect or negligent treatment of minor children (i.e. under the age of 18), including exposure to such
harm,10 that results in actual or potential harm to the child’s health, survival, development or dignity
in the context of a relationship of responsibility, trust or power. This includes using children for profit,
labor11, sexual gratification, or some other personal or financial advantage. This also includes other
activities such as using computers, mobile phones, video, and digital cameras or any other medium to
exploit or harass children or to access child pornography.
Grooming: are behaviors that make it easier for a perpetrator to procure a child for sexual activity.
For example, an offender might build a relationship of trust with the child, and then seek to sexualize
that relationship (for example by encouraging romantic feelings or exposing the child to sexual
concepts through pornography).
Online Grooming: is the act of sending an electronic message with indecent content to a recipient
who the sender believes to be a minor, with the intention of procuring the recipient to engage in or
submit to sexual activity with another person, including but not necessarily the sender.12
Accountability Measures: are the measures put in place to ensure the confidentiality of survivors and
to hold contractors, consultants, and the client responsible for instituting a fair system of addressing
cases of GBV and VAC.
Contractors Environmental and Social Management Plan (CESMP): the plan prepared by the
contractor outlining how they will implement the works activities in accordance with the project’s
environmental and social management plan (ESMP).
Child: is used interchangeably with the term ‘minor’ and refers to a person under the age of 18. This
is in accordance with Article 1 of the United Nations Convention on the Rights of the Child.
Child Protection (CP): is an activity or initiative designed to protect children from any form of harm,
particularly arising from VAC.
Consent: is the informed choice underlying an individual’s free and voluntary intention, acceptance or
agreement to do something. No consent can be found when such acceptance or agreement is
10 Exposure to GBV is also considered VAC. 11 The employment of children must comply with all relevant local legislation, including labor laws in relation to child labor and World
Bank’s safeguard policies on child labor and minimum age. They must also be able to meet the project’s Occupational Health and Safety
competency standards. 12 For example, the Vanuatu Criminal Code Act 1995, Division 474 (telecommunications offences, subdivision C).
181
obtained using threats, force or other forms of coercion, abduction, fraud, deception, or
misrepresentation. In accordance with the United Nations Convention on the Rights of the Child, the
World Bank considers that consent cannot be given by children under the age of 18, even if national
legislation of the country into which the Code of Conduct is introduced has a lower age.13 Mistaken
belief regarding the age of the child and consent from the child is not a defense.
Consultant: is as any firm, company, organization or other institution that has been awarded a
contract to provide consulting services to the project, and has hired managers and/or employees to
conduct this work.
Contractor: is any firm, company, organization, or other institution that has been awarded a contract
to conduct infrastructure development works for the project and has hired managers and/or
employees to conduct this work. This also includes sub-contractors hired to undertake activities on
behalf of the contractor.
Employee: is any individual offering labor to the contractor or consultant within country on or off the
work site, under a formal or informal employment contract or arrangement, typically, but not
necessarily (e.g. including unpaid interns and volunteers), in exchange for a salary, with no
responsibility to manage or supervise other employees.
GBV and VAC Allegation Procedure: is the prescribed procedure to be followed when reporting
incidents of GBV or VAC.
GBV and VAC Codes of Conduct: The Codes of Conduct adopted for the project covering the
commitment of the company, and the responsibilities of managers and individuals with regards to
GBV and VAC.
GBV and VAC Compliance Team (GCCT): a team established by the project to address GBV and VAC
issues.
Grievance Redress Mechanism (GRM): is the process established by a project to receive and address
complaints.
Manager: is any individual offering labor to the contractor or consultant, on or off the work site, under
a formal or informal employment contract and in exchange for a salary, with responsibility to control
or direct the activities of a contractor’s or consultant’s team, unit, division or similar, and to supervise
and manage a pre-defined number of employees.
Perpetrator: the person(s) who commit(s) or threaten(s) to commit an act or acts of GBV or VAC.
Response Protocol: is the mechanisms set in place to respond to cases of GBV and VAC (see Section
4.7 Response Protocol).
13 For example, under Article 97 Criminal consolidation act for age of legal consent in Vanuatu, sexual activity with any child under the age of 15 years for heterosexual conduct and 18 years for same sex conduct is prohibited (http://tinyurl.com/vu-consent). However, the World
Bank follows the United Nations for the age of consent (18 years) so this applies on World Bank financed projects.
182
Survivor/Survivors: the person(s) adversely affected by GBV or VAC. Women, men and children can
be survivors of GBV; children can be survivors of VAC.
Work Site: is the area in which infrastructure development works are being conducted, as part of the
project. Consulting assignments are considered to have the areas in which they are active as their
work sites.
Work Site Surroundings: is the ‘Project Area of Influence’ which are any area, urban or rural, directly
affected by the project, including all human settlements found on it.
Codes of Conduct
This chapter presents three Codes of Conduct for use:
i. Company Code of Conduct: Commits the company to addressing GBV and VAC issues;
ii. Manager’s Code of Conduct: Commits managers to implementing the Company Code of
Conduct, as well as those signed by individuals; and,
iii. Individual Code of Conduct: Code of Conduct for everyone working on the project, including
managers.
183
Company Code of Conduct
Implementing ESHS and OHS Standards
Preventing Gender Based Violence and Violence Against Children
The company is committed to ensuring that the project is implemented in such a way which minimizes
any negative impacts on the local environment, communities, and its workers. This will be done by
respecting the environmental, social, health and safety (ESHS) standards, and ensuring appropriate
occupational health and safety (OHS) standards are met. The company is also committed to creating
and maintaining an environment in which gender based violence (GBV) and violence against children
(VAC) have no place, and where they will not be tolerated by any employee, sub-contractors, supplier,
associate, or representative of the company.
Therefore, to ensure that all those engaged in the project are aware of this commitment, the company
commits to the following core principles and minimum standards of behavior that will apply to all
company employees, associates, and representatives, including sub-contractors and suppliers,
without exception:
General
1. The company—and therefore all employees, associates, representatives, sub-contractors and
suppliers—commits to complying with all relevant national laws, rules and regulations.
2. The company commits to full implementing its ‘Contractors Environmental and Social
Management Plan’ (CESMP).
3. The company commits to treating women, children (persons under the age of 18), and men with
respect regardless of race, color, language, religion, political or other opinion, national, ethnic or
social origin, property, disability, birth or other status. Acts of GBV and VAC are in violation of this
commitment.
4. The company shall ensure that interactions with local community members are done with respect
and non-discrimination.
5. Demeaning, threatening, harassing, abusive, culturally inappropriate, or sexually provocative
language and behavior are prohibited among all company employees, associates, and its
representatives, including sub-contractors and suppliers.
6. The company will follow all reasonable work instructions (including regarding environmental and
social norms).
7. The company will protect and ensure proper use of property (for example, to prohibit theft,
carelessness, or waste).
Health and Safety
8. The company will ensure that the project’s occupational health and safety (OHS) Management
Plan is effectively implemented by company staff, as well as sub-contractors and suppliers.
9. The company will ensure that all persons on-site wear prescribed and appropriate personal
protective equipment, preventing avoidable accidents and reporting conditions or practices that
pose a safety hazard or threaten the environment.
184
10. The company will:
i. prohibit the use of alcohol during work activities.
ii. prohibit the use of narcotics or other substances which can always impair faculties.
11. The company will ensure that adequate sanitation facilities are available on site and at any worker
accommodations provided to those working on the project.
Gender Based Violence and Violence Against Children
12. Acts of GBV or VAC constitute gross misconduct and are therefore grounds for sanctions, which
may include penalties and/or termination of employment, and if appropriate referral to the Police
for further action.
13. All forms of GBV and VAC, including grooming are unacceptable, regardless of whether they take
place on the work site, the work site surroundings, at worker’s camps or within the local
community.
i. Sexual Harassment—for instance, making unwelcome sexual advances, requests for sexual
favors, and other verbal or physical conduct, of a sexual nature, including subtle acts of
such behavior, is prohibited.
ii. Sexual favors —for instance, making promises or favorable treatment dependent on sexual
acts—or other forms of humiliating, degrading or exploitative behavior are prohibited.
14. Sexual contact or activity with children under 18—including through digital media—is
7prohibited. Mistaken belief regarding the age of a child is not a defense. Consent from the child
is also not a defense or excuse.
15. Unless there is full consent14 by all parties invoLVed in the sexual act, sexual interactions between
the company’s employees (at any level) and members of the communities surrounding the work
lace are prohibited. This includes relationships invoLVing the withholding/promise of actual
provision of benefit (monetary or non-monetary) to community members in exchange for sex—
such sexual activity is considered “non-consensual” within the scope of this Code.
16. In addition to company sanctions, legal prosecution of those who commit acts of GBV or VAC will
be pursued if appropriate.
17. All employees, including volunteers and sub-contractors are highly encouraged to report
suspected or actual acts of GBV and/or VAC by a fellow worker, whether in the same company or
not. Reports must be made in accordance with project’s GBV and VAC Allegation Procedures.
18. Managers are required to report and act to address suspected or actual acts of GBV and/or VAC
as they have a responsibility to uphold company commitments and hold their direct reports
responsible.
14 Consent is defined as the informed choice underlying an individual’s free and voluntary intention, acceptance or agreement to do something. No consent can be found when such acceptance or agreement is obtained using threats, force or other forms of coercion, abduction, fraud, deception, or misrepresentation. In accordance with the United Nations Convention on the Rights of the Child, the World Bank considers that consent cannot be given by children under the age of 18, even if national legislation of the country into which the Code of Conduct is introduced has a lower age. Mistaken belief regarding the age of the child and consent from the child is not a defense.
185
Implementation
To ensure that the above principles are implemented effectively the company commits to ensuring
that:
19. All managers sign the project’s ‘Manager’s Code of Conduct’ detailing their responsibilities for
implementing the company’s commitments and enforcing the responsibilities in the ‘Individual
Code of Conduct’.
20. All employees sign the project’s ‘Individual Code of Conduct’ confirming their agreement to
comply with ESHS and OHS standards, and not to engage in activities resulting in GBV or VAC.
21. Displaying the Company and Individual Codes of Conduct prominently and in clear view at
workers’ camps, offices, and in in public areas of the workspace. Examples of areas include
waiting, rest and lobby areas of sites, canteen areas and health clinics.
22. Ensure that posted and distributed copies of the Company and Individual Codes of Conduct are
translated into the appropriate language of use in the work site areas as well as for any
international staff in their native language.
23. An appropriate person is nominated as the company’s ‘Focal Point’ for addressing GBV and VAC
issues, including representing the company on the GBV and VAC Compliance Team (GCCT) which
is comprised of representatives from the client, contractor(s), the supervision consultant, and
local service provider(s).
24. Ensuring that an effective GBV and VAC Action Plan is developed in consultation with the GCCT
which includes as a minimum:
i. GBV and VAC Allegation Procedure to report GBV and VAC issues through the project
Grievance Redress Mechanism (Section 4.3 Action Plan);
ii. Accountability Measures to protect confidentiality of all invoLVed (Section 4.4 Action
Plan); and,
iii. Response Protocol applicable to GBV and VAC survivors and perpetrators (Section 4.7
Action Plan).
25. That the company effectively implements the agreed final GBV and VAC Action Plan, providing
feedback to the GCCT for improvements and updates as appropriate.
26. All employees attend an induction training course prior to commencing work on site to ensure
they are familiar with the company’s commitments to ESHS and OHS standards, and the project’s
GBV and VAC Codes of Conduct.
27. All employees attend a mandatory training course once a month for the duration of the contract
starting from the first induction training prior to commencement of work to reinforce the
understanding of the project’s ESHS and OHS standards and the GBV and VAC Code of Conduct.
I do hereby acknowledge that I have read the foregoing Company Code of Conduct, and on behalf of
the company agree to comply with the standards contained therein. I understand my role and
responsibilities to support the project’s OHS and ESHS standards, and to prevent and respond to GBV
and VAC. I understand that any action inconsistent with this Company Code of Conduct or failure to
act mandated by this Company Code of Conduct may result in disciplinary action.
186
Company name: _________________________
Signature: _________________________
Printed Name: _________________________
Title: _________________________
Date: _________________________
187
Manager’s Code of Conduct
Implementing ESHS and OHS Standards
Preventing Gender Based Violence and Violence Against Children
Managers at all levels have a responsibility to uphold the company’s commitment to implementing
the ESHS and OHS standards, and preventing and addressing GBV and VAC. This means that managers
have an acute responsibility to create and maintain an environment that respects these standards and
prevents GBV and VAC. Managers need to support and promote the implementation of the Company
Code of Conduct. To that end, managers must adhere to this Manager’s Code of Conduct and sign the
Individual Code of Conduct. This commits them to supporting the implementation of the CESMP and
the OHS Management Plan and developing systems that facilitate the implementation of the GBV and
VAC Action Plan. They need to maintain a safe workplace, as well as a GBV-free and VAC-free
environment at the workplace and in the local community. These responsibilities include but are not
limited to:
Implementation
1. To ensure maximum effectiveness of the Company and Individual Codes of Conduct:
i. Prominently displaying the Company and Individual Codes of Conduct in clear view at
workers’ camps, offices, and in public areas of the workspace. Examples of areas include
waiting, rest and lobby areas of sites, canteen areas and health clinics.
ii. Ensuring all posted and distributed copies of the Company and Individual Codes of Conduct
are translated into the appropriate language of use in the work site areas as well as for any
international staff in their native language.
2. Verbally and in writing explain the Company and Individual Codes of Conduct to all staff.
3. Ensure that:
i. All direct reports sign the ‘Individual Code of Conduct’, including acknowledgment that
they have read and agree with the Code of Conduct.
ii. Staff lists and signed copies of the Individual Code of Conduct are provided to the OHS
Manager, the GCCT, and the client.
iii. Participate in training and ensure that staff also participate as outlined below.
iv. Put in place a mechanism for staff to:
(a) report concerns on ESHS or OHS compliance; and,
(b) confidentially report GBV or VAC incidents through the Grievance Redress
Mechanism (GRM)
v. Staff are encouraged to report suspected or actual ESHS, OHS, GBV or VAC issues,
emphasizing the staff’s responsibility to the Company and the country hosting their
employment, and emphasizing the respect for confidentiality.
4. In compliance with applicable laws and to the best of your abilities, prevent perpetrators of sexual
exploitation and abuse from being hired, re-hired, or deployed. Use background and criminal
reference checks for all employees.
5. Ensure that when engaging in partnership, sub-contractor, supplier or similar agreements, these
agreements:
i. Incorporate the ESHS, OHS, GBV and VAC Codes of Conduct as an attachment.
188
ii. Include the appropriate language requiring such contracting entities and individuals, and
their employees and volunteers, to comply with the Individual Codes of Conduct.
iii. Expressly state that the failure of those entities or individuals, as appropriate, to ensure
compliance with the ESHS and OHS standards, take preventive measures against GBV and
VAC, to investigate allegations thereof, or to take corrective actions when GBV or VAC has
occurred, shall not only constitute grounds for sanctions and penalties in accordance with
the Individual Codes of Conduct but also termination of agreements to work on or supply
the project.
6. Provide support and resources to the GCCT to create and disseminate internal sensitization
initiatives through the awareness-raising strategy under the GBV and VAC Action Plan.
7. Ensure that any GBV or VAC issue warranting Police action is reported to the Police, the client and
the World Bank immediately.
8. Report and act according to the response protocol (Section 4.7 Response Protocol) any suspected
or actual acts of GBV and/or VAC as managers have a responsibility to uphold company
commitments and hold their direct reports responsible.
9. Ensure that any major ESHS or OHS incidents are reported to the client and the supervision
engineer immediately.
Training
10. The managers are responsible to:
i. Ensure that the OHS Management Plan is implemented, with suitable training required for
all staff, including sub-contractors and suppliers; and,
ii. Ensure that staff have a suitable understanding of the CESMP and are trained as
appropriate to implement the CESMP requirements.
11. All managers are required to attend an induction manager training course prior to commencing
work on site to ensure that they are familiar with their roles and responsibilities in upholding the
GBV and VAC elements of these Codes of Conduct. This training will be separate from the
induction training course required of all employees and will provide managers with the necessary
understanding and technical support needed to begin to develop the GBV and VAC Action Plan
for addressing GBV and VAC issues.
12. Managers are required to attend and assist with the project facilitated monthly training courses
for all employees. Managers will be required to introduce the trainings and announce the self-
evaluations, including collecting satisfaction surveys to evaluate training experiences and provide
advice on improving the effectiveness of training.
13. Ensure that time is provided during work hours and that staff prior to commencing work on site
attend the mandatory project facilitated induction training on:
i. OHS and ESHS; and,
ii. GBV and VAC required of all employees.
14. During civil works, ensure that staff attend ongoing OHS and ESHS training, as well as the monthly
mandatory refresher training course required of all employees to combat increased risk of GBV
and VAC.
189
Response
15. Managers will be required to take appropriate actions to address any ESHS or OHS incidents.
16. With regard to GBV and VAC:
i. Provide input to the GBV and VAC Allegation Procedures (Section 4.2 Action Plan) and
Response Protocol (Section 4.7 Action Plan) developed by the GCCT as part of the final
cleared GBV and VAC Action Plan.
ii. Once adopted by the Company, managers will uphold the Accountability Measures
(Section 4.4 Action Plan) set forth in the GBV and VAC Action Plan to maintain the
confidentiality of all employees who report or (allegedly) perpetrate incidences of GBV and
VAC (unless a breach of confidentiality is required to protect persons or property from
serious harm or where required by law).
iii. If a manager develops concerns or suspicions regarding any form of GBV or VAC by one of
his/her direct reports, or by an employee working for another contractor on the same work
site, s/he is required to report the case using the GRM.
iv. Once a sanction has been determined, the relevant manager(s) is/are expected to be
personally responsible for ensuring that the measure is effectively enforced, within a
maximum timeframe of 14 days from the date on which the decision to sanction was
made
v. If a Manager has a conflict of interest due to personal or familial relationships with the
survivor and/or perpetrator, he/she must notify the respective company and the GCCT.
The Company will be required to appoint another manager without a conflict of interest
to respond to complaints.
vi. Ensure that any GBV or VAC issue warranting Police action is reported to the Police, the
client and the World Bank immediately
17. Managers failing to address ESHS or OHS incidents or failing to report or comply with the GBV
and VAC provisions may be subject to disciplinary measures, to be determined and enacted by
the company’s CEO, Managing Director, or equivalent highest-ranking manager. Those measures
may include:
i. Informal warning.
ii. Formal warning.
iii. Additional Training.
iv. Loss of up to one week's salary.
v. Suspension of employment (without payment of salary), for a minimum period of 1
month up to a maximum of 6 months.
vi. Termination of employment.
18. Ultimately, failure to effectively respond to ESHS, OHS, GBV and VAC cases on the work site by
the company’s managers or CEO may provide grounds for legal actions by authorities.
I do hereby acknowledge that I have read the foregoing Manager’s Code of Conduct, do agree to
comply with the standards contained therein and understand my roles and responsibilities to prevent
and respond to ESHS, OHS, GBV and VAC requirements. I understand that any action inconsistent with
190
this Manager’s Code of Conduct or failure to act mandated by this Manager’s Code of Conduct may
result in disciplinary action.
Signature: _________________________
Printed Name: _________________________
Title: _________________________
Date: _________________________
191
Individual Code of Conduct
Implementing ESHS and OHS Standards
Preventing Gender Based Violence and Violence Against Children
I, ______________________________, acknowledge that adhering to environmental, social health
and safety (ESHS) standards, following the project’s occupational health and safety (OHS)
requirements, and preventing gender based violence (GBV) and violence against children (VAC) is
important.
The company considers that failure to follow ESHS and OHS standards, or to partake in GBV or VAC
activities—be it on the work site, the work site surroundings, at workers’ camps, or the surrounding
communities—constitute acts of gross misconduct and are therefore grounds for sanctions, penalties
or potential termination of employment. Prosecution by the Police of those who commit GBV or VAC
may be pursued if appropriate.
I agree that while working on the project I will:
1. Attend and actively partake in training courses related to ESHS, OHS, HIV/AIDS, GBV and VAC as
requested by my employer.
2. Will wear my personal protective equipment (PPE) at all times when at the work site or engaged
in project related activities.
3. Take all practical steps to implement the contractor’s environmental and social management plan
(CESMP).
4. Implement the OHS Management Plan.
5. Adhere to a zero-alcohol policy during work activities, and refrain from the use of narcotics or
other substances which can impair faculties at all times.
6. Consent to Police background check.
7. Treat women, children (persons under the age of 18), and men with respect regardless of race,
color, language, religion, political or other opinion, national, ethnic or social origin, property,
disability, birth or other status.
8. Not use language or behavior towards women, children or men that is inappropriate, harassing,
abusive, sexually provocative, demeaning or culturally inappropriate.
9. Not engage in sexual harassment—for instance, making unwelcome sexual advances, requests
for sexual favors, and other verbal or physical conduct, of a sexual nature, including subtle acts
of such behavior (e.g. looking somebody up and down; kissing, howling or smacking sounds;
hanging around somebody; whistling and catcalls; giving personal gifts; making comments about
somebody’s sex life; etc.).
10. Not engage in sexual favors—for instance, making promises or favorable treatment dependent
on sexual acts—or other forms of humiliating, degrading or exploitative behavior.
11. Not participate in sexual contact or activity with children—including grooming, or contact
through digital media. Mistaken belief regarding the age of a child is not a defense. Consent from
the child is also not a defense or excuse.
192
12. Unless there is the full consent15 by all parties involved, I will not have sexual interactions with
members of the surrounding communities. This includes relationships involving the withholding
or promise of actual provision of benefit (monetary or non-monetary) to community members in
exchange for sex—such sexual activity is considered “non-consensual” within the scope of this
Code.
13. Consider reporting through the GRM or to my manager any suspected or actual GBV or VAC by a
fellow worker, whether employed by my company or not, or any breaches of this Code of
Conduct.
Regarding children under the age of 18:
14. Wherever possible, ensure that another adult is present when working in the proximity of
children.
15. Not invite unaccompanied children unrelated to my family into my home unless they are at
immediate risk of injury or in physical danger.
16. Not use any computers, mobile phones, video, and digital cameras or any other medium to
exploit or harass children or to access child pornography (see also “Use of children's images for
work related purposes” below).
17. Refrain from physical punishment or discipline of children.
18. Refrain from hiring children for domestic or other labor below the minimum age of 14 unless
national law specifies a higher age, or which places them at significant risk of injury.
19. Comply with all relevant local legislation, including labor laws in relation to child labor and World
Bank’s safeguard policies on child labor and minimum age.
20. Take appropriate caution when photographing or filming children (See Annex 2 for details).
Use of children's images for work related purposes
When photographing or filming a child for work related purposes, I must:
21. Before photographing or filming a child, assess and endeavor to comply with local traditions or
restrictions for reproducing personal images.
22. Before photographing or filming a child, obtain informed consent from the child and a parent or
guardian of the child. As part of this I must explain how the photograph or film will be used.
23. Ensure photographs, films, videos, and DVDs present children in a dignified and respectful
manner and not in a vulnerable or submissive manner. Children should be adequately clothed
and not in poses that could be seen as sexually suggestive.
24. Ensure images are honest representations of the context and the facts.
25. Ensure file labels do not reveal identifying information about a child when sending images
electronically.
Sanctions
15 Consent is defined as the informed choice underlying an individual’s free and voluntary intention, acceptance or agreement to do something. No consent can be found when such acceptance or agreement is obtained using threats, force or other forms of coercion, abduction, fraud, deception, or misrepresentation. In accordance with the United Nations Convention on the Rights of the Child, the World Bank considers that consent cannot be given by children under the age of 18, even if national legislation of the country into which the Code of Conduct is introduced has a lower age. Mistaken belief regarding the age of the child and consent from the child is not a defense.
193
I understand that if I breach this Individual Code of Conduct, my employer will take disciplinary action
which could include:
1. Informal warning.
2. Formal warning.
3. Additional Training.
4. Loss of up to one week’s salary.
5. Suspension of employment (without payment of salary), for a minimum period of 1 month up to
a maximum of 6 months.
6. Termination of employment.
7. Report to the Police if warranted.
I understand that it is my responsibility to ensure that the environmental, social, health and safety
standards are met. That I will adhere to the occupational health and safety management plan. That I
will avoid actions or behaviors that could be construed as GBV or VAC. Any such actions will be a breach
this Individual Code of Conduct. I do hereby acknowledge that I have read the foregoing Individual
Code of Conduct, do agree to comply with the standards contained therein and understand my roles
and responsibilities to prevent and respond to ESHS, OHS, GBV and VAC issues. I understand that any
action inconsistent with this Individual Code of Conduct or failure to act mandated by this Individual
Code of Conduct may result in disciplinary action and may affect my ongoing employment.
Signature: _________________________
Printed Name: _________________________
Title: _________________________
Date: _________________________
194
GBV and VAC Action Plan
4.1 The GBV and VAC Compliance Team
The project shall establish a ‘GBV and VAC Compliance Team’ (GCCT). The GCCT will include, as
appropriate to the project, at least four representatives (‘Focal Points’) as follows:
i. A safeguards specialist from the client;
ii. The occupational health and safety manager from the contractor16, or someone else tasked
with the responsibility for addressing GBV and VAC with the time and seniority to devote to
the position;
iii. The supervision consultant; and,
iv. A representative from a local service provider with experience in GBV and VAC (the ‘Service
Provider’).
It will be the duty of the GCCT with support from the management of the contractor to inform workers
about the activities and responsibilities of the GCCT. To effectively serve on the GCCT, members must
undergo training by the local service provider prior to the commencement of their assignment to
ensure that they are sensitized on GBV and Child Protection.
The GCCT will be required to:
i. Approve any changes to the GBV and VAC Codes of Conduct contained in this document, with
clearances from the World Bank for any such changes.
ii. Prepare the GBV and VAC Action Plan reflecting the Codes of Conduct which includes:
(a) GBV and VAC Allegation Procedures (See 4.2)
(b) Accountability Measures (See 4.4)
(c) An Awareness raising Strategy (See 4.6)
(d) A Response Protocol (See 4.7)
iii. Obtain approval of the GBV and VAC Action Plan by the contractor’s management;
iv. Obtain client and World Bank clearances for the GBV and VAC Action Plan prior to full
mobilization;
v. Receive and monitor resolutions and sanctions regarding complaints received related to GBV
and VAC associated with the project; and,
vi. Ensure that GBV and VAC statistics in the GRM are up to date and included in the regular
project reports.
The GCCT shall hold quarterly update meetings to discuss ways to strengthen resources and GBV and
VAC support for employees and community members.
4.2 Making Complaints: GBV and VAC Allegation Procedures
All staff, volunteers, consultants and sub-contractors are encouraged to report suspected or actual
GBV or VAC cases. Managers are required to report suspected or actual GBV and/or VAC cases as they
16 Where there are multiple contractors working on the project, each shall nominate a representative as appropriate.
195
have responsibilities to uphold company commitments and they hold their direct reports accountable
for complying with the Individual Code of Conduct.
The project will provide information to employees and the community on how to report cases of GBV
and VAC Code of Conduct breaches through the Grievance Redress Mechanism (GRM). The GCCT will
follow up on cases of GBV, VAC and Code of Conduct breaches reported through the GRM.
4.3 Addressing Complaints about GBV or VAC
The figure below shows the process for addressing complaints based on the example of the Vanuatu
Aviation Investment Project (VAIP).
Note: VPMU is the Vanuatu Project Management Unit (VPMU) responsible for the implementation of
VAIP.
GRM
The project operates a grievance redress mechanism (GRM) which is managed by a designated GRM
operator with the project implementation unit. Reports of GBV or VAC, other complaints, or other
concerns may be submitted online, via telephone or mail, or in person.
All complaints regarding GBV and VAC must immediately be reported to the World Bank task team by
the GRM operator.
The GRM operator will refer complaints related to GBV or VAC to the GCCT to resoLVe them. In
accordance with the GBV and VAC Action Plan, the GCCT through the Service Provider and Focal
Point(s) will investigate the complaint and ultimately provide the GRM operator with a resolution to
196
the complaint, or the Police if necessary. The victim’s confidentiality should also be kept in mind when
reporting any incidences to the Police.
The GRM operator will, upon resolution, advise the complainant of the outcome, unless it was made
anonymously. Complaints made to managers or the Service Provider will be referred by them to the
GRM for processing.
If the complaint to the GRM is made by a survivor or on behalf of a survivor, the complainant will be
directly referred to the service provider to receive support services while the GCCT investigates the
complaint in parallel.
Service Provider
The Service Provider is a local organization which has the experience and ability to support survivors
of GBV or VAC. The client, the contractor(s) and consultant must establish a working relationship with
the Service Provider, so that GBV and VAC cases can safely be referred to them. The Service Provider
will also provide support and guidance to the GBV and VAC Focal Points as necessary. The Service
Provider will have a representative on the GCCT and be involved in resolving complaints related to
GBV or VAC.
GCCT GBV and VAC Focal Points
The GCCT shall confirm that all complaints related to GBV or VAC have been referred to the World
Bank by the GRM operator.
The GCCT shall consider all GBV and VAC complaints and agree on a plan for resolution. The
appropriate
Focal Point will be tasked with implementing the plan (i.e. issues with contractor’s staff will be for the
contractor to resolve; consultant’s staff the consultant; and client staff the client). The Focal Point will
advise the GCCT on resolution, including referral to the Police if necessary. They will be assisted by the
Service Provider as appropriate.
All the Focal Points on the GCCT must be trained and empowered to resolve GBV and VAC issues. It is
essential that all staff of the GRM and GCCT understand the guiding principles and ethical requirement
of dealing with survivors of GBV and VAC. All reports should be kept confidential and referred
immediately to the Service Provider represented on the GCCT17. In GBV and VAC cases warranting
Police action, the Focal Points must appropriately refer the complaint to: (i) the authorities; (ii) the
Service Provider; and, (iii) management for further action. The client and the World Bank are to be
immediately notified.
4.4 Accountability Measures
All reports of GBV or VAC shall be handled in a confidential manner to protect the rights of all involved.
The client, contractor and consultant must maintain the confidentiality of employees who notify any
17 Survivors of GBV and VAC may need access to Police, justice, health, psychosocial, safe shelter and livelihood services to begin on a path of healing from their experience of violence.
197
acts or threats of violence, and of any employees accused of engaging in any acts or threats of violence
(unless a breach of confidentiality is required to protect persons or property from serious harm or
where required by law). The contractor and consultant must prohibit discrimination or adverse action
against an employee because of survivor’s disclosure, experience or perceived experience of GBV or
VAC (see Annex 1 for examples of actions to maintain accountability).
To ensure that survivors feel confident to disclose their experience of GBV or VAC, they can report
cases of GBV or VAC through multiple channels: (i) online, (ii) phone, (iii) in-person, (iv) the local service
provider, (v) the manager(s), (vi) village councils; or, (vii) the Police. To ensure confidentiality, only the
service provider will be privy to information regarding the survivor. The GCCT will be the primary point
of contact for information and follow up regarding the perpetrator.
4.5 Monitoring and Evaluation
The GCCT must monitor the follow up of cases that have been reported and maintain all reported
cases in a confidential and secure location. Monitoring must collect the number of cases that have
been reported and the share of them that are being managed by Police, NGOs etc.
These statistics shall be reported to the GRM and the Supervision Engineer for inclusion in their
reporting.
For any GBV and VAC cases warranting Police action, the client and the World Bank are to be
immediately notified.
4.6 Awareness-raising Strategy
It is important to create an Awareness-raising Strategy with activities aimed to sensitize employees on
GBV and VAC on the work site and its related risks, provisions of the GBV and VAC Codes of Conduct,
GBV and VAC Allegation Procedures, Accountability Measures and Response Protocol. The strategy
will be accompanied by a timeline, indicating the various sensitization activities through which the
strategy will be implemented and the related (expected) delivery dates. Awareness-raising activities
should be linked with trainings provided by the Service Provider.
4.7 Response Protocol
The GCCT will be responsible for developing a written response18 protocol to meet the project
requirements, in accordance to national laws and protocols. The response protocol must include
mechanisms to notify and respond to perpetrators in the workplace (See 4.9 for Perpetrator Policy
and Response). The response protocol will include the GRM process to ensure competent and
confidential response to disclosures of GBV and VAC. An employee who discloses a case of GBV or VAC
in the workplace shall be referred to the GRM for reporting.
4.8 Survivor Support Measures
18 Develop appropriate protocol for written recording of GBV issues and VAC raised in case the notes are subpoenaed. Develop processes
for record keeping including activities undertaken by the GCCT.
198
It is essential to appropriately respond to the survivor’s complaint by respecting the survivor’s choices
to minimize the potential for re-traumatization and further violence against the survivor. Refer the
survivor to the Service Provider to obtain appropriate support services in the community—including
medical and psychosocial support, emergency accommodation, security including Police protection
and livelihood support—by facilitating contact and coordination with these services. The client,
contractor or consultant may, where feasible, provide financial and other supports to survivors of GBV
or VAC for these services (see Annex 1 for examples of financial support).
If the survivor is an employee, to ensure the safety of the survivor, and the workplace in general, the
client, contractor or consultant, in consultation with the survivor, will assess the risk of ongoing abuse
to the survivor and in the workplace. Reasonable adjustments will be made to the survivor’s work
schedule and work environment as deemed necessary (see Annex 1 for examples of safety measures).
The employer will provide adequate leave to survivors seeking services after experiencing violence
(see Annex 1 for details).
4.9 Perpetrator Policy and Response
Encourage and accept notification through the GRM from employees and community members about
perpetrators in the workplace. Through the GCCT and/or the Service Provider, oversee the
investigation of these grievances, ensuring procedural fairness for the accused, and within the local
laws. If an employee has breached the Code of Conduct, the employer will act which could include:
i. Undertake disciplinary action up in accordance with sanctions in the GBV and VAC Codes of
Conduct;
ii. Report the perpetrator to the Police as per local legal paradigms; and/or
iii. If feasible, provide or facilitate counselling for the perpetrator.
5.0 Sanctions
In accordance with the Code of Conduct, any employee confirmed as a GBV or VAC perpetrator shall
be considered for disciplinary measures in line with sanctions and practices as agreed in the Individual
Code of Conduct (see Annex 1 for examples of sanctions). It is important to note that, for each case,
disciplinary sanctions are intended to be part of a process that is entirely internal to the employer, is
placed under the full control and responsibility of its managers, and is conducted in accordance with
the applicable national labor legislation.
Such process is expected to be fully independent from any official investigation that competent
authorities (e.g. Police) may decide to conduct in relationship to the same case, and in accordance
with the applicable national law. Similarly, internal disciplinary measures that the employer’s
managers may decide to enact are meant to be separate from any charges or sanctions that the official
investigation may result into (e.g. monetary fines, detention etc.).
199
Codes of Conduct Annex 1 - Potential Procedures for Addressing GBV and VAC
Accountability Measures to maintain confidentiality can be achieved through the following actions:
1. Inform all employees that confidentiality of GBV/VAC survivors’ personal information is of utmost
importance.
2. Provide the GCCT with training on empathetic and non-judgmental listening.
3. Take disciplinary action, including and up to dismissal, against those who breach survivor’s
confidentiality (this is unless a breach of confidentiality is necessary to protect the survivor or
another person from serious harm, or where required by law).
GBV and VAC Allegation Procedures should specify:
1. Who survivors can seek information and assistance from.
2. The process for community members and employees to lodge a complaint through the GRM
should there be alleged GBV or VAC.
3. The mechanism for how community members and employees can escalate a request for support
or notification of violence if the process for reporting is ineffective due to unavailability or non-
responsiveness, or if the employee’s concern in not resolved.
Financial and Other Supports to survivors can include:
1. No/low interest loans.
2. Salary advances.
3. Direct payment of medical costs.
4. Coverage of all medical costs related specifically to the incident.
5. Upfront payments for medical costs to later be recouped from the employee’s health insurance.
6. Providing or facilitating access to childcare.
7. Providing security upgrades to the employee’s home.
8. Providing safe transportation to access support services or to and from accommodation.
Based on the rights, needs, and wishes of the survivor, survivor support measures to ensure the
safety of the survivor who is an employee can include19:
1. Changing the perpetrator or survivor’s span of hours or pattern of hours and/or shift patterns.
2. Redesigning or changing the perpetrator or survivor’s duties.
3. Changing the survivor’s telephone number or email address to avoid harassing contact.
4. Relocating the survivor or perpetrator to another work site/ alternative premises.
5. Providing safe transportation to and from work for a specified period.
6. Supporting the survivor to apply for an Interim Protection Order or referring them to appropriate
support.
7. Taking any other appropriate measures including those available under existing provisions for
family friendly and flexible work arrangements.
19 It is critical that a survivor centered approach be adopted. The survivor should be fully involved in the decision making. Except for exceptional circumstances the perpetrator should be required to take appropriate actions to accommodate the survivor (e.g. move, change hours, etc.), rather than the survivor changing.
200
Leave options for survivors that are employees can include:
1. An employee experiencing GBV should be able to request paid special leave to attend medical or
psychosocial appointments, legal proceedings, relocation to safe accommodation and other
activities related to GBV.
2. An employee who supports a person experiencing GBV or VAC may take care givers leave, including
but not limited to accompanying them to court or hospital, or to take care of children.
3. Employees who are employed in a casual capacity may request unpaid special leave or unpaid care
givers leave to undertake the activities described above.
4. The amount of leave provided will be determine by the individual’s situation through consultations
with the employee, the management and the GCCT where appropriate.
Potential Sanctions to employees who are perpetrators of GBV, and VAC include:
1. Informal warning
2. Formal warning
3. Additional Training
4. Loss of up to one week’s salary.
5. Suspension of employment (without payment of salary), for a minimum period of 1 month up to
a maximum of 6 months.
6. Termination of employment.
Referral to the Police or other authorities as warranted.
208
Appendix 10: Technical Note: Public Consultations and Stakeholder Engagement in WB-Supported Operations when there are Constraints on Conducting Public Meetings
With the outbreak and spread of COVID-19, people have been advised, or may be mandated by
national or local law, to exercise social distancing, and specifically to avoid public gatherings to prevent
and reduce the risk of the virus transmission. Countries have taken various restrictive measures, some
imposing strict restrictions on public gatherings, meetings and people’s movement, and others
advising against public group events. At the same time, the general public has become increasingly
aware and concerned about the risks of transmission, particularly through social interactions at large
gatherings.
These restrictions have implications for World Bank-supported operations. In particular, they will
affect Bank requirements for public consultation and stakeholder engagement in projects, both under
implementation and preparation. WHO has issued technical guidance in dealing with COVID-19,
including: (i) Risk Communication and Community Engagement (RCCE) Action Plan Guidance
Preparedness and Response; (ii) Risk Communication and Community engagement (RCCE) readiness
and response; (iii) COVID-19 risk communication package for healthcare facilities; (iv) Getting your
workplace ready for COVID-19; and (v) a guide to preventing and addressing social stigma associated
with COVID-19. All these documents are available on the WHO website through the following link:
https://www.who.int/emergencies/diseases/novel-coronavirus-2019/technical-guidance.
This Note offers suggestions to World Bank task teams for advising counterpart agencies on managing
public consultation and stakeholder engagement in their projects, with the recognition that the
situation is developing rapidly and careful regard needs to be given to national requirements and any
updated guidance issued by WHO. It is important that the alternative ways of managing consultation
and stakeholder engagement discussed with clients are in accordance with the local applicable laws
and policies, especially those related to media and communication. The suggestions set out below
are subject to confirmation that they are in accordance with existing laws and regulations applying to
the project.
Investment projects under implementation. All projects under implementation are likely to have
public consultation and stakeholder engagement activities planned and committed as part of project
design. These activities may be described in different project documents and will involve a variety of
stakeholders. Commonly planned avenues of such engagement are public hearings, community
meetings, focus group discussions, field surveys and individual interviews. With growing concern
about the risk of virus spread, there is an urgent need to adjust the approach and methodology for
continuing stakeholder consultation and engagement. Taking into account theimportance of
confirming compliance with national law requirements, below are some suggestions for task teams’
consideration while advising their clients:
Task teams will need to review their project, jointly with the PMUs, and should:
Identify and review planned activities under the project requiring stakeholder engagement and public
consultations.
209
• Assess the level of proposed direct engagement with stakeholders, including location and size of
proposed gatherings, frequency of engagement, categories of stakeholders (international, national,
local) etc.
• Assess the level of risks of the virus transmission for these engagements, and how restrictions that
are in effect in the country / project area would affect these engagements.
• Identify project activities for which consultation/engagement is critical and cannot be postponed
without having significant impact on project timelines. For example, selection of resettlement options
by affected people during project implementation. Reflecting the specific activity, consider viable
means of achieving the necessary input from stakeholders (see further below).
• Assess the level of ICT penetration among key stakeholder groups, to identify the type of
communication channels that can be effectively used in the project context.
Based on the above, task teams should discuss and agree with PMUs the specific channels of
communication that should be used while conducting stakeholder consultation and engagement
activities. The following are some considerations while selecting channels of communication, in light
of the current COVID-19 situation:
• Avoid public gatherings (taking into account national restrictions), including public hearings,
workshops and community meetings;
• If smaller meetings are permitted, conduct consultations in small-group sessions, such as focus
group meetings If not permitted, make all reasonable efforts to conduct meetings through online
channels, including webex, zoom and skype;
• Diversify means of communication and rely more on social media and online channels. Where
possible and appropriate, create dedicated online platforms and chatgroups appropriate for the
purpose, based on the type and category of stakeholders;
• Employ traditional channels of communications (TV, newspaper, radio, dedicated phone-lines, and
mail) when stakeholders to do not have access to online channels or do not use them frequently.
Traditional channels can also be highly effective in conveying relevant information to stakeholders,
and allow them to provide their feedback and suggestions;
• Where direct engagement with project affected people or beneficiaries is necessary, such as would
be the case for Resettlement Action Plans or Indigenous Peoples Plans preparation and
implementation, identify channels for direct communication with each affected household via a
context specific combination of email messages, mail, online platforms, dedicated phone lines with
knowledgeable operators;
• Each of the proposed channels of engagement should clearly specify how feedback and suggestions
can be provided by stakeholders;
• An appropriate approach to conducting stakeholder engagement can be developed in most contexts
and situations. However, in situations where none of the above means of communication are
considered adequate for required consultations with stakeholders, the team should discuss with the
PMU whether the project activity can be rescheduled to a later time, when meaningful stakeholder
engagement is possible. Where it is not possible to postpone the activity (such as in the case of
210
ongoing resettlement) or where the postponement is likely to be for more than a few weeks, the task
team should consult with the OESRC to obtain advice and guidance.
Investment projects under preparation. Where projects are under preparation and stakeholder
engagement is about to commence or is ongoing, such as in the project E&S planning process,
stakeholder consultation and engagement activities should not be deferred, but rather designed to be
fit for purpose to ensure effective and meaningful consultations to meet project and stakeholder
needs. Some suggestions for advising clients on stakeholder engagement in such situations are given
below. These suggestions are subject to the coronavirus situation in country, and restrictions put in
place by governments. The task team and the PMU should:
• Review the country COVID-19 spread situation in the project area, and the restrictions put in place
by the government to contain virus spread;
• Review the draft Stakeholder Engagement Plan (SEP, if it exists) or other agreed stakeholder
engagement arrangements, particularly the approach, methods and forms of engagement proposed,
and assess the associated potential risks of virus transmission in conducting various engagement
activities;
• Be sure that all task team and PIU members articulate and express their understandings on social
behavior and good hygiene practices, and that any stakeholder engagement events be preceded with
the procedure of articulating such hygienic practices.
• Avoid public gatherings (taking into account national restrictions), including public hearings,
workshops and community meetings, and minimize direct interaction between project agencies and
beneficiaries / affected people;
• If smaller meetings are permitted, conduct consultations in small-group sessions, such as focus
group meetings. If not permitted, make all reasonable efforts to conduct meetings through online
channels, including webex, zoom and skype meetings;
• Diversify means of communication and rely more on social media and online channels. Where
possible and appropriate, create dedicated online platforms and chatgroups appropriate for the
purpose, based on the type and category of stakeholders;
Employ traditional channels of communications (TV, newspaper, radio, dedicated phone-lines, public
announcements and mail) when stakeholders do not have access to online channels or do not use
them frequently. Such channels can also be highly effective in conveying relevant information to
stakeholders, and allow them to provide their feedback and suggestions;
• Employ online communication tools to design virtual workshops in situations where large meetings
and workshops are essential, given the preparatory stage of the project. Webex, Skype, and in low
ICT capacity situations, audio meetings, can be effective tools to design virtual workshops. The format
of such workshops could include the following steps:
- Virtual registration of participants: Participants can register online through a dedicated
platform.
- Distribution of workshop materials to participants, including agenda, project documents,
presentations, questionnaires and discussion topics: These can be distributed online to
participants.
- Review of distributed information materials: Participants are given a scheduled duration for
this, prior to scheduling a discussion on the information provided.
211
- Discussion, feedback collection and sharing:
✓ Participants can be organized and assigned to different topic groups, teams or virtual
“tables” provided they agree to this.
✓ Group, team and table discussions can be organized through social media means,
such as webex, skype or zoom, or through written feedback in the form of an
electronic questionnaire or feedback forms that can be emailed back.
- Conclusion and summary: The chair of the workshop will summarize the virtual workshop
discussion, formulate conclusions and share electronically with all participants.
• In situations where online interaction is challenging, information can be disseminated through digital
platform (where available) like Facebook, Twitter, WhatsApp groups, Project weblinks/ websites, and
traditional means of communications (TV, newspaper, radio, phone calls and mails with clear
description of mechanisms for providing feedback via mail and / or dedicated telephone lines. All
channels of communication need to clearly specify how stakeholders can provide their feedback and
suggestions.
• Engagement with direct stakeholders for household surveys: There may be planning activities that
require direct stakeholder engagement, particularly in the field. One example is resettlement planning
where surveys need to be conducted to ascertain socioeconomic status of affected people, take
inventory of their affected assets, and facilitate discussions related to relocation and livelihood
planning. Such survey activities require active participation of local stakeholders, particularly the
potentially adversely affected communities. However, there may be situations involving indigenous
communities, or other communities that may not have access to the digital platforms or means of
communication, teams should develop specially tailored stakeholder engagement approaches that
will be appropriate in the specific setting. The teams should reach out to the regional PMs for ENB
and Social Development or to the ESSA for the respective region, in case they need additional support
to develop such tailored approaches.
• In situations where it is determined that meaningful consultations that are critical to the conduct of
a specific project activity cannot be conducted in spite of all reasonable efforts on the part of the client
supported by the Bank, the task team should discuss with the client whether the proposed project
activities can be postponed by a few weeks in view of the virus spread risks. This would depend on
the COVID-19 situation in the country, and the government policy requirements to contain the virus
spread. Where it is not possible to postpone the activity (such as in the case of ongoing resettlement)
or where the postponement is likely to be for more than a few weeks, the task team should consult
with the OESRC to obtain advice and guidance.
212
Appendix 11 PROTOCOL FOR CONSULTATION AND CIVIL WORKS UNDER COVID 19 ECOWAS REGIONAL ELECTRICITY ACCESS PROJECT (ECOREAP) IN THE GAMBIA
1.1 Introduction
The novel coronavirus disease (COVID-19) has been spreading rapidly across the world since
December 2019, following the initial cases in Wuhan, Hubei Province, China. Whilst the pandemic
imposed enormous strain on the health systems as they try to cope with the increase demand for
services, it has also resulted in tremendous economic and social hardship as governments institute
measures such as ‘social distancing’ to limit the spread of the disease. One of the consequences of
these measures was the closure of schools, stoppage of civil works, trade and travel, closure of
borders, and other economic activities.
A key source of guidance on communications, civil works, and stakeholder engagement that the
Project will draw on is the Ministry of Health guidelines which are in line with the World Health
Organization’s (WHO) “COVID-19 Strategic Preparedness and Response Plan: Operational Planning
Guidelines to Support Country Preparedness And Response” (2020). These guidelines outline the
following approach in their Risk Communication and Community Engagement - Pillar 2.
It will lay the basis for the Project’s stakeholder engagement and civil works implementation approach.
The project will also draw on other recently-available resources for carrying out the implementation
of the civil works in the context of COVID-19, including the World Bank’s “Technical Note: Public
Consultations and Stakeholder Engagement in WB-supported operations when there are constraints
on conducting public meetings” (March 20, 2020). These guidelines will be taken into consideration
for the civil works in order to protect workers, the affected communities and Project staff.
The Gambia has declared a state of Emergency, which is still maintained by the Authorities. Given the
raising of the number of cases and the social distancing recommended in order to stop or reduce the
COVID 19 transmission, the Project has decided to elaborate this Protocol in order to implement the
upcoming stakeholder engagement and civil works implementation.
1.2 Methodology
To meet best practice approaches, the Project will apply the following principles for stakeholder
engagement and civil works implementation:
• Openness and life-cycle approach: public consultations for the Project will be arranged during
the whole lifecycle, carried out in an open manner, free of external manipulation,
interference, coercion, or intimidation
• Informed participation and feedback: information will be provided to and widely distributed
among all stakeholders in an appropriate and accessible format and language; opportunities
are provided for communicating stakeholders’ feedback, for analyzing and addressing
comments and concerns
• Inclusiveness and sensitivity: stakeholder identification will be undertaken to support better
communication about project activities and development, transparency, accountability and
build effective community relationships. The participation process for the project will be
inclusive and will consider vulnerable and disadvantaged groups to ensure they can attend
and fully participate in discussions. All stakeholders are encouraged to be involved in the
213
consultation process, and this includes ensuring that the time of day of meetings is suitable
for women who may have different work schedules and commitments and that persons with
disabilities are able to attend and participate. Every community member will have access to
information. Sensitivity to stakeholders’ needs is the key principle underlying the selection of
engagement methods and the time and location of meetings. Special attention should be
given to vulnerable groups, in particular women, youth, disabled, elderly and the cultural
sensitivities of diverse ethnic groups. Consultations should be conducted with women in sex-
segregated groups and in safe and enabling settings, which means that confidentiality can be
assured and that these consultations will be facilitated by other women.
• Flexibility: if social distancing inhibits traditional forms of engagement, the methodology
should adapt to other forms of engagement, including various forms of internet, radio, or TV
communication, and communication via mail.
• A precautionary approach will guide consultation process and civil works implementation to
prevent infection and/or contagion, given the highly infectious nature of COVID-19.Worker
and Community Health and Safety: to avoid or reduce the risk of contagion or spreading the
COVID-19, all workers will wear their mask, goggles and other personal protective equipment
(PPE) and respect social distancing protocols at the site. Same measures will be followed in
interactions with local communities.
• Affected Parties – persons, groups and other entities within the Project Area of
Influence (PAI) that are directly influenced (actually or potentially) by the Project
and/or have been identified as most susceptible to change associated with the
project, and who need to be closely engaged in identifying impacts and their
significance, as well as in decision-making on mitigation and management measures;
• Vulnerable Groups – persons who may be disproportionately impacted or further
disadvantaged by the Project as compared with any other groups due to their
vulnerable status20, and that may require special engagement efforts to ensure their
equal representation in the consultation and decision-making process associated with
the project. Consultations should be conducted with women in sex-segregated groups
and in safe and enabling settings, which means that confidentiality can be assured
and that these consultations will be facilitated by other women.
1.3 Consideration of impacts on disadvantaged/vulnerable individuals or groups
It is particularly important to understand how project impacts may disproportionately fall on
disadvantaged or vulnerable individuals or groups who often do not have a voice to express their
concerns or may not be considered fully when addressing the impacts of a project. It is equally
important that awareness raising and stakeholder engagement with disadvantaged or vulnerable
individuals or groups be undertaken with respect to infectious diseases and medical treatments. Such
consultations must be adapted to consider such groups and/or individuals concerns and cultural or
other sensitivities and to ensure a full understanding of project activities and benefits. Consultations
should be conducted with women in sex-segregated groups and in safe and enabling settings, which
means that confidentiality can be assured and that these consultations will be facilitated by other
20 Vulnerable status may stem from an individual’s or group’s race, national, ethnic or social origin, color, gender, language, religion, political or other opinion, property, age, culture, literacy, health status, physical or mental disability, poverty or economic disadvantage, and dependence on unique natural resources, among others.
214
women. The vulnerability may stem from person’s origin, gender, age, health condition, economic
status, disability, livelihood, among others. Engagement with vulnerable groups and individuals often
requires the application of specific measures and assistance aimed at the facilitation of their
participation in the project-related decision making so that their awareness of and input to the overall
process are commensurate to those of the other stakeholders.
Within the Project, the vulnerable or disadvantaged groups may include and are not limited to the
following: women-headed households, elders, youth, people renting land (especially women renters),
youth, elders, and persons with disabilities. Vulnerable groups within the communities affected by the
Project will be consulted through dedicated means, as appropriate. Description of the methods of
engagement that will be undertaken by the project is provided in the following sections.
Female employees should also be independently consulted by a female facilitator in safe and enabling
environments to ensure the impact of COVID-19 mitigation measures on women is properly
considered.
1.4 Strategy
The PIU in collaboration with the stakeholders will identify and examine all the activities planned
within the framework of the project requiring the engagement of stakeholders, public consultations,
and civil works implementation.
The PIU and its consultants and future contractors will evaluate the targets, the location, and the size
of the proposed activities. Personal contact and large social gatherings or meetings will be limited and
all protocols from the Government regarding social distancing will be respected. The PIU and its
consultants and future contractors will assess the level of risk of spread to the community and how
best to align with restrictions in effect at the national level.
In addition, The PIU and its consultants and future contractors will identify the critical activities for
which the consultations cannot be postponed without significant impact on the project deadlines. At
the end of this exercise, the PIU will consider viable means to obtain the contributions and
commitment of stakeholders.
Female employees should also be independently consulted by a female facilitator in safe and enabling
environments to ensure the impact of COVID-19 mitigation measures on women is properly
considered.
Where planned civil work activities require community meetings, PIU and contractors will assess how
to put in place proper social distancing and make available PPE such as masks, eye shields, hand
sanitizers, etc. for workers and community members.
Before consultation and civil works can start, the Project will require Contractors to identify and visit
the affected communities.
The objective of this mission will be to:
• The PIU and its consultants and future contractors will also assess the media coverage to see
which media channels are more suitable for spreading information about COVID-19
preventive measures, who to contact if people are exhibiting symptoms, and how to contact
the Grievance Mechanism (GM) should community members have additional questions or
concerns.
215
• According to the affected areas, The PIU and its consultants and future contractors will review
the best telecommunication coverage to decide which ones they will use to communicate with
communities, considering the commitment to inclusive and accessible participation and
communication.
• Traditional communication channels will also be assessed to verify how they can be effective
in conveying relevant information to stakeholders.
According to the outcomes of field visits, The PIU and its consultants and future contractors will be
able to start site preparation and sensitization of affected communities about the ESMP, GM, RAP,
information about SEA/SH risks, especially around civil works, access to services, and how to lodge
complaints through the GM, and COVID-19 mitigation measures that are recommended by the WHO
and the Ministry of Health.
Following the field visit, the Project will implement specific measures to mitigate the risk of the COVID-
19 transmission.
A precautionary approach will guide the consultation process and the implementation of civil works
to prevent transmission and infection, given the highly infectious nature of COVID-19.
The following are some considerations for selecting channels of communication and encouraging
behavior for the safe implementation of the civil works, considering the current COVID-19 pandemic.
Female employees should also be independently consulted by a female facilitator in safe and enabling
environments to ensure the impact of COVID-19 mitigation measures on women is properly
considered:
• Avoid public gatherings (considering national restrictions or advisories), including public
hearings, workshops, community meetings, and in working sites
• As smaller meetings are permitted (Five people with distance of 1.5m distance between
participants), consultations will be conducted in small-group sessions, such as focus group
meetings. Efforts will be made to conduct meetings through telephone or, if possible, online,
channels to reduce risk of contagion or contamination
• Employ channels of communications (TV, newspaper, radio, dedicated phone-lines, and mail)
when stakeholders do not have access to online channels or do not use them frequently.
Communication channels can also be highly effective in conveying relevant information to
stakeholders, and allow them to provide their feedback and suggestions
• Where direct engagement with project affected people or beneficiaries is necessary, identify
channels for direct communication with each affected household via a context specific
combination of email messages, online platforms, dedicated phone lines with knowledgeable
operators
• communication channels during COVID-19 will also help women receive accurate information
about SEA/SH risk, access to services, and the project GM
• Each of the proposed channels of engagement will clearly specify to community members how
feedback and suggestions can be provided by stakeholders via the project’s GM.
1.5 Management of COVID-19 during civil works
216
A special COVID-19 induction will be performed for each employee before they are able to start work.
Female employees should also be independently consulted by a female facilitator in safe and enabling
environments to ensure the impact of COVID-19 mitigation measures on women is properly
considered. This induction will be entirely dedicated to COVID-19:
• How it spreads
• How to protect oneself (including washing protocols)
• How to properly use PPE (mask and gloves) and requirements of wearing PPE
• Understanding symptoms and what to do if one is exhibiting them
• Understanding the impact of COVID-19 on vulnerable groups (who is vulnerable)
This induction will be renewed for all workers every month and every day before the start of activities,
a specific briefing will be carried out by the Site Manager who is the team leader.
The Site Manager will address the following points:
• Reminder of the context and the need to respect the rules
• Reminder of barrier gestures: how to cough, hand hygiene (basins and soap will be always
available on site), social distancing and wearing a mask
• Taking of temperature every morning before works start
• Reminder of the exceptional measures applicable to the activities concerned
• Reminder of the main symptoms of COVID-19
• Reminder of the COVID-19 Hotline 1052
Monitoring of symptoms and other hygiene and mitigation protocols:
• Symptoms associated with COVID-19 will be monitored in workers. Each worker should
monitor the onset of symptoms for themselves and colleagues and inform their manager
immediately if they feel unwell or suspect a colleague is not feeling well. If symptoms appear
during the night, the employee notify their superior and not come to the construction site.
The procedure applied will then be the same as for employees who will be present in the
morning with fever.
• The PIU and its consultants and future contractors will ensure the transportation to health
centers by liaising with the COVID-19 Hotline 1052 in case ambulances of the health centers
are not available.
• PPE must be clean and for individual use only (they must not be shared, exchanged, or loaned
between employees). Barrier/social distancing against COVID-19 must be applied during break
times and meals. Drinking water materials for personnel such as a cup or water bottle must
be available for all workers and must not be shared for use among workers. Anyone who is
not an employee of The PIU, and its consultants and future contractors will not have access
to the site. Any visitor wanting access to the site must submit to the same COVID-19 mitigation
controls as employees.
217
• Cleanliness, including sanitization, of personnel reception facilities must be maintained
regularly throughout the day. Any waste likely to be infected must be managed to avoid any
risk of contamination.
• The PIU and its consultants and future contractors will delimit the site and provide posters
showing measures to be strictly followed by all who are on site.
• It is planned that about 10 people will be each work site. Workers must always wear masks,
goggles, and maintain regular hand cleanliness. Hand sanitizers will be available in all strategic
areas of the site.
• Equipment to take temperatures for all entering in the work sites should be available. In each
site, Contractors will have two thermometers, regularly cleaned to avoid contamination in
each site. Taking of temperature and management of the thermometers should be the
responsibility of the ESHS officer.
• The contact information of the local COVID-19 committee (set up by the Ministry of Health
under the Governor with all the relevant stakeholders in each region) COVID-19 1025 Hotline
will be communicated to all workers. The contact number will be posted on site. The Project
will closely work with this committee to implement the Project in a safely manner.
In line with the above precautionary approach, different engagement methods are proposed and
cover different needs of the stakeholders as below:
• All in person meetings (such as consultation meetings, focus group meetings, one on one
interviews (respecting social distancing requirements, wearing masks and eye shields)
• Public notices
• Electronic publications and press releases on the NAWEC website and social media, NAWEC
Talk show radio and community radios in the Provinces
• Telephone Interviews
• Text messages communication
• Social media notices
• Posters erected in communities
At all times, the following COVID-19 mitigation measures will be followed in engaging with the public:
• Availability of hand sanitizers
• Thermometers in each working site
• Social distancing of 1,5 meters between workers
Traditional channels can also be highly effective in conveying relevant information to stakeholders,
and allow them to provide their feedback and suggestions, such as committees of elders, women,
youth, but also communication of religious leaders like imams and the griot (traditional
communicators.
218
In the event none of the above means of communication is considered adequate for the required
consultations with stakeholders, Contractors and service providers should discuss with the PIU to find
out if the activity in question can be postponed at a later date, when significant stakeholder
engagement is possible. When it is not possible to postpone the activity or when the postponement
is likely to last more than a few weeks, the PIU should consult the World Bank team for advice and
guidance.
1.6 Conclusion
During all this process, recommended WHO hygienic practices will be respected and monitored by the
PIU safeguards team to ensure that mitigation measures would be properly followed and duly
respected. As protocols and recommendations by the WHO changes in response to this pandemic,
these protocols will be updated accordingly.
Appendix 12: Contract Clauses to be Included in Contractors’ Agreements The rules, including specific prohibitions and construction management measures, should be incorporated into all relevant bidding documents, contracts, and work orders.
General Prohibitions: The following activities should be prohibited on or near the project site:
▪ Cutting of trees for any reason outside the approved construction area
▪ Hunting, fishing, wildlife capture, or plant collection; All employees, including volunteers and
sub-contractors should be encouraged to anonymously report suspected or actual acts of
hunting/killing of wild animal by a fellow worker
▪ Use of unapproved toxic materials
▪ Disturbance to anything with architectural or historical value
▪ Setting of fires
▪ Use of firearms (except authorized security guards)
▪ Use of alcohol by workers
▪ Employment of children in accordance with international law and the Children’s Act.
Protection of Trees and Vegetation:
▪ Remove vegetation around pole site only as necessary
▪ Ensure that only the right of way is cleared; avoid forests
▪ Cover area around the pole foundations to facilitate revegetation
▪ Seek approval from DOF before forest trees are felled
▪ Keep records (types and quantities) of all ‘forest trees’ to be fell
Waste Management:
219
▪ Develop a waste management plan including types of waste, expected quantities and frequency,
proposed storage and disposal procedures and responsibilities, etc. Minimize the production
of waste that must be treated or eliminated. If hazardous wastes are generated, proper
procedures must be taken regarding their storage, collection, transportation and disposal.
▪ Do not burn any type of waste
▪ Waste must be collected and stored for disposal or treatment at approved sites as per waste
management plan. Identify and demarcate disposal areas clearly indicating the specific
materials that can be deposited in each.
▪ Clean waste such as cleared vegetation, packaging and rubble shall be given to workers or
communities for reuse and recycling
▪ Set an internal supervision and monitoring system to ensure waste reduction and management.
▪ Control placement of all construction waste (including earth cuts) to approved disposal sites.
Dispose in authorized areas all of garbage, metals, used oils, and excess material generated
during construction, incorporating recycling systems and the separation of materials.
▪ Establish and enforce daily site clean-up procedures, including maintenance of adequate
disposal facilities for construction debris.
Construction related measures:
▪ Ensure that all equipment maintenance activities, including oil changes, are conducted within
demarcated maintenance areas; never dispose spent oils on the ground, in water courses,
drainage canals or in sewer systems.
▪ To avoid soil compaction, use only approved and existing routes, do not establish new routes
▪ Grade existing routes to improve surface drainage.
▪ Avoid water sources and report any noticeable reduction in quality
▪ Remove excess and unused materials and equipment from work sites to improve the
landscape
▪ Decommission all camps and bases including clearing of all waste
Quarrying realted measures:
▪ Where sand and gravel dealers are used, ensure only suppliers certified by the NEA and GD are used.
▪ Ensure approval is obtained from the NEA and GD for any proposed quarry site ▪ Fully implement the mine management plans ▪ All quarry pits created by the project must be rehabilitated after construction works ▪ Avoid extraction to the water table and near surface water bodies
Labour health and safety:
▪ Place signs and lighting at strategic locations informing community before works starts.
220
▪ Conduct safety training for construction workers prior to beginning work; provide induction and
training on the job, safety issues and other relevant ESMP requirements. Drivers must also be
trained on defensive driving.
▪ Provide personal protective equipment and clothing (goggles, gloves, respirators, dust masks,
hard hats, steel-toed boots etc.,) for construction workers and enforce their use.
▪ During heavy rains or emergencies of any kind, suspend all work.
▪ Safely store hazardous machinery and items away from the public.
▪ Educate on risks and prevention of STD/STIs
▪ Erect Speed bumps and speed limits.
▪ Make the hiring medical examination for all workers compulsory
▪ Sensitize on interpersonal relationship management between and among workers and
community members; set codes of conduct
▪ Provide fire extinguishers and first aid kits including training on their use
▪ Provide constant supervision and record and report incidents to address causes for preventing
recurrence and promoting improvement
Prevention of Violence against Children and Women:
▪ Ensure enforcement and adherence to Codes of Conduct for addressing VAC, GBV, and SEA,
including regular monitoring and awareness building of the Codes of Conduct
▪ Do not employ or exploit children for project works
▪ Encourage women to enlist for employment in project activities without any impediments put
in their way
▪ Develop a hiring plan that would include hiring labor from within the community giving equal
opportunity to men and women
▪ Enforce and monitor Codes of Conduct for workers and all those involved in the project
▪ Sensitize about the Codes of Conduct for workers and community;
▪ Ensure survivor-centered approach to address GRM as per the procedures in the GRM (and
Codes of Conduct)
▪ Conduct periodic training of employees on the codes of conduct and related procedures
Community Safety during Construction:
The Contractor’s responsibilities include the protection of every person (workers and the public) and
nearby property from construction accidents. The Contractor shall be responsible for complying with
all national and local safety requirements and any other measures necessary to avoid accidents,
including the following:
▪ Carefully and clearly mark pedestrian-safe access routes.
▪ If school children are in the vicinity, include traffic safety personnel to direct traffic.
▪ Restrict and monitor public access to the work sites
▪ Construction works within the Loumo area on a market day must be avoided
▪ Cover up the trucks, to prevent wind blowing away sand and gravel to generate dust
221
▪ Initiate sensitization and education programs for communities and workers on the dangers
and mitigation measures to address STIs; Encourage use of condoms to prevent STIs
▪ Carry out active monitoring of workers (screening, testing and analysis of such recorded data,
etc.) to take timely action through treatment and health education to prevent spread of
diseases
▪ Ensure surroundings are safe and secure for all (implement health and safety plan, coordinate,
inform, supervise and monitor)
Nuisance and dust control should include:
▪ Maintain all construction-related traffic at minimum
▪ Cordoning off work sites to prevent access
▪ Use and maintain well-serviced equipment and machinery; avoid overloading that strain the
engines to reduce noise
▪ In sensitive areas (including residential neighbourhoods, health centres, schools) more strict
measures may need to be implemented to prevent undesirable noise levels, including
controlled working times; works shall only be carried out during daytime
▪ Give prior notice to institutions amnd communitites about the works and work during
weekends when activities are less around these institutions
▪ Minimize production of dust and particulate materials at all times, to avoid impacts on
surrounding families and businesses
▪ Use dust suppression measures such as dampening on dirt roads, cut areas and soil stockpiles
or fill material.
▪ Trucks transporting sand and gravel must be covered to prevent dust and flying debris
▪ Ensure that engines of vehicles and machinery are not idle for prolonged periods
unnecessarily
▪ Apply proper measures to minimize disruptions from vibration or noise coming from
construction activities.
Community Relations:
To enhance adequate community relations, the Contractor should:
▪ Employ local unskilled workers to enhance community cohesion as local workers will know
the community better, its culture, norms, and values, which may also help in reducing the risks
of GBV, VAC and STIs.
▪ Inform the population about construction and work schedules, interruption of services, traffic
detour routes as appropriate.
▪ Avoid construction activities at night.
Chance Find Procedures for Culturally Significant Artefacts:
▪ Avoid mosques, cemeteries, World Heritage Sites and similar sites of cultural significance ▪ Consult with the communities to help identify any other cultural or spiritual sites of
importance
222
In case culturally valuable materials are uncovered during excavation:
▪ Stop work immediately following the discovery of any materials with possible archaeological,
historical, paleontological, or other cultural value, announce findings to project manager and
notify the PCU who in turn notifies the National Council for Arts and Culture
▪ Protect artefacts as well as possible, using plastic covers, and implement measures to stabilize
the area, if necessary
▪ Prevent unauthorized access to the artefacts
▪ Restart construction works only upon the authorization of the relevant authorities.
ENVIRONMENTAL AND SOCIAL SUPERVISION DURING CONSTRUCTION
The “Codes of Conduct and Action Plan for Implementing ESHS and OHS Standards, and Preventing Gender Based Violence (GBV) and Violence Against Children (VAC)” should also be considered in contracts.
All bidding documents should indicate how compliance with environmental rules and design specifications would be supervised, along with the penalties for noncompliance by contractors or workers. Construction supervision requires oversight of compliance with the ESMP by the contractor or his designated environmental supervisor.
Depending on the type and severity of breach, penalties may include:
▪ cancellation of contract
▪ suspension of works, and payment withheld until remediation has taken place
without entitlement to claims
▪ existing penalities listed by various laws for specific breaches
▪ litigation for breaches of specific laws (by NAWEC, the relevant enforment institutions
or affected parties).
▪ barring the contractor from future assignments of the World Bank and NAWEC
223
Appendix 13: Modalities of the Proposed Grievance Redress Mechanism
Step
Process Description / Required Action
Time-frame Responsible Agency / Person
1 Receipt of complaint
Document date of receipt, name of complainant, nature of complaint
1 day GRC/PIU (specifically social safeguards specialist)
2 Acknowledge receipt of grievance and Communicate Response
By letter, email, phone 1-5 days Social safeguards specialist at the PIU
3 Screen and establish the foundation or merit of the grievance
Visit the site; listen to the complainant / community; assess the merit
7-14 days GRC members including the project safeguard specialist, complainant and his/her representative
4 If the complaint has merit, the GRC to proceed with resolution.
If yes, inform complainant of possible resolution. If no, inform complainant, record his/her response and inform him/her of escalation measures if he/she would like to proceed further (see 5)
21-30 days or at a time specified in writing to the complainant
Project Coordinator, SSS/ESS to coordinate the implementation of redress action
4A Is resolution acceptable to the complainant?
If yes, GRC move to implement and monitor measure. Notify complainant when implementation is complete and ask complainant if he/she is satisfied and record response. If not, move to 5.
2-5 days Project Coordinator/SSS/ESS
5 Extra intervention for a dissatisfied scenario including resolution not acceptable to complainant/not implemented properly/fully
If response is unacceptable to complainant, review the redress steps and conclusions, provide intervention solution
2-4 weeks of receiving status report
Project Coordinator GERMP and GRC to review and react
6 Judicial adjudication
Take complaint to court of law
No fixed time Complainant
224
7 Funding of grievance process
GRC logistics (costs of litigation, training), redress compensation, court process
No fixed time GERMP
225
Appendix 14: Flow Chart of Grievance Redress Process
(1) PCU Receives
Complaint
(1Day) PAP
(2) PCU
Acknowledges
Complaint/Co
mmunicate
Response
(1-5 Day)
(3) Screen and
Establish Merit
(7-14 Days)
(5) If Complaint is acceptable,
then Implement and Monitor
Redress action
(21 – 30 Days)
(6) Extra Intervention for a
Dissatisfactory Scenario
(2 – 4 Weeks)
(7) Judicial Adjudication
(No Fixed Time)
(8) Funding of grievance Process
(No Fixed Time)
Maximum Timeframe for implementation of Grievance
Redress Action is 85 days from receipt of complaint
(3A) Is Complaint
Acceptable?
(1-5 Day)
Top Related