Under the condition of natural infection in the wild, the authors analyzed the resistance degree and compensation ability of 20 tree species to Capitophorus rhamnoides Zhang using the recovery rate of leaf roll of sprouts as insect resistance index. The result indicated that tree species except for peach, russianolive and elm were the hosts for C. rhamnoides Zhang, Among all the sea buckthorn species, the varieties and coenospecies were susceptible to C. rhamnoides, but species and subspecies were relatively resistant to C. rhamnoides. There was significant difference in the recovery rate of leaf roll among varieties. At the harm peak, tree species with low leaf roll rate, such as Chengse and Lengguo etc., could recover completely due to their own harm resistance compensation ability and natural enemies, presenting a strong resistance to C. rhamnoides. Whereas, tree species with high leaf roll rate, such as Yousheng, Chuyi and Wulangemu etc., which were severely damaged, could recover no more than 50% for their limited harm resistance and compensation ability, suggesting they were weak in resisting to C. rhamnoides. The recovery rates of leaf roll of apple tree and Yunnan Sea buckthorn were 55.6% and 50%, respectively, which were moderately resistant to C. rhamnoides.
王志政, 温俊宝, 王莹, 骆有庆, 宗世祥*. 不同树种对刺沙棘钉毛蚜的耐害性[J]. , 2010, 29(2): 136-139.
WANG Zhi-zheng, WEN Jun-bao, WANG Ying, LUO You-qing, ZONG Shi-xiang. Tolerance of different tree species to Capitophorus rhamnoides Zhang. , 2010, 29(2): 136-139.
[1] 陈建明, 俞晓平, 程家安.植物耐虫性的研究方法[J].植物学通报, 2005, 22(4):449-455.
[2] 陈建明, 俞晓平, 程家安, 等.植物耐虫性研究进展[J].昆虫学报, 2005, 48(2):262-272.
[3] 侯有明, 沈宝成.小麦品种对麦长管蚜抗性的模糊综合决策[J].应用生态学报, 1998, 9(3):273-276.
[4] 李军, 赵惠燕, 李志刚, 等.不Nd, 麦品种对麦长管蚜的抗性[J].昆虫知识, 2007, 44(4):509-512.
[5] 李跃强, 盛承发.植物的超越补偿反应[J].植物生理学通讯, 1996, 32(6):457-464.
[6] 刘向东, 张立建, 张孝羲, 等.棉蚜对寄主的选择及寄主专化型研究[J].生态学报, 2002, 22(8):1281-1285.
[7] 秦飞, 李云岘, 杨学民, 等.林木抗虫性及测定方法的研究[J].林业科技, 2001, 26(01):19-22.
[8] 张润志, 刘晏良, 耿守光, 等.麦类品种对麦双尾蚜的耐害性及产量损失率[J].昆虫学报, 1999, 42:120-124.
[9] Agrawai A A.Overcompensation of plants in response to herbivory and the by-product benefits of mutualism[J].Trends in Plant Science, 2000, 5(7):309-313.
[10] Fornoni J, Nunez-Farfan J.Evolutionary ecology of tolerance to herbivory:advances and perspectives[J].Comments on Theoretical Biology, 2003, 8:643-663.
[11] Frei A, Bueno J M, Diaz-Montano J, et al.Tolerance as a mechanism of resistance to Thnps palmi in common beans[J].Annu.Rev.Entomol., 2004, 112:73-80.
[12] Herbert J J, Mizell R F, Mcauslane H J.Host preference of the crapemyrtle aphid(Hemiptera:Aphididae)and host suitability of crapemyrtle cultivars[J].Environmental Entomology, 2009, 38(4):1155-1160.
[13] Le Roux V, Campan EDM, Dubois F, et al.Screening for resistance against Myzus persicae and Macrosiphum euphorbiae among wild Solanum[J].Annal of Applied Biology.2007, 151(1):83-88.
[14] Le Roux V, Saguez J, Vincent C, Giordanengo P.Rapid method to screen resistance of potato plants against Myzus persicae(Homoptera:Aphididae)in the laboratory[J].Journal of Economic Entomology, 2004, 97(6):2079-2082.
[15] Simms EL.Defining tolerance as a norm of reaction[J].Evolutionary Ecology, 2000, 14:563-570.
[16] Strauss S Y, Agrawal A A.The ecology and evolution of plant tolerance to herbivory[J].Trends in Ecology and Evolution, 1999, 14:179-185.