Crops ›› 2017, Vol. 33 ›› Issue (1): 8-13.doi: 10.16035/j.issn.1001-7283.2017.01.002

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Review on Soybean Thrips in China

Gao Yu1,Liu Yanchao1,Shi Shusen1,Cui Juan1,Xiong Jinfeng2   

  1. 1 College of Agronomy,Jilin Agricultural University/The Innovation Center of Soybean Region Technology,Changchun 130118,Jilin,China
    2 Changchun Institute of Biological Products Co.,Ltd,Changchun 130012,Jilin,China
  • Received:2016-09-27 Revised:2016-12-09 Online:2017-02-15 Published:2018-08-26

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Abstract:

Thrips (Thysanoptera) that were formerly secondary pests in soybean field gradually increased as main pests in recent years, including 2 suborder 3 families 12 genera 21 species in China. A small number of species are predatory but most of these species are herbivorous with a wide range of host plants. Phytophagous thrips seriously damage the plants from seed germination to pod stage, especially in seeding stage, by sucking the sap of seedlings with rasping-mouthparts, laying eggs in tissues and spreading plant viruses. Thrips inhabited on flowers were pollinator of soybean sterile lines. In soybean arthropod communities, dominance of phytophagous thrips was higher than other pests. The spatial distribution pattern of thrips was different at several growth stages. The management strategy for harmful thrips should be taken based on cultural control, with physical control and biological control as the main measures supplemented by chemical control. The current research on thrips species, bioecology and control methods was aimed to provide a reference for the integrated pest management of harmful thrips in soybean fields.

Key words: Soybean pests, Thrips, Integrated pest management

Table 1

The species of thrips in soybean fields in China"

分类地位Classification status 已知国内分布范围
Domestic distribution range		 参考文献
References
亚目Suborder 科Family 属Genus 种Species
锯尾亚目
Terebrantia		 纹蓟马科
Aeolothripidae		 纹蓟马属
Aeolothrips		 横纹蓟马Aeolothrips fasciatus 北京、河北、内蒙古、河南、湖北、云南 [3, 10]
蓟马科
Thripidae		 带蓟马属
Taeniothrips		 豆带蓟马Taeniothrips gfycmes 湖北、吉林 [11, 12]
呆蓟马属
Anaphothrips		 玉米黄呆蓟马
Anaphothrips obscurus		 吉林、北京、河北、山西、内蒙古、江苏、浙江、福建、河南、广东、海南、四川、贵州、甘肃、宁夏、西藏、新疆、台湾 [11]
毛蓟马属
Ayyaria		 豇豆毛蓟马Ayyaria chaetophora 湖北、福建、广西、广东、海南、云南、台湾 [8, 13]
蓟马属
Thrips		 烟蓟马Thrips tabaci 河北、山西、内蒙古、辽宁、吉林、江苏、台湾、山东、河南、湖北、湖南、广东、海南、广西、四川、贵州、云南、陕西、甘肃、宁夏、西藏、新疆 [3, 9, 10, 13]
黑毛蓟马(又称豆黄蓟马)
Thrips nigropilosus		 黑龙江、江苏、广东、四川 [3, 9]
棕榈蓟马(又称瓜蓟马、南黄
蓟马、棕黄蓟马)Thrips palmi		 浙江、湖南、广东、海南、广西、四川、云南、西藏、台湾、香港 [6]
黄蓟马Thrips flavus 河北、江苏、浙江、福建、台湾、河南、湖北、湖南、广东、海南、广西、贵州、云南 [3, 13]
黄胸蓟马Thrips hawaiiensis 江苏、浙江、台湾、湖南、广东、海南、广西、四川、云南,西藏 [3, 13]
土色蓟马Thrips pallidulus 河南、山东、陕西 [13]
花蓟马属
Frankliniella		 花蓟马(又称欧洲花蓟马、台
湾花蓟马)Franklinieua intonsa		 北京、河北、内蒙古、辽宁、吉林、黑龙江、江苏、浙江、安徽、福建、台湾、江西、山东、河南、湖北、湖南、广东、海南、广西、四川、贵州、云南、西藏、陕西、甘肃、宁夏、新疆 [6, 8, 10]
西花蓟马
Frankliniella occidentalis		 北京、云南、浙江、山东、贵州、吉林 [14]
大蓟马属
Megalurothrips		 端大蓟马
Megalurothrips distalis		 河北、辽宁、江苏、福建、台湾、山东、河南、湖北、湖南、广东、海南、广西、四川、贵州、云南、西藏 [3]
普通大蓟马
Megalurothrips usitatus		 北京、台湾 [3]
硬蓟马属
Scirtothrips		 茶黄硬蓟马
Scolothrips dorsalis		 江苏、浙江、安徽、福建、河南、广东、海南、广西、云南、台湾 [15]
喙蓟马属
Mycterothrips		 豆喙蓟马
Mycterothrips glycines		 陕西、北京、湖北、江苏、浙江、福建、台湾、广东、四川 [3, 13]
食螨蓟马属
Scolothrips		 塔六点蓟马
Scolothrips takahashii		 北京、河北、江苏、浙江、福建、台湾、山东、河南、湖北、湖南、广东、海南、广西、四川、云南、陕西、上海、内蒙古 [3, 13]
长角六点蓟马
Scolothrips longicornis		 北京、河北、新疆 [16]
管尾亚目
Tubulifera		 管蓟马科
Phlaeothripidae		 简管蓟马属
Haplothrips		 稻管蓟马
Haplothrips aculeatus		 北京、河北、山西、内蒙古、辽宁、吉林、黑龙江、江苏、安徽、福建、台湾、河南、湖北、湖南、广东、海南、广西、四川、贵州、云南、西藏、陕西、甘肃、宁夏、新疆 [3]
华简管蓟马
Haplothrips chinensis		 北京、河北、吉林、江苏、浙江、安徽、福建、台湾、陕西、河南、湖北、湖南、广东、海南、广西、贵州、云南、西藏、新疆、西沙群岛 [17]
跗雄管蓟马属
Hoplandrothrips		 鬼针跗雄管蓟马
Hoplandrothrips bidens		 北京 [3]
[1] 韩天富 . 中国现代农业产业可持续发展战略研究(大豆分册).北京: 中国农业出版社, 2016.
[2] 周弘春, 辛惠普 . 豆黄蓟马的发生为害与防治.植物保护, 1994(3):28-28.
[3] 韩运发 . 中国经济昆虫志(第五十五册缨翅目).北京: 科学出版社, 1997.
[4] 戚克耀, 赵宪兴, 王冶 . 大豆蓟马的发生危害及防治.大豆通报, 2002(1):13.
[5] 刘健, 赵奎军 . 中国东北地区大豆主要食叶害虫空间动态分析. 中国油料作物学报, 2012,34(1):69-73.
[6] 谢永辉, 张宏瑞, 刘佳 , 等. 传毒蓟马种类研究进展(缨翅目:蓟马科). 应用昆虫学报, 2013,50(6):1726-1736.
[7] 辛惠普, 张新德, 吴广崚 . 大豆病虫害综合防治技术研究.黑龙江八一农垦大学学报, 1986(2):35-42.
[8] 史树森 . 大豆害虫综合防控理论与技术.长春: 吉林出版集团有限责任公司, 2013.
[9] 辛惠普 . 大豆病虫害防治彩色图谱.北京: 中国农业出版社, 2003.
[10] 高月波, 史树森, 孙嵬 , 等. 大豆田节肢动物群落优势种群时间生态位及营养关系分析. 应用昆虫学报, 2014,51(2):392-399.
[11] 任炳忠, 王贵强, 鲁莹 . 吉林昆虫.哈尔滨:黑龙江大学出版社, 2015.
[12] 孟国玲, 唐国文, 龚信文 . 温度对豆带蓟马生长发育的影响. 华中农业大学学报, 2002,21(3):224-227.
[13] 张桂玲 . 中国蓟马科分类研究. 杨凌:西北农林科技大学, 2003.
[14] 郅军锐, 李景柱, 盖海涛 . 西花蓟马取食不同豆科蔬菜的实验种群生命表. 应用昆虫学报, 2010,47(2):313-317.
[15] 吴仁波, 何余容, 李继虎 , 等. 广东地区春季大豆节肢动物种类调查分析. 环境昆虫学报, 2010,32(2):158-165.
[16] 黄丽娜 . 北京及其周边地区缨翅目昆虫(Thysanoptera)物种多样性研究. 西安:陕西师范大学, 2011.
[17] 谭国忠, 李春杰, 许艳丽 , 等. 豆黄蓟马的识别与综合防治.大豆科技, 2008(3):29-30.
[18] 李佳, 高宇, 崔娟 , 等. 大豆田昆虫对不同颜色趋向选择的差异性分析. 大豆科学, 2015,34(2):12-15.
[19] 林志伟, 宋淑娥, 牟允良 , 等. 大豆田豆黄蓟马空间分布型的研究. 黑龙江八一农垦大学学报, 2001,14(4):24-27.
[20] 周弘春, 辛惠普, 田晓东 , 等. 豆黄蓟马发育起点温度与有效积温研究. 昆虫知识, 1996,33(2):111.
[21] 张卓 . 抗草甘膦转基因大豆对生物多样性影响. 长沙:湖南农业大学, 2011.
[22] Riley D G, Joseph S V, Srinivasan R , et al. Thrips vectors of tospoviruses. Journal of Integrated Pest Management, 2011,1(2):1-10.
[23] Murav'Eva M F . Virus diseases of soybean.Zashchita Rasteniĭ, 1976.
[24] Golnaraghi A R, Pourrahim R, Farzadfar S , et al. Incidence and distribution of tomato yellow fruit ring virus on soybean in Iran. Plant Pathology Journal, 2007,6(1):14-21.
doi: 10.3923/ppj.2007.14.21
[25] Zhou J, Tzanetakis I E . Epidemiology of soybean vein necrosis-associated virus. Phytopathology, 2013,103(9):966-971.
doi: 10.1094/PHYTO-12-12-0322-R
[26] Keough S, Han J, Shuman T , et al. Effects of soybean vein necrosis virus on life history and host preference of its vector,Neohydatothrips variabilis,and evaluation of vector status of Frankliniella tritici and Frankliniella fusca. Journal of Economic Entomology, 2016,109(5):1-9.
doi: 10.1093/jee/tov238
[27] Jacobs J L, Chilvers M I . First report of soybean vein necrosis virus on soybeans in Michigan. Plant Disease, 2013,97(10):1387-1387.
[28] 丁德荣, 盖钧镒 . 南方地区大豆雄性不育材料的传粉昆虫媒介及其传粉异交结实程度. 大豆科学, 2000,19(1):74-79.
[29] 赵丽梅, 孙寰, 马春森 , 等. 大豆昆虫传粉研究初探. 大豆科学, 1999,18(1):73-76.
[30] 王曙明, 王跃强, 李建平 , 等. 人工控制条件下大豆不育系昆虫传粉技术研究.作物杂志, 2010(3):113-117.
[31] 秦文强 . 大豆杂种优势及其遗传基础研究. 南京:南京农业大学, 2011: 18-19.
[32] 孙寰, 赵丽梅, 王曙明 , 等. 大豆杂种优势利用研究进展. 中国油料作物学报, 2003,25(1):92-96.
[33] 刘杰, 刘丹竹, 朱诗禹 , 等. 色板对大豆害虫的诱集效果.现代农业科技, 2016(9):199-122.
[34] Muvea A M, Waiganjo M M, Kutima H L , et al. Attraction of pest thrips (Thysanoptera:Thripidae) infesting French beans to coloured sticky traps with Lurem-TR and its utility for monitoring thrips populations. International Journal of Tropical Insect Science, 2014,34(3):197-206.
[35] Abdullah Z S, Greenfield B P, Ficken K J , et al. A new attractant for monitoring western flower thrips,Frankliniella occidentalis,in protected crops. Springerplus, 2015,4(1):1-9.
doi: 10.1186/2193-1801-4-1
[36] Khan Z R, Midega C A O, Pittchar J O, et al. Push-Pull:A novel IPM strategy for the green revolution in Africa.In:Peshin R,Pimentel D.Integrated Pest Management. Springer Netherlands, 2014.
[37] 祝晓云, 张蓬军, 吕要斌 . 花蓟马雄虫释放的聚集信息素的分离和鉴定. 昆虫学报, 2012,55(4):376-385.
[38] 高宇, 史树森, 崔娟 , 等. 三种颜色色板对大豆田蓟马的诱集效果. 中国油料作物学报, 2016,38(6):838-842.
[39] Stavisky J, Funderburk J, Brodbeck B V , et al. Population dynamics of Frankliniella spp.and tomato spotted wilt incidence as influenced by cultural management tactics in tomato. Journal of Economic Entomology, 2003,95(6):1216-1221.
[40] Reitz S R, Yearby E L, Funderburk J E , et al. Integrated management tactics for Frankliniella thrips (Thysanoptera:Thripidae) in field-grown pepper. Journal of Economic Entomology, 2003,96(4):1201-1214.
doi: 10.1093/jee/96.4.1201
[41] Shimoda M, Honda K I . Insect reactions to light and its applications to pest management. Applied Entomology and Zoology, 2013,48(4):413-421.
doi: 10.1007/s13355-013-0219-x
[42] 韩云, 唐良德, 吴建辉 . 蓟马类害虫综合治理研究进展. 中国农学通报, 2015,31(22):163-174.
[43] 黄建华, 陈洪凡, 王丽思 , 等. 应用捕食螨防治蓟马研究进展. 中国生物防治学报, 2016,32(1):119-124.
[44] Delisle J F, Shipp L, Brodeur J . Apple pollen as a supplemental food source for the control of western flower thrips by two predatory mites,Amblyseius swirskii and Neoseiulus cucumeris (Acari:Phytoseiidae),on potted chrysanthemum. Experimental and Applied Acarology, 2015,65(4):495-509.
doi: 10.1007/s10493-014-9863-2
[45] Kim D I, Park J D, Kim S G , et al. Biological control of Thrips palmi (Thysanoptera:Thripidae) with Orius strigicollis (Hemiptera:Anthocoridae) on cucumber in plastic houses in the southern region of Korea.Journal of Asia-Pacific Entomology, 2004,7(3):311-315.
[46] 尹健, 高新国, 武予清 , 等. 释放东亚小花蝽对茄子上蓟马的控制效果. 中国生物防治学报, 2013,29(3):459-462.
[47] 张安盛, 于毅, 周仙红 , 等. 中华草蛉3龄幼虫对西花蓟马的捕食作用. 山东农业科学, 2012,44(7):88-89.
[48] North J P, Cuthbertson A G S, Walters K F A. The efficacy of two entomopathogenic biocontrol agents against adult Thrips palmi (Thysanoptera:Thripidae). Journal of Invertebrate Pathology, 2006,92(2):89-92.
doi: 10.1016/j.jip.2006.02.006
[49] Ugine T A, Wraight S P, Sanderson J P . Influences of impatiens pollen and exposure to Beauveria bassiana on bionomics of western flower thrips Frankliniella occidentalis. Biological Control, 2006,37(2):186-195.
doi: 10.1016/j.biocontrol.2005.09.020
[50] 高宇, 侯向洁, 徐伟 , 等. 异色瓢虫十九斑变型对豆黄蓟马成虫的捕食功能反应. 中国油料作物学报, 2016,38(4):508-512.
doi: 10.7505/j.issn.1007-9084.2016.04.015
[51] Selig P, Keough S, Nalam V J , et al. Jasmonate-dependent plant defenses mediate soybean thrips and soybean aphid performance on soybean. Arthropod-Plant Interactions, 2016,10(4):273-282.
doi: 10.1007/s11829-016-9437-9
[52] Reisig D D, Herbert D A, Malone S . Impact of neonicotinoid seed treatments on thrips (Thysanoptera:Thripidae) and soybean yield in Virginia and North Carolina. Journal of Economic Entomology, 2012,105(3):884-889.
doi: 10.1603/EC11429
[53] 王泽华 . 西花蓟马对多杀菌素的抗性汰选和遗传方式. 应用昆虫学报, 2011,48(3):553-558.
[54] Gholami Z, Sadeghi A . Management strategies for western flower thrips in vegetable greenhouses in Iran:A review. Plant Protection Science, 2016,52(2):87-98.
doi: 10.17221/PPS
[55] 付步礼, 刘俊峰, 邱海燕 , 等. 海南省香蕉黄胸蓟马田间种群的抗药性监测. 应用昆虫学报, 2016,53(2):403-410.
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