|Table of Contents|

Evaluation of Antibiosis to Common Cutworm ( Spodoptera litura) and Screeningfor Resistance Sources Among Wild Soybeans ( Glycine soja) in China(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2016年03期
Page:
448-454
Research Field:
Publishing date:

Info

Title:
Evaluation of Antibiosis to Common Cutworm ( Spodoptera litura) and Screeningfor Resistance Sources Among Wild Soybeans ( Glycine soja) in China
Author(s):
YANG YingXING Guang-nanGAI Jun-yi
Soybean Research Institute of Nanjing Agricultural University /National Center for Soybean Improvement /Key Laboratory for Biology and Genetic Improvementof Soybean( General) ,Ministry of Agriculture /National Key Laboratory for Crop Genetic and Germplasm Enhancement /Jiangsu Collaborative InnovationCenter for Modern Crop Production,Nanjing 210095,China
Keywords:
Common cutworm ( Spodoptera litura) Wild soybean ( Glycine soja) Membership function index Evaluation ofinsect resistance
PACS:
S565. 1
DOI:
10.11861/j.issn.1000-9841.2016.03.0448
Abstract:
Based on our previous studies on evaluation of antibiosis to common cutworm ( Spodoptera litura) in cultivated soybeans( Glycine max) ,the antibiosis of wild soybean ( Glycine soja) was also evaluated in 2014 and 2015. A representativesample composed of 200 wild accessions from the four eco-regions in China were tested in lab conditions with the newlyhatched larva of Spodoptera litura reared in insectarium as tester and the membership index value of the 6th,9th and 12thday’s larva weight as indicator. The results of joint ANOVA of the 6th day’s membership index value in 2014 and 2015showed that there existed significant difference among /between accessions,years and accession × year interactions. The resultsof joint ANOVA of different feeding duration in 2015 showed that it existed significant difference among different feeding durationand accessions,while accession × feeding-duration interactions did not show significant difference. The accessions weregrouped into highly resistant,resistant,medium resistant,susceptible and highly susceptible grades using a standard checkgrade system. A significant relationship was detected between eco-region and resistance grade,more resistant wild accessionsexisted in Middle and Lower Yangtse River Eco-region( III) and Southwest-Central South Eco-region( IV) ,while more susceptiblewild accessions existed in North Eco-region( I) . Ten highly resistant and ten highly susceptible wild soybean accessionswere screened out as checks and resistance source materials for further study on the resistance mechanism and resistancebreeding. The ten highly resistant wild soybean accessions performed higher resistance than the highly resistant cultivated soybeanPI227687,Lamar and other resistance sources using the same resistance evaluation system.

References:

[1] 秦厚国,汪笃栋,丁建,等. 斜纹夜蛾寄主植物名录[J]. 江西农业学报,2006,18 ( 5) : 51-58. ( Qin H G,Wang D D,Ding J,et al. Host plants of Spodoptera litura[J]. Acta AgriculturaeJiangxi,2006,18( 5) : 51-58. )

[2] 祝树德,陆自强,陈丽芳,等. 温度和食料对斜纹夜蛾种群的影响[J]. 应用生态学报,2000,11( 1) : 111-114. ( Zhu S D,Lu Z Q,Chen L F,et al. Effect of temperature and food on Spodopteralitura population[J]. Chinese Journal of Applied Ecology,2000,11( 1) : 111-114. )
[3] 崔章林,盖钧镒,吉东风,等. 南京地区大豆食叶性害虫种类调查与分析[J]. 大豆科学,1997,16( 1) : 13-21. ( Cui Z L,Gai J Y,Ji D F,et al. A study on leaf-feeding insect species onsoybeans in Nanjing area[J]. Soybean Science,1997,16 ( 1) :13-21. )
[4] 高春先,贝亚维,陈庭华,等. 斜纹夜蛾成灾因子分析[J].浙江农业学报,2004,16( 5) : 332-335. ( Gao C X,Bei Y W,Chen T H,et al. On factors causing outbreak of Spodoptera litura( Fabricius) [J]. Acta Agriculturae Zhejiangensis,2004,16( 5) :332-335. )
[5] Cardona E V,Ligat C S,Subang M P. Life history of commoncutworm,Spodoptera Litura Fabricius ( Noctuidae: Lepidoptera) inBenguet[J]. BSU Research Journal,2007,56: 73-84.
[6] 潘飞,秦双,严春雨,等. 斜纹夜蛾对15 种杀虫剂的抗药性监测[J]. 江西农业大学学报,2014,36 ( 5 ) : 1042-1047.( Pan F,Qin S,Yan C Y,et al. Monitoring on resistance of Spodopteralitura( Fabricius) to fifteen kinds of pesticides in Hainanregion[J]. Acta Agriculturae Universitatis Jianxiensis,2014,36( 5) : 1042-1047. )
[7] van Duyn J W,Turnipseed S G,Maxwell J D. Resistance in soybeansto the Mexican bean beetleⅠ: Source of resistance [J].Crop Science,1971,11: 572-573.
[8] 盖钧镒,崔章林. 大豆抗食叶性害虫育种的鉴定方法与标准[J]. 作物学报,1997,23( 4) : 400-407. ( Gai J Y,Cui Z L. Astudy on methods and criteria of identification of resistance to leaffeedinginsects in soybean breeding[J]. Acta Agronomica Sinica,1997,23( 4) : 400-407. )454 大豆科学3 期
[9] 詹秋文,盖钧镒. 大豆种质资源对斜纹夜蛾( Prodenia litura)抗性的鉴定[J]. 应用与环境生物学报,2000,6( 1) : 18-23.( Zhan Q W,Gai J Y. Evaluation of resistance of soybean germplasmto cotton worm ( Prodenia litura) [J]. Chinese Journal ofApplied and Environmental Biology,2000,6( 1) : 18-23. )
[10] 邢光南,赵团结,盖钧镒. 大豆资源的筛豆龟蝽[Megacoptacribraria ( Fabricius) ]抗性鉴定[J]. 作物学报,2006,32( 4) :491-496. ( Xing G N,Zhao T J,Gai J Y. Evaluation of soybeangermplasm in resistance to Globular Stink Bug[Megacopta cribraria( Fabricius) ][J]. Acta Agronomica Sinica,2006,32( 4) : 491-496. )
[11] Oki N,Komatsu K,Takahashi M,et al. Field assessment of resistanceQTL to common cutworm in soybean[J]. Crop Science,2015,55: 624-630.
[12] Komatsu K,Okuda S,Takahashi M,et al. Antibiotic effect of insect-resistant soybean on common cutworm( Spodoptera litura) andits inheritance[J]. Breeding Science,2004,54: 27-32.
[13] Oki N,Komatsu K,Sayama T,et al. Genetic analysis of antixenosisresistance to the common cutworm( Spodoptera litura Fabricius)and its relationship with pubescence characteristics in soybean( Glycine max ( L. ) Merr. ) [J]. Breeding Science,2012,61:608-617.
[14] Souza B H S,Silva A G,Janini J C,et al. Antibiosis in soybeangenotypes and the resistance levels to Spodoptera eridania ( Cramer)( Lepidoptera: Noctuidae) [J]. Neotrop Entomol,2014,43: 582-587.
[15] 吴巧娟,吴娟娟,吴业春,等. 大豆资源对斜纹夜蛾的抗性鉴定[J]. 大豆科学,2006,25( 4) : 410-413,409. ( Wu Q J,WuJ J,Wu Y C,et al. Evaluation of resistance of soybean germplasmto cotton worm ( Spodoptera litura Fabricius) [J]. Soybean Science,2006,25( 4) : 410-413,409. )
[16] Kim H,Xing G N,Wang Y F,et al. Constitution of resistance tocommon cutworm in terms of antibiosis and antixenosis in soybeanRIL populations[J]. Euphytica,2014,196: 137-154.
[17] Kim H,Xing G N,He J B,et al. An environmental differentialassociation analysis of antibiosis to common cutworm in a Chinesesoybean germplasm population and optimization of the cross design[J]. Molecular Breeding,2015,35: 76.
[18] 杨振宇,本多健一郎,王曙明,等. 中国东北抗蚜野生大豆重复鉴定的研究[J]. 吉林农业科学,2004,29( 5) : 3-6. ( YangZ Y,Kanichilo H,Wang S M,et al. The repetitive identificationon aphid-resistant wild soybean in northeast of China[J]. Journalof Jilin Agricultural Sciences,2004,29( 5) : 3-6. )
[19] 靳立梅,徐鹏飞,吴俊江,等. 野生大豆种质资源对大豆疫霉根腐病抗性评价[J]. 大豆科学,2007,26( 3) : 300-304. ( JinL M,Xu P F,Wu J J,et al. Identification the resistance of wildsoybean germplasm to Phytophthorn Sojae[J]. Soybean Science,2007,26( 3) : 300-304. )
[20] 文自翔,赵团结,丁艳来,等. 中国栽培及野生大豆的遗传多样性、地理分化和演化关系研究[J]. 科学通报,2009,54( 21) : 3301-3310. ( Wen Z X,Zhao T J,Ding Y L,et al. Geneticdiversity,geographic differentiation and evolutionary relationshipamong ecotypes of Glycine max and G. soja in China[J].Chinese Science Bulletin,2009,54( 21) : 3301-3310. )
[21] 盖钧镒,汪越胜. 中国大豆品种生态区域划分的研究[J]. 中国农业科学,2001,34( 2) : 139-145. ( Gai J Y,Wang Y S. Astudy on the varietal eco-regions of soybeans in China[J]. ScientiaAgricultura Sinica,2001,34( 2) : 139-145. )[22] Hartwig E E,Lambert L,Kilen T C. Registration of‘Lamar’soybean[J]. Crop Science,1990,30: 231.
[23] 涂业苟,曾吉华. 斜纹夜蛾的人工饲养技术[J]. 江西农业学报,2010,22( 1) : 87-88. ( Tu Y G,Zeng J H. A method for artificialrearing of common cutworm( Spodoptera litura) [J]. ActaAgriculturae Jiangxi,2010,22( 1) : 87-88. )
[24] Rector B G,All J N,Parrott W A,et al. Identification of molecularmarkers linked to quantitative trait loci for soybean resistance tocorn earworm[J]. Theoretical and Applied Genetics,1998,96:786-790.
[25] Komatsu K,Takahashi M,Nakazawa Y. Antibiosis resistance ofQTL introgressive soybean lines to common cutworm( Spodoptera lituraFabricius) [J]. Crop Science,2008,48: 527-532.[26] 邢光南,周斌,赵团结,等. 大豆抗筛豆龟蝽Megacota cribraria(Fabricius) 的QTL 分析[J]. 作物学报,2008,34( 3) : 361-368. ( Xing G N,Zhou B,Zhao T J,et al. Mapping QTLs of resistanceto Megacota cribraria ( Fabricius) in soybean[J]. ActaAgronomica Sinica,2008,34( 3) : 361-368. )
[27] 王慧,高中杰,张丹,等. 应用关联分析鉴定大豆对斜纹夜蛾的抗性基因[J]. 植物学报,2011,46 ( 5) : 514-524. ( WangH,Gao Z J,Zhang D,et al. Identification of genes with soybeanresistance to common cutworm by association analysis[J]. ChineseBulletin of Botany,2011,46( 5) : 514-524. )

Memo

Memo:
-
Last Update: 2016-06-29