Abstract

Info

Title:: The Control of Two Kinds of Insecticideson to Erganiadoriae yunnannus and Their Oxidative Stress on Soybean

Author(s):: SHANG Jing; XIAO Ren-guo; TANG Zhong-qin; CHANG Xiao-li; YANG Wen-yu; （College of Agronomy, Sichuan Agricultural University/Sichuan Engineering Research Center for Crop Strip Intercropping System/Sichuan Key Laboratory for Major Crop Diseases, Chengdu 611130, China）

Keywords:: Ergania doriae yunnanus; Triazophos; Chlorantraniliprole; Oxidative stress; Relative control effect

PACS:: -

DOI:: DOI：10.11861/j.issn.1000-9841.2017.05.0761

Abstract:: In intercropping, incidence of Ergania doriae yunnanus is much higher than other pests which become an important factor resulted in the loss of soybean.Two kinds of insecticides on the control of Ergania doriae yunnanus were used in present study. The oxidative stress damage on soybean was detected and the incidence of pests and control effect were investigated in the monocropping and intercropping. The results showed that the growth and development of soybean treated by insecticide was inhibited. The accumulation of reactive oxygen species (ROS) and permeability of plasmalemma were increased Antioxidant enzyme activity was enhanced Oxidative stress of soybean leaves was caused by chemical treatment Oxidative stress damage effect was significantly lower by spraying triazophos than spraying chlorantraniliprole and co-spraying. The incidence of Ergania doriae yunnanus was far lower in intercropping than monocropping. In the two types of cropping patterns, spraying triazophos was more effective than spraying chlorantraniliprole and co-spraying on the control of Ergania doriae yunnanus . Triazophos was priority selected as a pesticide on the control of Ergania doriae yunnanus.

References:

［1］李福贵.大豆田高隆象发生为害与防治初探［J］.基层农技推广, 2015(10): 21-22.(Li F G. The harm and control of Ergania doriae yunnanus in soybean fields ［J］. Basic-level Agro-technique Extension, 2015, 10: 21-22)

［2］石育松.大豆在生长过程中常见的病虫害及综合防治技术［J］. 中国科技投资, 2013(A28): 366.(Shi Y S. Comprehensive control technology of common diseases and insect pests in the process of soybeans growth ［J］. China Venture Capital, 2013(A28): 366.)?

［3］吴雨珊,龚万灼,杨文钰,等.带状套作复光后不同大豆品种干物质积累模型与特征分析［J］.中国生态农业学报, 2017,25(4): 572-580. (Wu Y S, Gong W Z, Yang W Y, et al. Dynamic model and characteristics analysis of dry matter production after light recovery of different soybean varieties in relay strip intercropping systems ［J］. Chinese Journal of Eco-Agriculture, 2017, 25(4): 572-580.)

［4］徐淑敏,刘新茹.大豆害虫的研究概况［J］.北华大学学报, 2003, 4(6): 478-483. (Xu S M, Liu X R.Survey of soybean pests ［J］. Journal of Beihua University, 2003, 4(6): 478-483.)

［5］季宏平.几种新药剂防治大豆害虫效果及其评价［J］. 大豆科学, 2002, 21(1): 78-80. (Ji H P. Prevention effect and evaluation on soybean pests of several new medicament ［J］. Soybean Science, 2002, 21(1): 78-80.)

［6］廖世纯,黄凤宽,韦桥现,等.三唑磷及其与益舒宝混用对稻瘿蚊的田间防效［J］. 中国稻米,2007(4): 63-64. (Liao S C, Huang F K, Wei Q X, et al. The control effect on-rice gall midge by triazophos mixed with good comfortable treasure ［J］. China Rice, 2007(4): 63-64.)

［7］任知良,王明刚.一种含有氯虫苯甲酰胺、氯吡硫磷、三唑磷和螺虫乙酯的高效杀虫剂:中国, 104365652 A.［P］.2015-02-25. (Ren Z L, Wang M G. A efficient insecticide containing chlorine worm benzamide sulfur, chlorine pyrazole phosphate, ethyl triazophos and worm screw: China, 104365652-A ［P］.2015-02-25.)

［8］余海明.三唑磷与氟虫腈复配对粘虫的增效机理研究［D］.杭州: 浙江大学, 2010(Yu H M. Mechanism research on synergistic of triazophos and Fluorine worm nitrile on the control of armyworm［D］. Hangzhou: Zhejiang University, 2010.)?

［9］郭显伟,黄海.35%氯虫苯甲酰胺WG对稻纵卷叶螟防治效果的研究［J］. 生物灾害科学,2014,37(1):38-40. (Guo X W, Huang H. 35% Chlorantraniliprole WG in control against rice leaf rollers ［J］. Biological Disaster Science, 2014,37(1): 38-40.)

［10］齐国康.20%氯虫苯甲酰胺等杀虫剂对玉米螟的防治效果［J］.安徽农学通报,2010,16(12):124. (Qi G K. Effect of pesticides such like 20% chlorantraniliprole on the control of the corn borer［J］. Anhui Agricultural Science Bulletin, 2010, 16(12):124.)

［11］李小丹. Excel软件中的函数在大豆病虫害统计中的应用［J］.科技·经济·市场,2014(12):164-165. (Li X D. The application of the function in the Excel software in soybean plant diseases and insect pests of statistics ［J］. Science and Technology, Economy and Market, 2014(12):164-165.)

［12］Shang J, Xi D H, Yuan S, et al. Difference of physiological characters in dark green islands and yellow leaf tissue of CMV-infected Nicotianata bacum-leaves［J］. Zeitschrift für Naturforschung, 2010, 65c: 73-78.

［13］Shi Q H, Bao Z Y, Zhu Z J, et al. Effects of different treatments of salicylic acid on heat tolerance, chlorophyll fluorescence, and antioxidant enzyme activity in seedlings of Cucumis sativa L［J］. Plant Growth Regulation, 2006,48:127-135.

［14］van Rossum M W P C, Alberda M, van der Plas L H W. Role of oxidative damage in tulip bulb scale micropropagation［J］. Plant Science,1997,130:207-216.

［15］Qi J, Wang J, Gong Z, et al. Apoplastic ROS signaling in plant immunity［J］. Current Opinion in Plant Biology,2017,38:92-100.

［16］Suzuki N, Koussevitzky S, Mittler R, et al. ROS and redox signaling in the responseof plants to abiotic stress［J］. Plant Cell & Environment,2012,35(2):259-270.

［17］Chan Z, Yokawa K, Kim W Y, et al. Editorial: ROS regulation during plant abiotic stress responses［J］. Frontiers in Plant Science,2016,7:1536-1341.

［18］刘芳,奚本贵,包善微,等.氯虫苯甲酰胺对稻纵卷叶螟的防效及对稻田有益节肢动物的安全性评价［J］.植物保护,2009,35(5):139-144. (Liu F, Xi B G, Bao S W, et al. Control effectiveness of chlorantraniliprole on Cnaphalocrocis medinalis and evaluation of its safety to beneficial arthropods in the rice fields ［J］. Plant Protection, 2009, 35(5):139-144.)

［19］李瑞娟,于建垒,宋国春,等.氯虫苯甲酰胺在甘蓝和土壤中的残留及消解动态［J］.生态环境学报, 2011, 20(4):663-667. (Li R J, Yu J L, Song G C, et al. Residue and dynamic of chlorantraniliprole in cabbage and soil ［J］. Journal of Ecological Environment, 2011, 20(4):663-667.)

The Control of Two Kinds of Insecticideson to Erganiadoriae yunnannus and Their Oxidative Stress on Soybean(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Info

References:

Memo

Common functions

Navigate

Tools

Statistics