Scientia Agricultura Sinica ›› 2013, Vol. 46 ›› Issue (13): 2677-2684.doi: 10.3864/j.issn.0578-1752.2013.13.006

• PLANT PROTECTION • Previous Articles     Next Articles

Evaluation of the Forecasting and Controlling Effects of the Yellow Sticky Card on the Rice Leaffolder (Cnaphalocrocis medinalis)

 CHANG  Xiao-Li, WU  Xiang-Wen, DU  Xing-Bin, CHEN  Hai-Xia, LU  Shuang, WANG  Dong-Sheng, YUAN  Yong-Da, ZHANG  Tian-Shu, TENG  Hai-Yuan   

  1. 1.Institute of Eco-Environmental Protection, Shanghai Academy of Agricultural Sciences, Shanghai 201403
    2.Shanghai Agricultural Technology Extension and Service Center, Shanghai 201103
    3.Zhuanghang Agricultural Science and Technology Experimental Station, Shanghai Academy of Agricultural Sciences, Shanghai 201415
    4.Shanghai Pudong New District Agro-Technology Extension Center, Shanghai 201201
  • Received:2013-01-21 Online:2013-07-01 Published:2013-04-19

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Abstract: 【Objective】 The forecasting and controlling effects of the yellow sticky card on rice leaffolder (Cnaphalocrocis medinalis) were evaluated, which would provide a scientific basis for managing this insect pest. 【Method】The trapping method of yellow sticky card and driving moth method were compared to test the forecasting reliability. The production of rice harvested from the field both sprayed insecticides and fixed the yellow sticky card was tested to testify the control effect of the yellow sticky card.【Result】The rice was seriously damaged by C. medinalis in August and September and lightly in July. The number of C. medinalis trapped was the highest in August, and (2.86±0.43) adults were trapped on per card every day on average. The height of the yellow sticky card was important for trapping C. medinalis. The closer the distance from the lower fringe of the yellow sticky card to the top of the rice was, the more rice leaffolders were trapped. It was reliable to forecast the occurrence of C. medinalis by comparing the data between the yellow sticky card and driving moth. The yellow sticky card could trap and kill C. medinalis, and its control efficiency was equal or higher than using insecticide. 【Conclusion】The yellow sticky card is a promising method in forecasting and controlling C. medinalis.

Key words: Cnaphalocrocis medinalis , yellow sticky card , forecast , control

[1]王凤英, 胡高, 陈晓, 沈慧梅, 罗善煜, 辛德育, 徐盛刚, 张孝羲, 翟保平. 近年来广西南宁稻纵卷叶螟大发生原因分析. 中国水稻科学, 2009, 23(5): 537-545.

Wang F Y, Hu G, Chen X, Shen H M, Luo S Y, Xin D Y, Xu S G, Zhang X X, Zhai B P. Analysis on the causes of recent outbreaks of Cnaphalocrocis medinalis in Nanning, China. Chinese Journal of Rice Science, 2009, 23(5): 537-545. (in Chinese)

[2]刘宇, 王建强, 冯晓东, 蒋学辉. 2007年全国稻纵卷叶螟发生实 况分析与2008 年发生趋势预测. 中国植保导刊, 2008, 28(7): 33-35.

Liu Y, Wang J Q, Feng X D, Jiang X H. Analyzing the occurrence of the rice leaffolder, Cnaphalocrocis medinalis in 2007 and forecasting the occurrence trend in 2008. China Plant Protection, 2008, 28(7): 33-35. (in Chinese)

[3]刘万才, 姜玉英, 张跃进, 冯晓东, 夏冰, 刘宇, 曾娟. 推进农业有害生物监测预警事业发展的思考. 中国植保导刊, 2009, 29(8): 28-31.

Liu W C, Jiang Y Y, Zhang Y J, Feng X D, Xia B, Liu Y, Zeng J. The thinking of promoting the development of monitoring and warning agricultural pest. China Plant Protection, 2009, 29(8): 28-31. (in Chinese)

[4]Cho J R, Choi K S, Park H H, Lee S, Yum K H, Jung J K, Seo B Y, Lee M. Electroantennogram and field responses of Korean population of the rice leaf folder, Cnaphalocrocis medinalis (Lepidoptera: Crambidae), to sex attractant candidates. Journal of Asia-Pacific Entomology, 2013, 16(1): 61-66.

[5]姚士桐, 吴降星, 郑永利, 金周浩, 陆志杰, 胡加君, 杜永均. 稻纵卷叶螟性信息素在其种群监测上的应用. 昆虫学报, 2011, 54(4): 490-494.

Yao S T, Wu J X, Zheng Y L, Jin Z H, Lu Z J, Hu J J, Du Y J. Application of sex pheromone of the rice leaf folder, Cnaphalocrocis medinalis (Lepidoptera: Pyralidae) in monitoring its population. Acta Entomologica Sinica, 2011, 54(4): 490-494. (in Chinese)

[6]徐玉峰, 杨新宇, 徐洁, 朱晓玉, 杨一琴. 性诱剂诱集稻纵卷叶螟效果试验. 现代农业科技, 2010(3): 170-172.

Xu Y F, Yang X Y, Xu J, Zhu X Y, Yang Y Q. The trapping effect   test of sex pheromone on Cnaphalocrocis medinalis Güenée.  Modern Agricultural Sciences and Technology, 2010(3): 170-172. (in Chinese)

[7]苏建坤, 褚柏, 陈伟民. 稻纵卷叶螟抗药性测定方法初探及抗性监测. 上海农业学报, 2003, 19(4): 81-84.

Su J K, Chu B, Chen W M. Preliminary study on method of determing rice leaf rollers’s resistance to insecticides and resistance monitoring. Acta Agriculturae Shanghai, 2003, 19(4): 81-84. (in Chinese)

[8]巩中军, 武予清, 都振宝, 苗进, 段云, 蒋月丽. 黄板、黄盆及灯光对麦长管蚜和禾谷缢管蚜的诱捕效果. 应用昆虫学报, 2011, 48(6): 1703-1707.

Gong Z J, Wu Y Q, Du Z B, Miao J, Duan Y, Jiang Y L. The relative effectiveness of yellow sticky traps, yellow pan traps and different light sources in capturing Sitobion avenae and Rhopalosiphum padi. Chinese Journal of Applied Entomology, 2011, 48(6): 1703-1707. (in Chinese)

[9]张丽萍, 刘珍, 范巧兰, 采俊香, 王呆海, 纽天龙, 魏明峰. 日光温室内黄板对烟粉虱的诱杀作用. 植物保护, 2009, 35(1): 144-146.

Zhang L P, Liu Z, Fan Q L, Cai J X, Wang D H, Niu T L, Wei M F. Effects of trapping and killing of Bemisia tabaci using yellow boards in the sunshine greenhouses. Plant Protection, 2009, 35(1): 144-146. (in Chinese)

[10]Park J J, Lee J H, Shin K I, Lee S E, Cho K. Geostatistical analysis of the attractive distance of two different sizes of yellow sticky traps for greenhouse whitefly, Trialeurodes vaporariorum (Westwood) (Homoptera: Aleyrodidae), in cherry tomato greenhouses. Australian Journal of Entomology, 2011, 50(2): 144-151.

[11]姚士桐, 金周浩, 陆志杰, 毛继晟. 诱捕器设置高度对稻纵卷叶螟成虫监测效果的影响. 中国植保导刊, 2012, 32(5): 48-49.

Yao S T, Jing Z H, Lu Z J, Mao J S. The effect of the height of trapping instrument on the adults of Cnaphalocrocis medinalis. China Plant Protection, 2012, 32(5): 48-49. (in Chinese)

[12]Singh N J, Konar A, Mondal P. Incidence of aphids in different traps on potato in Gangetic plains of West Bengal. The Journal of Plant Protection Sciences, 2010, 2(1): 96-99.

[13]Moreau T L, Isman M B. Combining reduced-risk products, trap crops and yellow sticky traps for greenhouse whitefly (Trialeurodes vaporariorum) management on sweet peppers (Capsicum annum). Crop Protection, 2012, 34: 42-46.

[14]钱允辉, 王志强, 张夕林, 陆自强. 水稻中后期相关农药使用次数与农药残留量动态关系的研究. 中国农业科学, 2008, 41(9): 2678-2685.

Qian Y H, Wang Z Q, Zhang X L, Lu Z Q. Studies on the dynamics of pesticide residues and application frequency at the middle-late stage of rice. Scientia Agricultura Sinica, 2008, 41(9): 2678-2685. (in Chinese)

[15]黄会秋, 钟云龙, 吴友波, 林思忍. 平阳县市售与本地农户大米农药残留量调查. 中国卫生检验杂志, 2008, 18(8): 1625-1627.

Huang H Q, Zhong Y L, Wu Y B, Lin S R. Investgation of pesticide residues in rice in Pingyang. Chinese Journal of Health Laboratory Technology, 2008, 18(8): 1625-1627. (in Chinese)

[16]洪崇高, 丁晓宇, 林伟, 张龙. 我国水稻主产区农药使用调查及安全生产的建议与对策. 亚热带农业研究, 2008, 4(2): 136-140.

Hong C G, Ding X Y, Lin W, Zhang L. An investigation on the use of pesticides in rice cultivation areas and some suggest ions for safe production. Subtropical Agriculture Research, 2008, 4(2): 136-140. (in Chinese)

[17]Fujimot H, Itoh K, Yamamoto M, Kyozuka J, Shimamoto K. Insect resistant rice generated by introduction of a modified δ-endotoxin gene of Bacillus thuringiensis. Nature Biotechnology, 1993, 11: 1151-1155.

[18]Breitler J C, Vassal J N, Catala M D M, Meynard D, Marfa V, Mele  E, Royer M, Murillo I, Segundo S B, Guiderdoni E, Messeguer J. Bt rice harbouring cry genes controlled by a constitutive or wound-inducible promoter: protection and transgene expression under Mediterranean field conditions. Plant Biotechnology Journal, 2004, 2(5): 417-430.

[19]Ramesh S, Nagadhara D, Reddy V D, Rao K V. Production of transgenic indica rice resistant to yellow stem borer and sap-sucking insects, using super-binary vectors of Agrobacterium tumefaciens. Plant Science, 2004, 166(4): 1077-1085.

[20]Bashir K, Husnain T, Fatima T, Latif Z, Mehdi S A, Riazuddin S. Field evaluation and risk assessment of transgenic indica basmati rice. Molecular Breeding, 2004, 13: 301-312.

[21]Tu J, Zhang G, Datta K, Xu C, He Y, Zhang Q, Khush G S, Datta S K. Field performance of transgenic elite commercial hybrid rice expressing Bacillus thuringiensis δ-endotoxin. Nature Biotechnology, 2000, 18: 1101-1104.

[22]Shu Q Y, Ye G Y, Cui H R, Cheng X Y, Xiang Y B, Wu D X, Gao M W, Xia Y W, Hu C, Sardana R, Altosaar I. Transgenic rice plants with a synthetic crylAb gene from Bacillus thuringiensis were highly resistant to eight lepidopteran rice pest species. Molecular Breeding, 2000, 6: 433-439.

[23]High S M, Cohen M B, Shu Q Y, Altosaar I. Achieving successful deployment of Bt rice. Trends in Plant Science, 2004, 9(6): 286-292.

[24]Wolfenbarger L L, Phifer P R. The ecological risks and benefits     of genetically engineered plants. Science, 2000, 290(5499): 2088-2093.

[25]Obrycki J J, Losey J E, Taylor O R, Jesse L C H. Transgenic insecticidal corn: beyond insecticidal toxicology to ecological complexity. BioScience, 2001, 51(5): 353-361.

[26]Shelton A M, Sears M K. The monarch butterfly controversy: scientific interpretations of a phenomenon. The Plant Journal, 2001, 27(6): 483-488.

[27]Dale P J, Clarke B, Fontes M G. Potential for the environmental impact of transgenic crops. Nature Biotechnology, 2002, 20: 567-574.
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