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This thesis has been submitted as partial fulfillment

of requirement for the degree of Ph.D. in Plant

Protection at the Faculty of Agriculture, Tishreen

University. Lattakia, Syria.

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DECLARATION

This is herby to declare that this work “Contribution in Achievement of Some Means of Protection from Potato Y Virus of Tobacco Varieties Burley and Virgenia in Syria“ has notalready been submitted concurrently for any other degree. Candidate

………………………… Date: 28 /4 /2013 Mazen khaddam

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CERTIFICATION

It is herby certifiy that the work described in this thises " Contribution in Achievement of Some Means of Protection from Potato Y Virus of Tobacco Varieties Burley and Virgenia in Syria" is the results of Mr authors own investigations under the supervision of Dr. Saleem Rai, Faculty of Agriculture, Tishreen University, Syria and any reference to other researches work has been duly acknowledged in the text.

Supervisors Candidate

………………….. ………………………… Mazen H.A.khaddam Prof. Salem yuones Raie

Date: 28/ 4/2013

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24

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25

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26

Abstract Tissue-blot immunoassay (TBIA) was used for testing 4145 randomly collected samples and 1482 samples with suggestive symptoms of PVY. Samples were collected during two growing seasons 2010 and 2011. from northern, coastal, and southern of Syria. PVY was detected from all surveyed areas on different tobacco varieties, and with different incidence ranging from 32.75 to 59.32% in the first growing season and 46.3 and 70.79% in second growing season. The highest incidence of viral infection were detected in coastal region in comparison with northern region, Burley and Virginia varieties in Coastal region were highly affected by PVY in the second growing season 2011 (95.45-89.26% respectively) comparison with first growing season (80.95-87.5% respectively). PVY was detected for the first time in the coastal region in Syria on some local tobacco varieties (Tanbaak, Gernataa, Zegreen, Baladde), and on Burley and Virginia varieties in the northern region and Burley in southern. The effect of treating seed befor planting with Gaucho insecticide (0.35, 0.7g a.i Imidacloprid/5g seeds) to reduce potato Y virus incidence Burley and Virgenia from fresh and cured leaves under field conditions during the 2010/2011 growing seasons. Results showed significant difference in virus spread between treatments in comparison with control treatment, and Gaucho 1g /5g seeds The better treatment to reduce potato Y virus incidence in first time and increases the yield (fresh, dry) and increase of sugars ratio in Virginia and decreased protein ratio and NPN in Burley leaves. spraying mineral oil (Biolid) 10 ml/ l weekly led to reduce potato Y virus incidence and increased productivity in Burley and virgenia varieties and increasing of the quality of cured leaves both varieties. Also using the Gaucho 1g /5g seeds besides to using the spraying mineral oil for aweek or two gives The better Results in decreased potato Y virus incidence. The efficacy of systemic acquired resistance (SAR) in reducing replication of PVY. The Results showed the role of Salicylic acid (SA) to increase the resistance burley and Virginia against PVY in the laboratory and in house net. Ten weeks tobacco plants were treated in laboratory with 0.5mM of SA, and also in the house net (0.25mM، 0.5mM، 0.75Mm )، so the inoculation by PVY came late. The level of free SA increased in the leaves for both types (48.4, 31.6 %) comparing with inoculation control (3.3, 3.3 %) in 2011 growing seasons (38.4, 26 %), After 72 hours، the level reached the highest standard after watering in 0.5 Mm SA and symptoms late 7-8 days and disease severity decreased (28.6, 36.3 %) and (30, 38 %) during 2010 growing seasons and decreased of the stunting of plants for both types in comparison with the infected plants by virus in all treatment,

27

The comparison between health control (without treatment) and the inculated control virus only، The increase of the free salicylic acid related to the decrease .The results showed the role of SA and OA in increasing the productivity and quality of cured leaves of tobacco Burley and Virginia which inoculated with PVY in the field. and the highest productivity of fresh (655, 666.7 kg) and dry ( 110.6, 98.2 kg). OA has similler role as SA in case in efficacy of systemic acquired resistance in reducing r of PVY, The level of free SA increased in the leaves for both types in all treatment, and symptoms late 7-8 days comparing with inoculation control, and disease severity decreased in the laboratory and in house net, and decreased of the stunting of plants for both types in comparison with the infected plants by virus in all treatment, The better Results was treatment with SA it gave the highest ratio of sugars in Virginia and decreased the ratio of protein and the ratio of NPN in Burley. Most preferable was for OA increasing the productivity.

28

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H�� N� �! l̂ �� )60( H�T� N� 6�0� ��#�� :L�!�)40 ( T� :�T��. W�� 7��0!� I�� c�� J2��) 4��P��OO�!�� (�, ��#!� �� m�T�!�� T!1 ��

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�� "m��!�� Je� /�0 � �� !� � ��N�� 0�� 7[� �!��!$ �� 4��P�)Paunescu et al., 2003.( W�� !�� 6#J!�� 0��

)27 (kE ��T��$�� J[J 7��0!�� ! "^�V#� ��0!�� !)C�(+ "M �^�TO$ �VO��! I�V 7�J!�(Stoskopf, 1981) " c��T�� W��#� �� O�� !�� J2�� /�0

�J2T�� "��!��;!� ��! �! �� :�!�� :�!#! 4��P� Y�$�� "�� ^�VR� ��!� 4��P� �� I��!�$�� 1��0 �� 4��P� ��

(Paunescu et al., 2003 ; Anderson et al., 1985). f� ��T�� I��T�� TV0�� /�0 �OO�!�� D��, 6#� 7��0#� W�� Q��

��#K�� I� 7$��. �T! ��T$�� [��$ ��J�� L�! �L� H � U��1� 4��,��0 ��!$ ��!�� $�� O# ��V0�� Q��P� H ��" 7�� M+�� $�� H!0�

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1 W��#� �!� �� e!�� !# �� /0�� : ��N� �� a��)�!��" YT�#��( " ��N� A�� a��)�N��5" ��5�( " ��;�� a��)�� U�( " �V�� $��!, a��

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��)�� , �!V ( �� $� U�+�� !�� a�� A��, �1, 0,Pandeya � ��i

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)1985( ��$�� U�+ � �!� 4��P� �� Je!�� 7!�� !1, 6#�� I�T�!�$�� T�$�� N�� 0� �� $�� I�+�� $�� ! �� 4��P� 9��0! ��!�� 7J!

�I�� N ��)Frederick, 1962(. �!, �� -�" �� )(Br 21 Burley white

21 :�V�, Q��f�� T�� #T�� N�� !I[!�� "��#�� #0�� 7�� :��! �� ! �!V ��V�� 4��P� AO�� A��) 7T]�� A�O�� ( ��!��T� ��T�!�

�� a�� ;! �� M��L� ��N �� "��N� A�� TV0� � 7�� N#� ��N !�� I��5� �#� ��"U#��!�� :��T]� DT�� 6T#� YT#N��

�#�� " ��OT� �� + ��$� �� I��!�$�� I��O�� O��!#� �T�� T��$�� "7� �� ! ��!L��!�1 "G�� #��D �� )Frederick,

1962(. O�� T!� �T$��!, T� ��!�� W�� A��, �1, �! �� W�� Q��!#� :[�� 1�J$,(Capehart, 1991; Brown and Martin, 1996).

H� �� \� W�� O�� ! � �� "��$ �� I�� Y�� A#�� @+1H��P�� 7�;��L� 4I��N � H �� V � �� O�� 1�]�� 6T#� ��

W�� WT�� Y�T�� O�� 1, �! M�� N�N�� E�� (Sutic et al.,

1999).

2.1 . ��3�3�� %��=�� Potato Y virus )PVY �� ،Potyvirus ،��

Potyviridae(

1.2.1 .�� <"�� %�< � �N�N�� E�� A��$� M�� N�N�� 6#� ��! 7�P1931 7T�� !Smith

�� :[;� )Brunt et al., 1996(. 7$T�� T�N�� ! �#��N �� O�� !�� 1� �,730×11 ��!�� M��0�5.4-6.4 % �� M�� H!0 �#T#�� 0�)ssRNA(

�93.6-.694. % ��T�(Leiser and Richter, 1979; Makkouk and Gumpf,

1974) M��T�� HT!0#� !]�P� ��0�� O! �## �! M�� H!0�� A�2��9704 ��#$�� 0� �� (Robaglia et al., 1989).

�� #� �] ! � ��" jK�� /�0 �� L[ �� N�� V � �� A#�� 7 O�� #�!�� [�� !� ��J0� �� H��P�� PVYC) ،

PVYO, PVYN ( )Singh et al., 2008(. ��[�� V��PVYN �0��!�! :6��P�PVYNTN) ( ��J�� "��!�� G;�� Y�� (PVYNW) �$��!, 7�!� � 6!�

33

(PVYN:O) :��#�! 7��O�� [�� G!PVYO 6#� 4�� !� H��, Y�� , L� ��[�� 7J! W��PVYN )Singh et al., 2003; Chikh Ali et al., 2010a.(

��!� E��O�� L��6#� W�� WT�� O�� 6#� �� H��P� 6#� :��!�� T��Nicotiana tabacum White Burly � ��T�!�� Samsun NN Nicotiana

tabacum �� L[ 6��Sever strains 9��,�� ! Mild strains (Gooding,

1985; Glais et al., 1996 ) � ��[�� A�$�� PVYN ��[��PVYO

�� PVYC وا�"!� � �N�N�� X�� 7�;0 � ) " �� 7��!�2004.( 2.2.1 .R�� "��9� ��*A�� S�� E��T�� 7� :�T�!�� M�� TN�N�� T� ��T�� 6T#� ��T�� WT�� A��T�,

(Chatzivassiliou et al., 2004). O�� 6#�� $��!, � ��O�� (Kucharek,

2001)" 6#��,�� T�� T� ��O�� !�� A(Khateri et al., 2006)، �� , �� /�0�P� ��,�Serbia �,D WT�� Y�T�� O�� 1, �!

(Dukic and Bulajic, 2006) . �� E��T�O�� T�� !�� , 9��, �� T�� N�;! /[J � W�� 7��0! 6#�67 %(Mayunga and Kapooria, 2003) .

��#�� , �� J,�Henan �� W�� A�� 6#� " ��T��@ ��32.3 %(Li et al., 2001) . @�� 7�� W�� 7��0! 6#� �� 62 %

(Keiichi and Akira, 1995) .�� $��!P� �� L� � �� W�� A�� 6#� ��10 %(Pappu and Bertrand, 2000) . 7�T�0! 6#� ��$ �� @��

��#�� W��Kosovo )��[5�� ! �� Y�� (n��J2� D� ��$� o��$ X��R� HO� �(Taraku and Nikol, 1991). f� � 7� �� ! ��#0�� ;N�!�� A��T�, H � 6#�

W��R� �� K#� /�0 ��O�� 6#� E��O W�� !T�� YT�#��12 �19 % 6T#� �� ) ��i� " �� "2007( " 6#�� O�T�� T�� T�� 57.93 55.55و %

)��i� 7��!� "2007- Y.( �I�� M�� N�N�� E�� Y�� W�� 4��, �� !�! �T��

�� =��, D�, 6�0�0�!�� L�� W�� 4��P� �T! �T��R� �VO�� /�0 ��T�� W�� A�� $�!�� R� �� OO�!��75% (Sievert, 1978). HTO��

��;!� #�� O�� W�� X��71.5-74.8 % E��O�� $�!�� 9� �� (Rufty et

al., 1983). ��R� �� D� ��$�!�� :�� ! :�;�� W�� 7��0! �T!

34

�OO�!�� 4��P� 6�� #$�� X��R�� ;O�� 7�� ;� "67% "14 % T�� WT�� O�T� 6#� �� 6#� ��)7��!� ��i"2007- ,( .

� �Je� ��R� 6#� �1��J2� 7[� �! a�� 6#� E��O�� 9�T�0!�� I�T�!�$��#� "� �� W�� A�� R ��$M�� N�N�� E��O� �T�$��!P� �0�!�� L�� J2�:� ��#:� ��0! 6#� 4��P� �, cI�T�� 0V�,� "�!�� I��!�$�� $�!�� ! D��, 9

� ��5 �� H!0� �� 6#� M��0� ��!�� T! �TJ$, Y��+� �!�#�� 4��P�(Sievert, 1978 ). �T�� 6T#� E��O�� J2� �� !� ��K#� ��

M�� N�N�� E��O� 9� �� 2� �� W�� O�� 4��P I��!�$�� Y�$��G! ��;! E��O�� !�� O�� $�� 9��0! 6#� :��# �Je� �!�#��

�� $ /�022.10 % � 1�� 8.58 % ��T� �� T!�� !�� !�#T�� T�� G! ��;! �� (Stoykova and Dratchev, 2001) . ��T�g��

� M�� N�N�� E��O� �� W�� 4��, �� H�O�� 6�� O�� Q�O�� T�#$�� T�I�#;�� T� T� �T�K�� !�� 4��P� � �� #$��

(Verrier et al., 1999; Verrier et al., 2001) T�� I��!�$�� $�!�� Y� ��K�� !$ E��O�� !�� #� ��#O�� 4��P� ��0� /�0� "M�� N�N�� E��O� ��

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1962) . T�� WT�� A�� H�O�� 6�� O�� R� �, �� /T�0 6�� O��10.2 % �T�� T�5 ��Z� ��$�!�� NPN 6T��

2.54 % ��#�� 1�� ;!8.83 % �1.6 % �� W�� A�� 6#� 6�� $�� VO�� /�05 % ��#�� 1�� ;!6% O�T� �� VO�� "

Y�#�� !�� W��) "��i� !0!2008- "��i� !0! p,2008- Y.( 3.2.1. � :�� N�� %�< � E��O��G�� #I�� 9! �+ 7!�� 495 :�� 7I�� G��, � )141 �! :�� E��Solanum �70 E�� ! :��Nicotiana( 7TJ! �!�! 7��0! �!V�� "�TN�N��

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��) Petunia spp و'&�%ت �#�� Asteraceae �T�� T�� Y��P� �! ��$ �� #��O# ��+��: 7J! �� Datura spp" �� ;�� Physalis spp" � YT��

T��I+Y Solanum nigrum (Edwardson and Christie, 1997; Fletcher, 2001)

35

�28 �! :��#�� Amarantaceae "20 �T! :�T�� #�T�� (Edwardson, 1979)

Chenopodiaceae E��O#� 7I�� $ �� Q��, �#� ��[�� E�T$ 7J! T�� Cotula australis Ho., Capsella bursa-pastoris Shep. (Fletcher,

2001). �T��! WT�� T�� 6T#� �� 1�] :�V��, E��O�� L[ �] ! Y�� : "4��P� Y�0� "4�� H�V�� "4��P� A�O�� "b�� "U��!�� $�

4�� #� )��$�� [/��!��( 7�0� �, �$!�� H �� ! .(Xu, 2008) ��ل. 4.2.1 �� ا'&�"وس #"ا! ا

E��O�� 7;��7;0�� / :�n� ��N�� N)70 ( �! :�� T�5 �T;��N�� n�!�� 0 ��J!��Non-persistent manner (Kerlan and Moury , 2008) �T��! n�T! 4��T��

Myzus persicae Suiz.، n�! 7�O�� Aphis fabae Scop.، (Salazar, 1996; Ragsdale

et al., 2001) �n�! �N�N�� Macrosiphom euphorbiae Thomas ، n�! �N;��Aphis

gossypii Glover (Robert and Bourdin, 2001). q �� n�! ��0 4�� V�P� ��!1, �J$P� 7�� ^�O$� E��T�� 7T;� � M�� TN�N��

(Difonzo et al., 1996) �� 7;�� U�$�0L�/ ��9� �$��$�!�� T�!�� G! �!�#��)Banttari et al ., 1993( W�� +� �N�� 7;�� L� "�� N��.

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D�L[T �� !�� N�� $!� �� ! �� ! Q��, 7TJ! Nicotiana

benthamiana L. Y�� /�0 �� b�� G! 4�� O� "�� H��, �� A��N. tabacum L. cv. Burley �L�� !� ��[� ��PVYN ) 4�� 0�

��!� ((Jeffries, 1998; Kerlan, 2006) . �� $ ��#�!�� L� �� !$ ) ��P�� N��!�� !�� !L�(ELISA) Enzyme Linked Immuno Sorbent

Assay( � ��T�!�� c�� !�� )(TBIA"(Tissue blot immunoassay " (Banttari and Goodwin, 1985; Lizarrage and Fernandez-Narthocote, 1989)

T$ �� >T�� GT! ��!��T�#� 7#�!�� 7��O�� $!�� )RT-PCR"Reverse

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al., 2004)

36

3.1 .�� &�� %�<�� V�0�� L ��! �0��$!�E��O��" ��0�� D#�� 0��$!� 7� . ��

R� �� HO�� O�� R� �� ! ��#� �� 4I��N �T0��$! 7[T� �! �� TJ!�� 5 �;��N�� E��O#� �#�� !�� 0 Non-persistent manner ��T��

�� !�� TO#��! 7��0! 6#� (Bradley et al., 1966; Boiteau and Singh,

1982; Powell, 1992) ��0�� !�� !��6#� :� M�V�� Q�!�!�� 7J! ��T��!�� I��J�� (Gibson et al., 1982; Qiu & Pirone, 1989; Powell, 1992) +�e��

4I��N�� U#� 6#� :�I�� /�#� ��T�� b�� ! � Q�O�� "��O!�� 0�� ^��P� 7�� " �� ;O�� 7�� +�� #!� !� �, ��!�� L ��#�� JZ� A�O�� )M�!�

"��i�2007p; Debox and Huttinga, 1981; Ferro et al., 1980 Regan et al.,

1979 (Nault et al., 2004; " �T�� #��!� ��$�! �� V�0�� 0� 6#� 7! � �� $!�� !��;!�� H��0�� :�� , :�� T�� 1��TV, �! �� O�� R� V ��0�� 0�� 0�� 0��

��!$��(Wieringa-Brants and Schets, 2008; Taiz and Zeiger, 2002; Malamy et al., 1990; Malamy et al., 1992)

1.3.1 . ��#��&�� Imidacloprid �� !� ��0�� 0��$!� ��!�� +1 7�T�! �0��$!� ��+�� #!� ! �� 6#� :��

��Z� �! G�� 0��h�!��$ ) ��+� �#!� !�� =!;��( (Brenchley, 1991; Pike

et al., 1993 ) ��N;�� 6#� T��!�� 1��+T� �#!� !�� (Nauen & Elbert, 1994) � 6�� M�$�� +� �#!� ! �, �!$ HO� ��J$�!�� 0 �T�� 6#�

(Schmeer et al., 1990). � ��0 �0��$!� �� T0� H��P� Y��+�� E�� N�N�� Y��0�� 7��0! 7J! ��! 7��0! �� E�� H �� 4�O�P�

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23 �13 % ��$�� 1��+� �#!�� GN;�� 1.4 �2.8 �� ! a / 6#� ��+� W$ " �� !$Gray �, ��i�� 7�� =!;�� +� �#!� ! �T�� !��

7! �� 7 !�1.8 �� ! a / Y��0 W$ ��!�, �! HO� �� T!�� 0 �� T;� E��O� ��R� �� HO� �� 0��!�� !�� 0� ��!�� !�� Y� �!

�� =!;�� 0! 6#� �� O�� 45 % "� =T!;�� +T� �T#!� ! �,

37

� ��O�� !�� 6�� R� �� HO�� O�� ;� E��O� ��$!� U�+�D�0 � �T!�� T�0h E��T�O#� �T#��(Bai et al., 1991; Mckirdy and Jones, 1996;

Gourmet et al., 1996). � ��+� �#!� ! �, ��#;0�� Y�� 7�O�� 7��!� ��#$��!��

Imidacloprid HO� 7�O�� 4��, A�O�� E��O� ��R� ��)BLRV "Bean leafroll

virus E�� "Luteovirus" �#�� Luteoviridae(Q �!92% �#!� !�� 5 GN;�� )1�� (6�� 13 %�23 %��!�� 7�� 1��+� �#!�f� �� GN;�� $�� 2.8 a�1.4 �� ! a/ �� 6#� "��+� W$ U�+$�O�� #K�� ;O�� H ��) M�!�

"��i�2007p Makkouk and Kumari, 2001(. �#!� ! �, 6�� /�0�P� H � ��,� 7�� !�� 7;0�� 7�� W�� #$��!��Imidacloprid ��$��140

�� ! ��5 / ��$1 H�O�� 6�� ,�� E�� !�� 0� ��R ��!0 �!, �!� ��#�2 -3 �� , ��;!� ��R�20 -40 %�� ;! GN;�#!� !�� 5�

(Semtner and Reed, 1997)، �� ;�� 7��+�� E��O� ��R� �� VO�� W�� 6#��#!� !�� !��Imidacloprid ��$��0.25- 8 �� ! ��5(Csinos

et al., 2001) �� J2� �� M�0�� 9�� !��$�� ! �O#��!��! ��#$��!�� Imidacloprid )280 "140 "70 "26 ��5/��$�#� �� ! ( �� 6#� :��

�! �� M�� N�N�� E�� HO� � ��$�� @�� E��O�� R� 4��N �� 0� D�0��$!�!�� !�� ! ��!�� $�� H�O�� 6�0(Andrei et al.,

2002). 2.3.1 .�� #��

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2007)( "� � !�� #O�#O�� b� 9, ��! ��R� �� H�O�� 6�� Q��, 7$ 6�� M�� N�N�� E��O�37% ��5 �� G! ��;!��!�� 73% (Marco, 1993)"

;�� , �� b� ��, 7$�� !�� W�� 7��0! 6#�7�;�� ! 7#� E��O�� !E��O�� !�� !�#�� 6�� Y�� =NT 6T#� �T�� ! �;�N ��

38

P�� 4�� #!� 4�4�� 0�� ^��,N��3 4��P� E��O�� ;0 �� (Powell, 1992 ) �hf�J�h M�� N�N�� E��O� ��R� Y� � �� ! 4�� 6T#�

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and Ragsdale, 2002) � ��T� H�TO�� 6�� !�� >�N�� #!� ! �, E��O� ��R� 6�� U��!52 % �T#!� !�� 5 �� G! ��;!69 % UT�+�

� E��O#� �#�� !�� 0� DV�O�� $ �^�O$ 6#�,�� L ��T$ �!�� T� ��E��O�� :�VO��! ��!�� 0�!�� /�0 ��$ �!�� VO��! D�^�O$ ��$ �!�� "

! � �!�� 0 ��J$�� H�!�� :� (Umesh et al., 1995). �T!$ H � ��, cI�� T�� M�� TN�N�� E��T�O� ��R� �! �� 3�� O� 6��

�� !�� !�� Q�� A��] 6�� :� �� !�� E��O�� J�� \� �#!�0�� U�+$�.(De Bokx et al., 1987) �� !$

cI�� #�� !�� ! 7�#;�� ! �� 0�� !�� G! �0��$! � �!�� 0 "��O�� R� �! 0�� ! c��! ��

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�� G! ��!�� ! G! ��;!1�� 7T!� !�� 5(Marco, 1993; Gibson & Rice, 1986).

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Acquired Resistance I��A�� I �� H�& ��#�� /0�f! ��]� ��2� ��$!�� !��;!�� Ah�h g��d /f0� "�!��;!#�’ ��T��

"H�!!�� @�� !��;! 7$�� 1�� H�!!�� V �!��;!�� J��! Y��K� 6�0� �I�� 5 ^��P� � ��]� ��, �!��;!�� @+�� 0�� "�� , M, �#!� !�� G��, � � �!��

�, ��T� 6�0 )( Kuc and Richmond, 1977" �TV�!!�� T�I�$�� NT�� fcj�Tr�g��(Kessmann et al., 1994; Vernooij et al., 1995) �� I��!�$ ��V�0! �� ,

�� E��;!�� ] 6�� Me�� , 7$ 6�� T#!� !�� 5 ��P� � �! ��T !�� T�5 ��# �� 4��P� � M,(Yalpani et al., 1991; Malamy et al., 1992;

Yalpani et al., 1993; Shulaev et al., 1995; Seskar et al., 1998)

39

D�!��! 7�� :�;�! ��! �O#��! ��, G��! 6#� �� N�� 0�� M�0� :��I�� V�!!�� I�$�� !��;! 6#� �� H�!!�� 7�� !�6!� �T!��;!�� @+T1

��G�� E�� Constitutive Resistance (Sticher et al., 1997). �� f�g�gN� ��i �� 7�, �! ��+ Q�� !��;! 7T�� ! D�!��! ��! �T! H�T! �,

��I��!�$ ��V�0! �� T�$��$�!�� @+T1 6�T�� C&�� E�� Induced

Resistance (Sticher et al., 1997) � �!�� !� �� E�� Acquired

Resistance (Kuc, 1982)" � ��,�� 6�� J�0�� H ��NI� �!��;!� 4 ��O�� 1��V, �! 0�� #� �� !��;!�� H��0� 4��N �� T� Y��T2�

�T�I��!�$ ��V�0! �� !(Ahn et al., 2005; Faheed and Mahmoud, 2006;

Mandal et al., 2008) �T;�� 0�� I�$�� N�� (Anfoka and Buchenauer,

1997) /�0cI�� 2� ��T�� , ��I��!�$�� $�!�� H �� 7!� � �� NO�, 4��P� �O ��E�� W�� U��! (Lucas, 1999) ��$� �,(Oostendorp et

al., 2001) ��I��0�L A��]� ��V� � �, (Kessmann et al., 1994; Kuc, 2001) � Y��$�! X�� 6#� �� O0� �� ! � ��$�� $�� 7J! ��T��!, ��Li 7��

(Shoresh et al., 2005; Sudhakar et al., 2007; Li et al., 2008) �T�� K��V�! �� !��;! � :�!�1 :�� Y #� �;0L � �, �� A�;�� E��O ��[� �!V

�� ,� (Gozzo, 2003; Edreva, 2004; Vallad and Goodman, 2004 ). �! H�!!� �!��;!�� G�N��@�� G�!� �2 �� , � T� @�T�0��

! G;� ��]�� "��P� ��R� �;N�! 7�0 ��K� �0�!� ��T�0�� N�T� �T�� T$�Hypersensitivity Reaction (HR) 6�� H�� E�� Local

Acquired Resistance (Hammerschmidt and Kuc, 1995; Greenberg, 1997;

Sticher et al., 1997; Heath, 2000). �T� :�� 9��P� ��P� 6�� :�� +I�� 6!�� +�� 6�0 7�� ;N�!�� U#� �� E�� Systemic

Acquired Resistance (SAR) (Ryals et al., 1992; Tahiri-Alaoui et al., 1993; Schlosser, 1997) .

��# Y U�#�� H!0� � :��, :�� R� 7;� �!��;!�� H��0� �� e!�� 3��O!�� 1�� T�� !��;!�� H��0 (Vernooij et al., 1995;

Glazebrook, 2005; Ogawa et al., 2006) .

�/0� �!��;!�� @+1 ��T��!, ��T�Li 7�� P� �N�� I�� O��V!�Phenylalanine ammonia lyase (PAL) " ��Li 7�� , N�� ]0�� /�0

40

��!,Y�� 1�]� :�;��! )��#�� ( Lignification (Elliston et al., 1977) �� H�!#� �� !��;! � :�� Y #7[� �!: ,- GV�� D��;�� #� �� f!�� H�T!!�� s��T�f� �T!$

��[� 7$��0�� 7$T� 6T#� ��$�#�T�� ##�� ! �, 7$�� $�� V��!�#0 � H�T!!�� $�0 �! 7#; (Ward et al., 1991; Hammond-Kosack and

Jones, 1996; Sticher et al., 1997).

Y- H�!!�� I�$�� 6#� ! ��J2� D� ��$� � . T� U�� , �$!� �� [� �� Y�$�� /0� �� K�� @+1 �2� ��

�!��;! H�!!#� �� H�T!!�� 7�� #!� ^�N�� 4��N �� !� �T�� , "��T��!4��L� ��#!� ^�N�� N�� N � ��i9��, �� (Ward

et al., 1991; Hammond-Kosack and Jones, 1996; Sticher et al., 1997; Franceschi et al., 2000; Yalpani et al., 2001; Sudhakar et al., 2007)

�]0�� !��;! �� ] �� $��T� ��T�R� GT��!� �� ) �� !��;!�� $!��( G!�� TVO��! �T��

�� :�� !��! � 7�� !�V�!!�� 0�� I�$�� , ��0��, ��T!�� ,�N�� #! � ��V� � �� 0��" ��V!�0 �!� �� ! ��

��#�� O�� , "�� !�� (Bent et al., 1992;

Stintzi et al., 1993) . T�� , "�� ! ��I��!�$ ��!� �� #!� ! �� :�V�, 7$��, ��0�� 7J! ��I��0,L ��R �� H� � ��$�� bN ��n�� n��$ �!��;!��

��$!�� (Sticher et al., 1997; Van Loon,1997). ��$!�� !��;!�� 7$�� )��V��!\�� ;# �!�� ( T�

W�� ! �� Q��P� �! � ��(Brederode et al., 1991; Ye et al., 1992). ��’0 11 �! :�� (PR1-PR11) WT�� T�� T�(Kessmann et al., 1994;

Sticher et al., 1997) �� @+1 �! PR-1 �T�� M+T�� T�� M+�� E�I��’ ��$!�� !��;!�� 1�] 7[� /0�� T�� T��" ��T��$��

chitinases (PR3) � ��5�#K�� (PR4) ،B-1,3-glucanases (PR2)، (Busam et

al., 1997; Anfoka and Buchenauer, 1997). $! ]0�� T�, N�T�� T$��Peroxidase (Ahl Goy and Gianinazzi, 1982; Ajilan and

Potter, 1992; Ahl Goy et al., 1992; Pierpoint et al., 1992; Shah, 2003;

Faheed and Mahmoud, 2006) 9��! � ��$�� T�� T�, �

41

(Chandra and Bhatt, 1998). U��1 �2� �� !�� ,�! �O#��! :��, �� !��I��!�$�� !��;!�� H��0� 6#� ��;! ��], ��$!�� T! � ��

�! � �� V� 7��0!�� V�!!��)�� "��$� "��N�( 1�: B . ��3 ��H� ��Natural organic compounds:

!�� U�#�� H!0Salicylic Acid (SA) (Nie, 2006) UT��$�P� H!0 "Oxalic Acid (OA) (Le et al., 2012)، ��[��T�� Riboflavin .(Dong

and Beer, 2000) UT�� HT!0 " (Leon et al., 1995) Benzoic acide

"��#�JR� Ethylen (Sticher et al., 1997).

T . ��H� U ��Inorganic compounds:

��$�#�� 7J! ��$�#�� 3[!P� "Salts )��O�O�� Phosphat( (Gottstein and

Kuc, 1989) 9��P� ��$�!�� ! �1��5�. /�0,�� 9 ��$�!�� @+1 6T��V��!R�� ;# �!�� $�� GT��! T� ��T��$ �T�� [� �

��R� �!��;! ��]� "V ��T��O�� R� (Madhusudhan et al., 2008; Nakashita et al., 2002; Cohen, 2001; Edreva, 2004; Oostendorp et

al., 2001; Sticher et al., 1997)

V. �� Synthetic compounds: Y$�! �V�� 7��J ��(Schlosser, 1997) Benzothiadiazole (BTH)،

UT��$�� HT!0 2,6-dichloroisonicotinic (Metraux et al., 1991)، ��- ��!, UT�� T,B- aminobutyric acid (BABA) )(Ward et al.,

1991. W .�E�� &�� :�� :micro organesim

WT�� T!� E��T�O� ��T�� ! ��#O�� ^�� 2� Y�� Tobacco necrosis virus (TNV) TV �T�� T!��;! ��T�] 6T�� 9, �TNO��

Phytophthora infestans ��2�!�� 0O#�� H�!� Y�!��(Anfoka and Buchenauer,

1997). �f�� E��T�� T! �O� TV �L[� �� W�� ^�� 2� �T$�� WT�� Tobacco necrosis virus (TNV) �� U��! E��,Tomato mosaic virus

(ToMV) L[�� V �!��;! �� H�0� �$� E�� ! ��;��W�� U��! E�� E�� W�� U��! nGT;� �� !�� 5 ��# �� !�� 4��P� 6#� ��] /�0 :�� :�!�0 7�,(Pennazio and Roggero, 2010)، �2T� ��T�� H � cI��

42

��V� M��0�� Y$�!�� M��$��Rhizobacteria 6�� 7�� M� �, �� +� DT� T � �� HO� 7;0�� A��] �0� ��R� � U�+� M�� G;�� $�� 0O#�� H�!

�� V�!�� G;�� V�O�� T��, T�� T�� 7�N �� 4��P� 6#� ��!�0��#!� !�� 5 �� ;! ��!J�� ! �� (Wei et al., 1996) =T�� "Al-

Ani ��i�)2011 (�� !��;! H��0� � �� 9�=!; E��T�� V �� O�� ;� ��$�� Q��, H � Pseudomonas fluorescence " ;��

�� M�� N�N�� E��O� ��R� HO� � �� "��$�� 7J! ��$�!�� H � �� , �� N�N�� (Dhingra et al., 1991).

1.3.3.1. I �� ;�&Salicylic Acid (SA) ��N �� 4��! 7�, �� 7$� 6#� "A��O�� ! �#��#� ^�V��

��$ HT!0� �� N ��! ��$�O�� V�� M�N� #�$��$ H!0 �1� ��T��P�� T0#�� T�� H�T�� T� T�� !$ U�#�� T�I��!�$�� D�K�T�

��!�R�C�H��OH��COOH� " 1 �#�O!�� K��:

�� 0 �� 159 E°" ��P� �� 1��!�� X[T �

��$�� NO�� Q��, H �� #�� !��$," ��T�� ^�T!�� 7T0�� T�� ^�!�� 70��L" 7��TTTT��R�" TTTT#��R� 7�TTTT0$��" �TTTTJ�P� ��TTTT��#$��(WWW.

Answers.com/topic/salicylic-acid, 2009).

�� !�1 Phytohormone �� N�� !� � :�!�1 :�� Y #�� K� �� (Hayat and Ahmad, 2007) ��T� HTO� T� @�� cI�� H � �� "

��V�!!�� R� �#!� !�� 7�N� �!� �� NO�� D� ��26-43.3% �� V�P� �� +T�� 7�TN �� !$ �#K�� #� (Ragab et al., 2009;

Hilal et al., 2006). �U�#�� H!0 SA E�P� ��0!�� $!�� !��;!#�" �:L�e! � ��

�� 7�� O�� #! �� ! �##f��kc�� !��;!#� �V�0!�� $�!�� 7 O�

43

�� $ 7$�� $�� @�� O��! �� 6#� 7�H��0� ��$! �� !��;! (Metraux et al., 1990; Yalpani et al., 1991; Ward et al., 1991; Rasmussen

et al., 1991; Sticher et al., 1997; Yalpani et al., 2001 ). �� A#�� !� U�#�� H!0SA �� Q��P� A[�� :��J$ �0��(Raskin et al., 1990) �$!��

�, �+1 ]0[� � �VO��! D��! ��$� /�0 ��+�� #I� �� Q��, �� A[��L� �� !�#T�� WT��# Nicotiana tabacum 0.01-0.02% / 7T$�1 4��, a WT�� ^��TV�

(Yalpani et al., 1991; Malamy et al., 1992) . �#�� M�� N�N�� E��O� �N�N�� !��;! �� ]0��9��! � �� HT!0

U�#��SA �0�� 4��,�� T� E��O�� !�� #!� !��4 G! ��;! A� V,�!�#�� N�� $�� T��!, ��T�Li 7�� P�Phenylalanine

ammonia-lyase (PAL) ��$�� , �Peroxidase �L�T��$�� (Ahmad et

al., 2008a) � ]0�� 2� W�� T�� E��T�O� UT��! WT�� Tobacco

mosaic virus (TMV) V�0� ��1�� $! �� !��;! E��O�� V "� @+1 �#J!��!��;!�� Q�O�� U�#�� H!0 9��!SA �0�� 4��P� �NT��!�� !�� #O��# �� A�� H�!!�� R� ��N� ��!�� 4��P� � �!$�V�0� �T�� !��;!P� �4�� !�� 5�� TV��!R�� ;# �!�� PRs :�T�� 9T�

��T�!�� T��(Malamy et al., 1990; Seskar et al., 1998; Yalpani et al., 1991; Yalpani et al., 1993).

� /�0�P� �� U�#�� H!0� W�� 4��, �#!� ! �2�V�0� �� !��;!�� VW�� U��! E��" �9��! �� U�#�� H!0SA �0�� 4��,!��

E��O�� # �� N�L� 9� �� #� ��. �� (White, 1979; Malamy et al., 1990; Rasmussen et al., 1991; Yalpani et al., 1991; Enyedi et al., 1992;

Michael et al., 1998) 4��P� � @��! ��!�� E��O��T� 6T�070 %� T�P�� 4��# ��N�L� 9� �� #� ��. �� 6�0 14% (Shulaev et al., 1995;

Molders et al., 1996) � ��;�� $��V��!R�� ;# �!�� # ��T�R� G��! � �T��$ 7$T�� (White, 1979; Malamy, 1990; Ward et al., 1991; Enyedi et al.,

1992; Yalpani et al., 1993; Shulaev et al., 1995; Michael et al.,1998; Wildermuth et al., 2001) .

�’�2� �$+ � 6�� 9, � U�#�� H!0� W�� 4��, �#!� !�0� �T�� !��;! H W�� 9� ��R� V E��O�W�� U��! �T�$�� ]0�� /�0 N�T��

44

��!, ��Li 7�� P�(PAL) � T� 6#�, ��$10 4��P� � ��! �� !�� #!� !�� U�#�� H!0� ��5 4��P�� ;! �� !�� G! :�;��! ��$�9��! � �� HT!0

U�#�� SA �0�� M+�� :L�e! �� !��;!#� �V�0!�� R� 7;� ��(Pallas et al., 1996; Ogawa et al., 2006; Li et al., 2008; Chen et al., 2009 ).

�� 6�� 9, � U�#�� H!0� W�� 4��, �#!� ! �2 �T0� �T�� T!��;!�� H��$!�� V E��W�� U��! Tobacco mosai viruc (TMV) � ET$� E��T�� N�N��Potato virus x (PVX) ��T�� U��! E��Cucumber mosaic virus

(CMV) E��O�� $�0 �� U�+ ��$� ��!�[�� N�� 9�T�P �T�#� �T! �#��N ��!�� T��# �� 4��P� 6T#� H��T�P� ��] ��2�� 9, �!! ��T� H�TO��

(Naylor et al., 1998; Murphy and Carr, 2002; Mayers et al., 2005) . U�#�T�� HT!0 �! �O#��! ��$�� W�� b� �2� Y�� 6T�� 9,

M�� N�N�� E�� V �� !��;! H��0� H�O�� #J!� /�0 �T� H��T�, ��R�)� A�O� ��!�4�� # ( ��T�, N�T�� T�� T�� T! �T��# �� ^��P� �

��$��Peroxidase ��$��chitinases (PR3) �!$ ��#� �$�� ]0�� ;# �!�� V��!R��PRs :�� 7J!PR-1a �PR-1b ��T !�� 4��P�� 4�� $��T� ��

��1��$�� !$� �0�� U�#�� H!0 �T, ��!, H!0� ��#!� ! �� D��! 7$�� (Masuta et al., 1999; Herbers et al., 2000; Nie, 2006 ).

�! �5�� 6#�� U�#�� H!0 �, Y #��N�� $�� T!��;!�� H��T0� T� �� $!�� Y�� D�, L�� ,Y��!�� $�� " ��!T Y�T� @��$�� P

��T�� P 9+,� ��T;�� (Enyedi and Raskin, 1993; Friedrich et al., 1996; Wieringa-Brants and Schets, 2008) .

��$��T� �TN�N�� b� �, 6�� H � ��,1mM �2mM �T! U�#�� H!0SA 6�� 9, �!��;! H��0� V �� E�� M�� N�N�� ! � �#!� !��25-30 N;� E��O�� 9 !�� 1�� G! ��;! b�� ! :�!�� !

��H!0�� #!� ! �VO�� R� H��, �� E��O�� ;!�3.3-15 % ��$ /�0 H��P� ��N� 6#� =V�� J2� D�� 7�N � �� U�+ 4��4 �N�N��

�� T;!� �� !82.35-116.56 GT! �T��;! a �T�� 1�T��63.35 a (Ahmad et al., 2008b).

45

2.3.3.1 . I��A� ;�&Oxalic Acid (OA) !Y$� M�V� ��N ��V�� J$� ��! �� T�� ) 4#T�� >��T�� (

H�!0�� #0�� N�N�� Y� �� f� �1��R� �� c�� 6#� " ��$ ^�V�� #� 7$� �T�� Y�+� /�0 ^�!�� +#� �#�� #�� !�� O�

��05 E0 �T #��! �+� :�� !� 1�(WWW.Oxalic Acid and Foods, 2012) ��I��!�$�� D�K�� 1 �#�O!�� K��

’ � �! � �� $!�� !��;!�� H��0� � �!�� I��!�$�� !�� !

7��0!�� VcI�� "�V�!!�� I�$�� ! � �� +� �#!� ! �, /�0�P� H � �!��;! /�0 Y� 7;0�� 7�� D� �1��O � �, ��+�� G;�� ^�� U��$�P� H!0�

��;� E�� V �� 0 ��Rice grassy stunt virus (RGSV)

�#J!� �� 7�N 7 ! � �#!� !�� 5 �� ;! ��0�� #K��(Le et al.,

2012)" ��V�!!�� R� �� HO� � @�� 6�� /�0�P� �! � �� ,� ��NO�� +�� G;� D�� ,6#� D �!�� $�� $�� 0�� /�0

�� ! �� VO��!�#�� !�� ;!H!0�� #!� !�� 5� � 6�� 9, �� D� �#!� !�� 7�N� �!� � ��26-43.3%

�V�P� �� /�#K�� #� �� +�� 7�N �� !$ �� N�� $�� 7�� , (Hilal et al., 2006; Ragab et al., 2009)"

� �� U��! E��O� ��R� ^�� !��;! ��$�� $�CMV �#!� ! �� H!0�� +�� +��) ��$��0.1 Mm ((Abdel-Aziz, 1999).

4��, �#!� ! �,� �� W��H!0 U��$�P� ��$�� T! 4-5 Mm 6T�� TO��H �NO� ��R�Sclerotinia sclerotiorum �� $�� L��$�P� ��T�� T$�,

��$��Ca ++ �� [�� T�� (Cessna et al., 2000). �T!$ �� , 9��, 6��!1,H!0�� R� HO� ��V�!!�� ! � ��

4��N ��;� �� #�� #� 7J!��$�� T0�� 7�$T�� T��$��

46

�� !�[�� N�� H�!!�� 7�;�� HT!0�� +�� #!� !�� , �!$ 6��!$ �� ^�!�� $�P� � � �� $�, �L��$�P� N��

��TV��!R�� T;# �!��(Wendehenne et al., 1995; Dutton and Evans, 1996; Wojtaszek, 1997; Nennstiel et al., 1998; Zhou et al., 1998)

47

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1.2. �"E� ��3�3�� %�� =�� < �#�� >�� -��"B ? ��

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�� 2010 �2011 " 7T;0 7$ �! �� ! �� G!� ��[� �� :)A( :10-18 ��:�E�� M�� N�N�� E��O� ��R�� 0�� :�V��, ��#� ��]) G;� "��;� "U��!

�0�� K� ��1��"� 4�� #� �� $�( )�0�� 1.2(� ")B( :25-55 �;��N� � !� ��:�� 7;0 7$ �� /�0 " U��$� 7$�� A�T�� Y0 A#�� G��!�� 0�! �� ! 6��

G��!�� 0�! ��$ U�� O�� A�� O�2×2 �2 A��T�P� �T!,) "�!T��5� "�N��5 "M#� "Y�#�� ( G��!�� 0�! ��$�1×1�2 �� +�, �� ")�� ( �! ��#�

L �, ��1�] H��, �� ]�� A�� G��!�� !V ��!�� ! �� 7$. ��#;0 =! ��!�� !]�� !V� :G!�� >�� "7;0�� "N�! GT!�� T; "

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49

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LSD 5% 2.06 5.6 4.64 2.06 5.6 4.64 �� 2011

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76

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LSD var*p=4.6 LSD var=8.6, LSD p= 10.9,

LSD var*p= 57.3 LSD var=6.8, LSD

p= 4.7, LSD var*p=4.6

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p= 4.9, LSD var*p=3.7

78

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85

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LSD1%

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SA N�� = 4.4 3.6 3.4 2.5 3.4 3.4 3.4 2.9

LSD1% 1 �� 24 4��LSD var*sub*m*d= 0.11 �� 48 �� "LSD var*sub*m*d=

0.14 �� 72 ��"LSD var*sub*m*d= 0.10 �� K��L�

Var 4%�� -�"��sub ��#�� @�� 4m 4@�� H$ �E3d %�<�� N��

3.5.3. �E� I �� ;�& N��(SA) &��>� /100 ^ K��B �� <��"�� >�� 1��#� �� H ��;�&� � �� I��A�

(OA) ��,� �� H!0 9��! Q�O�� 6�� cI��SA �0�� [!�T !�� T] ! � M�� ! 7$��

�� ! 4��O��;! 1�� G! 9 !�� E��O�� !H!0 ��V� :�T��!� �!TV

90

$�� !�!�� 7[�2010 �2011 " �� <�2010: 6T#�, 7�T 9��! D� ��! �72 6#� ��b�� H!0�OA ��$�� 0.5 7�!�#! 7��3 �T! ��,

E��O�� 9� �� ^�� W�� O�� 4��, � �T��!�� 1��#� )13.7 "10 (%��#�� 1�� ;! )2.1 "2.5(% � 1��9 !�� HT!0 ��V� �� E��O�� )3"4 (% H!0� 7!� !�� 1��OA 9�T� �� :�� E��O��T�)3.1 "3.2 (% 6T#�

" �� @��! 7�� !�� H 6T�� )17.4 "12.4 (% ��#�� 1�� ;!)3 "3.2 (%9 !�� E��O�� ! HT!0 ��V� )4 "3.6 (%

H!0� 7!� !�� 1��OA �� 9�� :�)3.1 "3.2 (% �� 6#� �� T;�� @+T1 �� G!O�� # �� 4��P�� @��! QE��O�� !�� 5 �T�� W�� O��

6�� :��! �#!� !�� EO� ��)3 "2.2 (%� $�� !V 6T��)2.8 "2.6 (%) 7�T� 22(.

�� 2011: �#!� !�� O� H!0�OA :��$�� 0.5 7�!�#! 7��3 �T! ��T�,E��O�� 9� �� ^�� ;! �� ! 4��O�� :��#;0� :��! �� W�� O��

��O�� 9 !�� 1�� G!� 9��P� �[!� !�� G!E @+T1 �� :��! @��! GO�� /�0 N;� �� W�� O�� 4��, � �#!� !�� 6��)11.5 "8.6 (% � �T��;! ��#T�� 1�T��

)2.5 "2.8(% � 1��9 !�� E��O�� ! HT!0 ��TV� )2.6،4.2 (% 1�T�� H!0� 7!� !��OA E��O�� 9�� :��)2.7 "2.8 (%" �� 6#� @��! 7��

��!�� H 6�� )15.4 "13 (% ��#T�� 1�� ;!)2.2 "3 (%9 !�� H!0 ��V� �� E��O�� )2.8 "2.2 (% H!0� 7!� !�� 1��OA �� 9�� :�)3.1 "3.2 (% �� 6#� ��;�� @+1 ��T�� GT! TO�� @��T! Q

��# �� 4��P��E��O�� !�� 5 �� W�� O�� :�T��! �#!� !�� EO� �� 6��)2 "1.8 (%� �� !V $�� 6��)2.4 "2.6) (%7�� 23(.

9��! ��;! ��SA ��O�� 0�� #;0�� !�� @��T! �, �� A�� 6#�, ��$ � ��;!A�� ] ! �[!�T !�� !T�!�� T��

2010 �2011 )7�� 22( �)7�� 23( .� �� D� 9��! 6#�, ��$�#!� !�� HT!0� OA � E��O�� 9�� :��3 ��, ��!�� 2010 T � DT� 9��! 6#�, 6�� 7�� /�0

��!72 6#� �� b��6�� 17.4 % ��O�� @��!� ��;!12.4% 7T�� !�� !�� @��!2011 6�� #!� !�� EO��15.4 % A�T�� T��;! T�� A��

91

��13 %)7�� 22( �)7�� 23( . HT!0 GT�� 7�0 �� 6#� �J � �� OA H!0 9��!�SA �0�� 6T#� 7T! � �!�� W�� O�� 4��, � HTO�

��V�!!�� ! � �� R� 4��N �� T� ��$�� #� ��#�� ;� �T�!�[�� N�T�� T�� H�!!�� 7�;�� 0�� 7�$�� $��

(Dutton and Evans, 1996; Nennstiel et al., 1998) ، H!0�� +�� #!� !�� , �!$ ��$�P� ^�!�� !$ �� 6�� $�, �L��$�P� N��

��V��!R�� ;# �!�� TV��!R�� T;# �!�� T�� T�� T�� WT��

(Wendehenne et al., 1995; Wojtaszek, 1997 ) �� (Zhou et al., 1998).

92

��22 : N�� ;�&&�� I (SA) >� /100 ^ ��A�K�� K��A� �� %�<�� @��

�� @�� U ;�&� � �� >�� E�" K��B I��A�(OA) �� 0.5 �� 1��#� �� H �� 24 448 472 %�<�� N�� ? � �� 2010.

��

� ��

��

24 ��

48 ��

72 ��

�� K��B ) ��10 ��B

N�� %�<��(

24 ��

48 ��

72 ��

�� K��B ) ��10 ��B

N�� %�<��(

1��#�

� � �*�� 1.9 1.9 2.1 1 2.1 3 2.5 1.6

3E� N�� *�� 2.8 3 3 1.4 3.6 3.6 4 2

OA �� N�� ] 6.2 6 8.8 6 5.5 6 6 2

OA �� N�� = 4.4 5.8 9.2 2 5.4 5.5 5 5.8

OA �� N�� ]3��B 5.8 8.9 13.7 3 4 7.1 10 2.2

OA �� N�� =3��B 7.9 10.1 11 2.3 4.8 6.5 6.2 3

OA N�� ] 3.4 4 3.1 1.1 3.1 4 3.2 2

OA N�� = 3 3.2 2.6 1.1 2.5 4.2 4.1 2.1

LSD1%

LSD var*sub*m= 0.75, LSD var= 1.7 �� 24 4��LSD var*sub*m=

0.82, LSD var= 2 �� 48 �� "LSD var*sub*m= 0.77, LSD var= 1.9 ��72 ��"LSD var*sub*m=0.3 var= 0.7 �� K��L�

1� E&

�� ! ��ه 2.2 3.2 2.8 3 2 3 2.1 2 �ى *�8�� ه 3 3.6 3.8 3.3 2.5 4 3 2.8

OA �� N�� ] 4 4.2 8.1 2.4 3.4 4.1 9.5 3 OA �� N�� = 3.4 4.2 8.2 2.1 3.8 8.2 10.3 2.8 OA �� N�� ]3��B 3.4 7.2 17.4 2.8 3.6 6.2 12.4 2.6

OA �� N�� =3 ��B 7 6.1 16.1 2.6 4.2 9.2 11.6 2.8 OA N�� ] 4 3.2 3.5 2.6 3.6 3.6 4 2.2 OA N�� = 3.6 4 3.5 2.6 2.8 2.8 4 2.2

LSD1%

LSD var*sub*m*d= 0.1 �� 24 4��LSD var*sub*m*d= 0.11 �� 48 �� "LSD var*sub*m*d= 1.14 �� 72 ��"LSD var*sub*m*d= 0.10

�� K��L� Var 4%�� -�"��sub ��#�� @�� 4m 4@�� H$ �E3d %�<�� N��

93

��23 : �� ;�& N��&�� I (SA) >� /100 ^ ��A�K�� K��A� �� %�<�� @��

�� @�� U ;�&� � �� >�� E�" K��B I��A�(OA) �� 0.5 �� 1��#� �� H� �� 24 448 472 %�<�� N�� ? � �� 2011.

��

� ��

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24 ��

48 ��

72 ��

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N�� %�<��(

24 ��

48 ��

72 ��

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N�� %�<��(

1��#�

� � �*�� 2.1 2.4 2.5 3.7 3.3 2.8 1.2

3E� N�� *�� 2.7 2.6 2.6 0.6 3.4 3.5 4.2 2

OA N�� ] �� 4.4 5.2 9.8 1.2 5.1 5.6 5.8 1.5

OA �� N�� = 4 6.4 7.2 7.4 5 6.1 5.4 5

OA �� N�� ]3��B 6.4 5.9 11.5 1.4 3.4 6.5 8.6 1.8

OA �� N�� =3��B 9.9 8.3 9 2 6.6 6.9 5.6 1.4

OA N�� ] 1 2.2 2.7 0.5 2.7 3.2 2.8 0.8

OA N�� = 1.4 3 3 0.8 2.3 3.4 2.1 0.7

LSD1%


�� K��L�

1� E&

�� ! ��ه 2 3 3 1.8 2 2.2 1.4 1.8 �ى �� 2.2 3.2 3.2 3.3 2.5 2.8 2 3 *�8��ه

OA �� N�� ] 3.8 4.4 6.7 2.2 3 3.9 9.7 1.4 OA �� N�� = 3.6 9.2 7 1.9 3.6 7.8 11.7 2.6 OA �� N�� ]3��B 3.4 3.2 15.4 2.4 3.4 5.4 13 2.6

OA �� N�� =3 ��B 6.8 11.5 14.9 3.2 3.8 8 11.8 2.4 OA N�� ] 2.6 3 3.3 2.4 3.2 3.4 3 2 OA N�� = 3.2 2 3.5 2.4 2.4 2.4 2 1.8

LSD1%


�� K��L� Var 4%�� -�"��sub ��#�� @�� 4m 4@�� H$ �E3d %�<�� N��

94

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�!! :��+�+� 7�, 7;0�� 1)��N� "�^�V� "��0( 7[T� ��T0�� T�� O�� /�0 �! �J$, 6�� !�!��35 Ek 7!�� J!� �� I��0�L T�� H�T0!

�� 9��! Q�O�� SA �T0��(Sticher et al., 1997; Van Loon,1997) �, 6�� A[�� N�� $!�� $�� !�� /T�0 �!pH �T�!$ �,SA

��!��. �� 9��! Q�O��SA �0�� HT!0� �#!� !�� G�!� ��SA �,OA GT! �T��;!

�!��! M2� 7!� � �� , 6�� T;��!�� $!�� !��;!�� H��0� � 9��! Q�O�� SA �0�� T��#� �!� �� 4��P� � :��;! �$� ��

�� M, ��# �� 4��P� �� 7� 9� ��SA �0�� :��(Malamy, 1990; Yalpani et

al., 1991; Yalpani et al., 1993; Sticher, et al., 1997; Nie, 2006) 4.5.3. I �� ;�& ��H$ CG� (SA) � ;��& I��A�(OA) �� 0.5 �� ? ��E ��E� �� >�� <�" ��#�1�

�� ! 4�� cI�� ;! ��;��[!� !�� G�!� �� T�� V!0�� [$SA وOA �� !�!�� 2010 �2011 9T !�� 1�T�� ;!

E��O�� !H!0 ��V� 7!� !�� 1�� H!0 :�� :�� ,9�� " ��$� 7�, ��;� ��;!O�� W�� 2010 T�� M�T�� T� H!0 9�T�� E��O�� 3 ��, W#� /�0) 14.6 "8.9(% ��;!�9 !�� 1�� E��O��T� �� T!

H!0 ��V� )58 ،35.2 (% �� 6#� �)32.5 "16.4 (% H!0�� OA :�� 9�� E��O�� 3 ��, ��;!�9 !�� 1�� N;� E��O�� ! H!0 ��V�

)7�� 24(. �� 2011 : �T�� ! 4��O�� W�� O�� ;�� ;! HO��

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29 (%� �� 6#�)38.5 "20.6 (% H!0�� OA :�� 9�� E��O�� 3 ��, ��;!�9 !�� 1�� N;� E��O�� ! H!0� �#!� !#� ��$� H!0 ��V�OA

:�� 9�� E��O�� 3 �T�� A��#� �� ;�� #!� !�� J2� EO� ��,! 4�� #!� !�� )7�� 24.(

95

H!0� �#!� !�� VO� �!$SA :�� :�� , G! ��;! �J$, �� A�� ;�� ;! �[!� !�� G�!� �� A�� !�!�� [$ �� H!0 ��J2� ��;! ��SA ��J2� G!

H!0OA H!0 �, ]0[� �� W�� O�� ;� 7 ! 6#�SA � 7V�P� �1�[!� !�� G�!� � ��;�� ;! HO�. �� H�O�� ;! ��T��O�� 9�T �� ;�

��V!0�� W�� O�� M� ��SA وOA �^�TO$ �, 6T�� T � b�T�� [!� !� ��;! "4��P� b�T� �T#!� !�� GT! �T��;! 6#�, �� +� 4��N �� V!0�� !�

� H�O�� ;! TV!0� �#!� !�� W�� O�� ;��SA وOA ��$�, 0, �! �� O�� 9� �� !��;!� ��$!�� !��;!�� H��0� 6�� T�� T�, T� @�� E��O�� A��V� �� 2� �! �� 0�� K�

(Naylor et al., 1998; Mayers et al., 2005; Nie, 2006) . �� cI�� 2� �!� ��] A�$�� R� H��, ��T�� T�� E��O��T�

]0�� $�� !��!�� J[J�� $�� !� � ��2� ��O�� [$ ��$�� /��J�� 0.75 7�!�#�! �! H!0SA � �T! T� �� G! 4�� +1� !�� J2�� ] ^�

�� , 6�� , �� ;�� 6�� Me� H!0�� ! �� $�� TO�� H �#!� !�� !� �(Nie, 2006; Friedrich et al., 1996; Wieringa-Brants and

Schets, 2008).

96

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��2010 ��2011

� ��

� � �*�� 0 0 0 0 3E� N�� *�� 58 35.2 56 29

SA �� N�� ] 28 21 32 29.2 SA �� N�� = 17.2 16.3 26.3 18 SA ] �� N��3��B 15.1 12.4 15.1 16.5 SA �� N�� =3��B 14.6 8.9 14.9 5.6

SA N�� ] 0 0 0 0 SA N�� = 0 0 0 0

OA �� N�� ] 38.4 23.6 48.6 32.8 OA �� N�� = 32.2 22.4 44.2 25.4 OA �� N�� ]3��B 38 20.1 37.8 31.1 OA �� N�� =3��B 32.5 16.4 38.5 20.6

OA N�� ] 0 0 0 0 OA N�� = 0 0 0 0

LSD5% LSD var= 0.1, LSD sub= 0.21

LSD var *sub*m*d= 0.41 LSD var= 0.1, LSD sub= 0.21

LSD var *sub*m*d= 0.41 Var 4%�� -�"��sub ��#�� @�� 4m 4@�� H$ �E3d %�<�� N��

5.5.3 . CG�� < �#� �� #��I �� ;��& (SA) � ;��&I��A�(OA) ? ��E� ��E� �� >�� <�" �� H

�� ! 4�� cI�� ],��;! �[!� !�� ! ��;�� T�� T� ��

V!0�� SA وOA 9 !�� 1�� G! ��;! �J[J�� $�� :�� , :�� E��O��OA H!0 ��V� ��O�� [$ �� !�!�� 2010 �2011 ) 7��25(. �� 2010: ��;� ��;! 7�, ��$ ��O�T�� [T$�� [!� !�� G�!� � T�� M�T��

��V!0�� 0.5 �� 9�� E��O�� 3 ��, W#��P� 0�� 6�O�� W�� )2.8 "5 (% H!0 �� SA �1.6) "0.8 (% H!0 ��OA ��;!

�9 !�� 1�� E��O�� !H!0 ��V� �� OA )24.1, 30.3% ( �� 6#� ) 7�T�25 .(

97

�� 2011: H!0� M�� #!� ! ��O�SA �� 0.5 �� 9�� E��O�� 3 ��, �� W�� O�� ;� ��;! HO�� /�0 �� ! 4��O�� [!� !�� 6#�

��)1.4 "1 (%�0.6) "0.2 (% H!0� M�� OA �� 0.5 �� 9�T�� E��O�� 3 ��, ��;!�9 !�� 1�� H!0 ��V� �� E��O�� OA )24.1, 26%

( �� 6#� ) 7��25(" �#!� !�� J2� ��;! �� H!0�SA �OA :��!� �!TV $�� ! 6#�SA ��T$ ��TV!0�� [!� !�� G�!� � �0��

9��!SA �0�� 6#�, $�� !V 6�� 9, �!! ��!�� G! ��;! H�TO�� ! ��T;��;�� A��] � $�� 1 �!! ��$, 7$��!�� .

98

:1�25ول CG��< �#� �� #�� I �� ;�&(SA) I��A� ;�& �(OA) ��E� ��E� ? ��<�" �� >�� H�� 2010.

� ��

��2010 ��

�1 0.25 ��

� 0.5 ��

�3 0.75 ��

�1 0.25 ��

� 0.5 ��

�3 0.75 ��

E��< 10 0 0 0 0 0 �3ه F� 24.1 24.1 24.1 30.3 30.3 30.3 �3ه1 -/1ى �

SA �� N�� ] 9.9 6.5 8 13.5 8.3 8.3 SA �� N�� = 7.3 3 6.8 10.7 6.6 7 SA �� N�� ]3��B 8.1 3 6.5 9.5 5.6 6.2 SA �� N�� =3��B 7.3 2.8 4.8 10.2 5 8.4

SA N�� ] 0 0 0 0 0 0 SA N�� = 0 0 0 0 0 0

OA �� N�� ] 14.1 5 6.5 8.8 3 6 OA N�� = �� 3.6 2 2.4 7.2 3.2 6.8 OA �� N�� ]3��B 10 2 2.2 6 2.2 3.2 OA �� N�� =3��B 1.5 1.6 1 6.2 0.8 2.2

OA N�� ] 0 0 0 0 0 0 OA N�� = 0 0 0 0 0 0

��2011

E��< 10 �3ه 0

0 0 0 0

F� 24.1 24.1 24.1 26.2 26.2 26.2 �3ه1 -/1ى �SA �� N�� ] 11.9 4.6 7.5 9.2 2.4 6.3 SA �� N�� = 9.9 2.2 4.4 6.8 2.2 3.2 SA �� N�� ]3��B 10.3 3.8 4.8 9.6 3.5 6.2 SA �� N�� =3��B 6.9 1.4 3.1 4.1 1 0.6

SA N�� ] 0 0 0 0 0 0 SA N�� = 0 0 0 0 0 0

OA �� N�� ] 9.5 1.5 5.5 6.8 2.6 2 OA �� N�� = 4.4 1.2 3.4 4.8 4.4 1.2 OA �� N�� ]3��B 2.2 0.8 1.8 4.6 1.4 4 OA �� N�� =3��B 2.9 0.6 1.4 2.6 0.2 0.8

OA N�� ] 0 0 0 0 0 0 OA N�� = 0 0 0 0 0 0

LSD % LSD var= 0.81, LSD sub= 1, LSD var *c* sub*m*d= 0.86 Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d %�<�� N��

99

�� W�� O�� #!� ! ��V!0�� SA وOA ):�� ":��( 6�� , H!0 9��! Q�O��SA �� 7�� 0�� M+�� !P� �� !��;!�� H��0�

�� M�� N�N�� E�� N� HO� 6�� 9, �!�� 0�� O0� �1�� G! ��;!H!0� �#!� !�� 5 �� SA وOA 7�� ! �$+�! G! U�+ 4�� (Hilal et al.,

2006; Ragab et al., 2009; Le et al., 2012). 6.5.3. CG� ��#�� 0.5 �� ;�&SA �OA � 1��#� ��

�< �#�� H ? �� K��A� �� %�<�� >�� <�"�� =�� 3�3�� %�<� N��

V! �49 E��O�� 9� �� #!� !�� ! :�!��L� A�$ #�!��TBIA �� E��O�� ! �� !� �� # �� 4��P� �� 9�� #� ��

� �! �+��2!�� G�!� H!0� �#!� !�� SA � OA ��$�� 0.5 7�!�#�! ��$�� J[J�� !V $�� E��O�� !�� :�� , :�� . ��V!0�� , $e� M+�� !P�

��!��!��SA �OA � �0��$! � :�� #� �� $!�� !��;!�� H��0�D�! �� ^�O�� E��O��.

7.5.3. CG��< �#� �� #�� H �� I �� ;�&(SA) �;�& �I��A (OA) ? �9�� K��L� �� ;�� <�"

�� >�� H!0 �! 7$ �� =V�� R� �� , �SA �OA � G��

Q�TO�� 7[T� �! �O#��!�� J2� �! �� O�� \� M��#� �� 1�� U�#�� H!0 9��!SA �� #!� !�� 0�� 6T�� 9, M+�� 2T� �T!�

HO� "��R� H��, A�$�� V�!�� T�R� D��T� M+T�� ;�� 7 ! HO� " ��O�� R� 6#� �!1��J2� �� ! �! �L ��$� �� ;��O��#�. 1.7.5.3 . CG� �< �#� �� #�� H �� I �� ;�&(SA) �

I��A� ;�& (OA) �� >�� <�" ��$ ? � \�H#�� K��A� �� <<�� )>�/ ��(

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100

E��O�� !H!0 ��V� ��!�!�� 2010 �2011 ) 7��26(" ) 7��27( ") 7��28( ") 7��29(.

�� 2010: ��R� �� V!0�� J[J�� $�� :�� , :�� )1"3 (E��O�� 9� �� ! ��, "� �� 6#�, ��$ �� O��#� 4��P� �!

^��V�� ;�&��SA �� 1�0.5 �� E��O�� 9��3 ��, /�0 �K#�)575.7 "611.2 W$ /�� (9 !�� 1�� G! ��;! E��O�� ! H!0 ��V�

�� W�� O��)256 "246.6 W$ /��( � �! ��O�� U�+ 4�� #!� !�� EO� �� K#� /�0 �OO�!�� 4��P�)78.8 "98.7 W$ /��( 1�� G! ��;!

9 !�� E��O�� ! H!0 ��V�)30.1 "33 W$ /��( ) 7��26( "��I�� H!0� �� W�� O�� #!� ! �2�OA :��$��0.5 7�!�#�! E��O�� 9��

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� � �*�� 560 568 560 595 615.5 606 3E� N�� *�� 258.8 256 276.2 258 246.6 264

SA �� N�� ] 356.2 422.6 392.5 389 486.5 420.5 SA �� N�� = 375 476.5 455.1 402 495.1 444.4

SA �� N�� ]3��B

402 498.4 520 410.3 510.3 464.5

SA �� N�� =3��B 428.2 575.7 522 433 611.2 496.6 SA N�� ] 466 556 566 603 610 6.3 SA N�� = 518.8 562.3 564.2 633 632.3 618

LSD5% LSD var= 10, LSD var *c* sub*m*d=9.9

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� � �*�� 65.4 68 69.9 93.2 98.2 90

3E� N�� *�� 31.4 30.1 33.4 34.7 33 30.4

SA �� N�� ] 46.2 48 47.8 60.6 74.3 60

SA �� N�� = 48.4 49.6 56.2 68 84.2 64.1

SA �� N�� ]3��B

42 68.9 69.9 56.2 86.5 86

SA �� N�� =3��B 57.2 78.8 75.1 68.6 98.7 82.1

SA N�� ] 64 58 54 94.6 93.3 91

SA N�� = 68 70 68 96 98 97.8

LSD5% LSD var=2.2, LSD var *c* sub*m*d= 2.3 Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d %�<�� N��

103

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SA �� N�� ] 333.6 465.6 384.9 373.6 494.9 412.5 SA �� N�� = 384.6 477.1 463.1 396.6 524.9 493.8

SA �� N�� ]3��B

382 555.8 482.2 397.3 575.5 457.7

SA �� N�� =3��B 377.6 571.7 502 415.2 585.8 469.2 SA N�� ] 376.4 512.4 502.4 617 635.7 697 SA N�� = 545 544.3 535.8 620.4 621.1 626

LSD5% LSD var= 10.2, LSD var *c* sub*m*d= 10

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3E� N�� *�� 37.4 33.9 38.6 30.7 27 33

SA �� N�� ] 40.5 72 50.8 55 86.1 48.6

SA �� N�� = 46.2 94.4 58 62 86 85.9

SA �� N�� ]3��B

34 72.1 60.7 61.4 80.9 84.2

SA �� N�� =3��B 53.8 103.4 71.5 57.2 100.7 70.3

SA N�� ] 42.6 55.4 47.8 47.2 53.3 115.6

SA N�� = 66.6 75.4 72 85 109.6 99.6

LSD5% LSD var=2.2, LSD var *c* sub*m*d= 2 Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d %�<�� N��

104

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OA �� N�� ] 402.2 458 460 399 433.3 450 OA �� N�� = 486.3 490.4 482.4 468.1 456 502

OA ] �� N��3��B

516.6 558.4 548 488.3 625 490.3

OA �� N�� =3��B

548 666.7 566.1 510.3 655 538

OA N�� ] 520 561.2 528.6 612.3 611.7 610 OA N�� = 532.4 538.8 533.4 599.1 615.6 611


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3E� N�� *�� 38.2 36 34.1 34 34.2 33.3

OA �� N�� ] 58.6 68 65.4 56 73 70

OA �� N�� = 58.8 74.8 70.2 68 88.2 75

OA �� N�� ]3��B

68 78 65.2 71 106 72.5

OA �� N�� =3��B

92 98.2 86.1 77 110.6 96

OA N�� ] 80 86 78.6 106.6 108.8 106

OA N�� = 56 66 68 106 110.3 100.2 LSD5% LSD var=2.2, LSD var *c* sub*m*d= 2 Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d ��

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105

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OA ]�� N�� 426.8 568.2 532.2 309 665.7 455.8 OA �� N�� = 493.7 646.6 584.2 442.1 416 530

OA �� N�� ]3��B

503.8 604.2 564.4 491.7 642 365.3

OA �� N�� =3��B

527.6 651.1 575.3 479.9 650 560.6

OA N�� ] 560 525.4 559.4 621.1 614.9 614 OA N�� = 559.2 550 552.4 640.9 634.6 663


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OA N�� ] �� 44.8 74.2 69.2 39.4 113.6 56.2

OA �� N�� = 71.8 70.2 65.4 121 90.4 94

OA �� N�� ]3��B

55 74 76.2 71.6 113.4 73.7

OA �� N�� =3��B

68.4 93.4 74.3 78 116 91.6

OA N�� ] 121.4 135.4 101.5 99.2 99.8 104

OA N�� = 69.7 62 54.6 101.6 100.3 106.4 LSD5% LSD var=2.2, LSD var *c* sub*m*d= 2 Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d ��

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106

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and Ahmad, 2007; Wieringa-Brants and Schets, 2008;).

107

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3E� N�� *�� 32 33.2 33 31 34.5 34

SA �� N�� ] 42.3 44.4 44.2 46.4 44.2 41 SA �� N�� = 41.6 44.8 44.6 44 46.2 45.8 SA �� N�� ]3��B 44 48.2 46.8 45.2 47 48 SA �� N�� =3��B 48 48.6 47.9 46 49.8 44.6

SA N�� ] 52 53 52.1 52.8 54 51.2 SA N�� = 53 53.5 51.4 53.1 54.6 51.6

OA �� N�� ] 44.2 44.3 44 38.2 41.6 41 OA �� N�� = 43 45 45 41.2 42.6 43 OA �� N�� ]3��B 44.3 46 44.9 44.1 46 45.1 OA �� N�� =3��B 44.6 46.8 46.5 44.3 48.1 46.2

OA N�� ] 48.6 49 49 48 47 46 OA N�� = 48.9 51 47 53 53.6 52.1

LSD5% LSD var=1.1, LSD var *c* sub*m*d= 1.2

Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d N�� %�<��

108

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3E� N�� *�� 36 35.8 36 36 32.5 33.6

SA �� N�� ] 50.7 47.2 47.2 54.6 46.2 3 SA �� N�� = 44.6 46.4 48.2 39.4 47.4 45.6 SA �� N�� ]3��B 43 44.6 46.8 54.6 45.4 45.8 SA �� N�� =3��B 42 46.8 44.9 45.2 52.8 44.6

SA N�� ] 51.2 50.6 50.9 46.4 45.2 44 SA N�� = 51.4 50.5 53.4 56.9 56.8 58.8

OA �� N�� ] 48.4 47.3 44.4 49.8 41.8 47.6 OA �� N�� = 45.8 43.8 46.6 45.2 37.6 47 OA �� N�� ]3��B 48.1 51.4 52.1 47.5 45 49.5 OA �� N�� =3��B 46.2 52.8 45.3 40.1 47.3 46

OA N�� ] 51.8 52 51 40 42 42.4 OA N�� = 53.1 51.8 55.4 53 53 54.3


Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d N�� %�<��

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H!0 ��J2� ��;! ��SA �OA �� W�� O�� 7�N N��! 6#� �, �� 7�N N��! �! �� V!0�� [$ Y�� A��;��N�

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109

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SA �� N�� = 22.6 23.1 22.9 25.2 25.6 25

SA �� N�� ]3��B 22.8 24.1 23 25.4 25.8 25.4

SA = �� N��3��B 23.1 24.3 22 26 26.2 26.3

SA N�� ] 22 22.3 22 28.1 26 26.3

SA N�� = 23.6 23.7 22.8 28.4 28.5 26.6

OA �� N�� ] 22 22.2 22.2 25.2 24.8 24

OA �� N�� = 24.1 22.3 21.2 23.4 26.2 25.2

OA �� N�� ]3��B 24.1 24.6 24.3 25.8 25.6 25.6

OA �� N�� =3��B 25.2 26 25 26.8 26.8 26.2

OA N�� ] 23.2 24.3 24.2 26.8 27.5 27.6

OA N�� = 26 26.2 26.2 27.8 27.8 27.8


Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d N�� %�<��

111

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SA �� N�� = 17.6 17.3 19.3 26.6 25.4 27.4

SA �� N�� ]3��B 18.2 19.3 18.4 25.8 25.8 24.6

SA �� N�� =3��B 19.5 20.3 19.2 22.8 26.2 24.3

SA N�� ] 18.4 22.3 20 17.9 21 18.9

SA N�� = 26.4 27.3 24.2 23.8 25.5 27.1

OA �� N�� ] 22.4

19.2 22

27.8 19 25.2

OA �� N�� = 25.9 16.5 16.8 28.6 23.4 27.2

OA �� N�� ]3��B 20.3 18.2 16.3 25.8 26.6 23

OA �� N�� =3��B 17.8 19.8 20.4 25 26.4 25.8

OA N�� ] 20.8 21.7 20.8 25.2 25.3 24.8

OA =N�� 26 26 26 26.2 26.8 26.4


Var 4%�� -�"��sub ��#�� @�� 4c 4��#�� m 4@�� H$ �E3d N�� %�<��

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�� #!� !�� !�� 0� � ��(Hilal et al., 2006; Hayat and

Ahmad, 2007).

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(OA) �� :�0�� A �� @�� -�" K�� (%) �� U ��`� �� NPN �� )T��0�� U ��`�( K��B ��

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113

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� ��

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114

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115

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116

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SA N�� ] 9.8 9.8 9.9 9.6 9.6 9.1 SA �� = N�� 9.7 9.8 9.9 9.9 9.6 9.7

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117

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2( �� 4��&� l��B� �� 4%�� l�� 44��2007 [ B. ��R� ��! ��J2� �� W�� O�� 6#� �N�N�� M�� E��O� ��P�(Br 21) ��(Vk

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)43.(

8( �� 4��&� l� � 4��# l�� 4��42007. 6#� ��O�� H��!P� ��0��+[�� ]��0! � Y�#�� !�� W�� O��. /�0�� #� �� !�� #�!

��!# �� " #�!�� "�� # �� ##29 )4(" �235 -242.

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9( \�<" 4=��l �� 4l��B� �� 4�5�� 4�2007. 7�O�� +� �#!� ! ��J2��!�� Imidacloprid �Thiamethoxam A�O�� E��O� ��R� �� HO� �

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Br21) ��(Vk51) M�� 70�� . /�0�� #� �� !�� #�!��!# �� "#�� # �� #" #�!��30 )1(" �231 -242.

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30 )4(" �95-108 .

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