茶刺蛾生物学特征及生物防治方法的研究进展
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摘要
茶刺蛾是我国茶树的主要害虫,常在茶园暴发成灾,严重地影响茶叶的产量和品质。对茶刺蛾的形态特征、生长发育、发育历期和取食规律等生物学特性进行综述,同时又从生物毒素、生物信息素、植物源农药等方面,阐述了当前行之有效的生物防治方法,以期为新型的茶叶无公害生产技术开发提出一定的参考。
Iragoides fasciata Moore is the main pest of tea trees in China. It often breaks out in tea gardens and seriously affects the yield and quality of tea. This article reviewed the biological characteristics of the morphological characteristics, growth and development,developmental duration and feeding patterns of the tea moth, and described the current effective pollution-free prevention methods from the aspects of biotoxins, biopheromones, and plant-derived pesticides, which provides a certain reference for the development of new tea pollution-free production technology.
Iragoides fasciata Moore is the main pest of tea trees in China. It often breaks out in tea gardens and seriously affects the yield and quality of tea. This article reviewed the biological characteristics of the morphological characteristics, growth and development,developmental duration and feeding patterns of the tea moth, and described the current effective pollution-free prevention methods from the aspects of biotoxins, biopheromones, and plant-derived pesticides, which provides a certain reference for the development of new tea pollution-free production technology.
引文
[1]武春生.中国刺蛾科幼虫的寄主植物多样性分析[J].中国森林病虫,2010(2):1-4.
[2]张小琴,陈娟,高秀兵,等.贵州重点茶区茶园土壤p H值和主要养分分析[J].西南农业学报,2015(1):286-291.
[3]刘红,张清海,林绍霞,等.贵州主要茶区土壤重金属含量比较与评价[J].中国农学通报,2014(4):210-214.
[4]张清海,龙章波,林绍霞,等.贵州云雾茶园土壤高含量重金属和砷在茶叶中的积累与浸出特征[J].食品科学,2013(8):212-215.
[5]尹杰,牛素贞,刘进平,等.贵州有机茶园土壤肥力的调查[J].西南农业学报,2013(1):226-229.
[6]刘红,张清海,林昌虎,等.基于GIS技术的贵定县茶园土壤质量安全调查与评价[J].江苏农业科学,2014(3):291-295.
[7]赵路玥,张清海,张珍明,等.贵定茶产区土壤重金属含量垂直分布特征[J].广东农业科学,2014(3):175-179.
[8]蔡滔,卢平,庞宏宇.贵州省茶叶农药与重金属残留监测分析[J].耕作与栽培,2015(6):7-8.
[9]HUANG A P,BAO X C,LIU B Y,et al.Electroantennogram responses of the tea slug moth,Iragoides fasciata to some plant volatiles associated with tea,Camellia sinensis[J].Journal of Insect Science,2012(1):75.
[10]黄安平,包小村.茶刺蛾触角感器的扫描电镜观察[J].福建茶叶,2013(4):10-15.
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[12]KIMJ,PARK K C,ROH H S,et al.Morphology and distribution of antennal sensilla of the bean bug riptortus pedestris(Hemiptera:Alydidae)[J].Microsc Res Tech,2016(6):501-511.
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[14]R J.Morphology and distribution of antennal sensilla in Opisina arenosella walker(Lepidoptera:Xyloryctinae)[J].Journal of Entomological Research,2010(4):23-25.
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[16]ZHANG G,LI B,LI A C.Morphology and distribution of antennal sensilla of female Phyllotreta striolata(Fabricius)(Coleoptera:Chrysomelidae)[J].Microscopy Research and Technique,2016(3):219-226.
[17]DWECK H K M,GADALLAH N S.Description of the antennal sensilla of habrobracon hebetor[J].Bio Control,2008(6):841-856.
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[19]CHEN J,QIAO H,CHEN J,et al.Observation of antennal sensilla in Xylotrechus grayii(Coleoptera:Cerambycidae)with scanning electron microscopy[J].Microscopy Research and Technique,2014(4):264-273.
[20]WEI C,REN B,CHEN X,et al.Scanning electron bicroscope observations on the antennal sensilla of two stored grain pests Trogoderma granarium and Trogoderma variabile(Coleoptera:Dermestidae)[J].Florida Entomologist,2015(1):140-148.
[21]BLEEKER M A K,SMID H M,VAN AELST A C,et al.Antennal sensilla of two parasitoid wasps:a comparative scanning electron microscopy study[J].Microscopy Research and Technique,2004(5):266-273.
[22]SHI Y Y,YONG Z Z,JIN P Z,et al.A comparative scanning electron microscopy study on antennal sensilla of Trissolcus japonicus and Trissolcus plautiae,egg parasitoids of stink bugs(Pentatomidae)[J].Annals of the Entomological Society of America,2016(1):112-120.
[23]DAS P,FADAMIRO H Y.Species and sexual differences in antennal lobe architecture and glomerular organization in two parasitoids with different degree of host specificity,Microplitis croceipes and Cotesia marginiventris[J].Cell and Tissue Research,2013(2):227-235.
[24]付盈盈,汤方,赵文亮,等.分月扇舟蛾触角感觉器的扫描电镜观察[J].应用昆虫学报,2012(2):515-519.
[25]高宇,王志英,赵红盈,等.白蜡吉丁啮小蜂触角感觉器的扫描电镜观察[J].中国农业科学,2013(9):1956-1964.
[26]宫田睿.桃小食心虫寄主选择性研究[D].杨凌:西北农林科技大学,2012.
[27]唐美君,郭华伟,殷坤山.茶刺蛾幼虫的发育起点温度和有效积温[J].植物保护,2015,41(2):139-141.
[28]唐美君,殷坤山,郭华伟,等.茶刺蛾核型多角体病毒大量增殖的最优条件[J].植物保护学报,2012(5):473-474.
[29]张朝阳,李浩宇,吴喜斌.太湖洞庭山果茶间作地区刺蛾类害虫发生情况初报[J].中国南方果树,2011(2):63-64.
[30]唐美君,郭华伟,肖强.茶刺蛾的防治适期与防治指标[J].植物保护,2014(3):183-186.
[31]杨丽荣,肖强,冷杨,等.茶刺蛾核型多角体病毒与其他杆状病毒关系的基因分析[J].茶叶科学,2005(1):65-70.
[32]YANG L,XIAO Q,ZHANG B,et al.Characterization of a baculovirus newly isolated from the tea slug moth,Iragoidae fasciata[J].The Journal of Microbiology,2009,47(2):208-213.
[33]唐美君,殷坤山,郭华伟,等.茶刺蛾核型多角体病毒的毒性测定与田间应用[J].植物保护学报,2010(1):93-94.
[34]唐美君,肖强,郭华伟,等.茶刺蛾核型多角体病毒制剂示范应用试验[J].中国茶叶,2007(3):28-29.
[35]唐美君,殷坤山,肖强.茶刺蛾核型多角体病毒多角体的增殖动态与生产工艺[J].植物保护,2015(1):174-177.
[36]黄安平,韩宝瑜,包小村.茶刺蛾危害后茶树挥发性有机化合物释放变化[J].应用与环境生物学报,2011(6):819-823.
[37]黄安平,李正文,周凌云.茶刺蛾危害诱导茶树挥发物释放变化的研究[J].茶叶通讯,2013(4):6-9.
[38]ABRELL L,GUERENSTEIN P G,MECHABER W L,et al.Effect of elevated atmospheric CO2on oviposition behavior in Manduca sexta moths[J].Global Change Biology,2005(8):1272-1282.
[39]ARIMURA G,KOST C,BOLAND W.Herbivore-induced,indirect plant defences[J].Biochimica et Biophysica Acta:Molecular and Cell Biology of Lipids,2005(2):91-111.
[40]HEIL M,SILVA-BUENO J C.Within-plant signaling by volatiles leads to induction and priming of an indirect plant defense in nature[J].Proceedings of the National Academy of Sciences,2007(13):5467-5472.
[41]TAO L,HOLOPAINEN J K,KOKKO H,et al.Herbivore-induced aspen volatiles temporally regulate two different indirect defences in neighbouring plants[J].Functional Ecology,2012(5):1176-1185.
[42]KOST C,HEIL M.Herbivore-induced plant volatiles induce an indirect defence in neighbouring plants[J].Journal of Ecology,2006(3):619-628.
[43]WOODS J L,JAMES D G,LEE J C,et al.Evaluation of airborne methyl salicylate for improved conservation biological control of two-spotted spider mite and hop aphid in Oregon hop yards[J].Experimental and Applied Acarology,2011(4):401-416.
[44]DUDAREVA N D H P,PICHERSKY E.Biochemistry of plant volatiles[J].Plant Physiology,2004(4):1893-1902.
[45]PIERRE P S,JANSEN J J,HORDIJK C A,et al.Differences in volatile profiles of turnip plants subjected to single and dual herbivory above-and belowground[J].Journal of Chemical Ecology,2011,37(4):368-377.
[46]ANGELA N G,VAUGHN M W,JANA C L.Olfactory response of Typhlodromus pyri(Acari:Phytoseiidae)to synthetic methyl salicylate in laboratory bioassays[J].Journal of Applied Entomology,2012,136(6):476-480.
[47]HILKER M,MEINERS T.Plants and insect eggs:How do they affect each other?[J].Phytochemistry,2011,72(13):1612-1623.
[48]MIRIAN F F M.Volatiles mediating a plant-herbivore-natural enemy interaction in resistant and susceptible soybean cultivars[J].J Chem Ecol,2011,37(3):273.
[49]LUCAS-BARBOSA D,POELMAN E H,AARTSMA Y,et al.Caught between parasitoids and predators-survival of a specialist herbivore on leaves and flowers of mustard plants[J].J Chem Ecol,2014(6):621-631.
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[2]张小琴,陈娟,高秀兵,等.贵州重点茶区茶园土壤p H值和主要养分分析[J].西南农业学报,2015(1):286-291.
[3]刘红,张清海,林绍霞,等.贵州主要茶区土壤重金属含量比较与评价[J].中国农学通报,2014(4):210-214.
[4]张清海,龙章波,林绍霞,等.贵州云雾茶园土壤高含量重金属和砷在茶叶中的积累与浸出特征[J].食品科学,2013(8):212-215.
[5]尹杰,牛素贞,刘进平,等.贵州有机茶园土壤肥力的调查[J].西南农业学报,2013(1):226-229.
[6]刘红,张清海,林昌虎,等.基于GIS技术的贵定县茶园土壤质量安全调查与评价[J].江苏农业科学,2014(3):291-295.
[7]赵路玥,张清海,张珍明,等.贵定茶产区土壤重金属含量垂直分布特征[J].广东农业科学,2014(3):175-179.
[8]蔡滔,卢平,庞宏宇.贵州省茶叶农药与重金属残留监测分析[J].耕作与栽培,2015(6):7-8.
[9]HUANG A P,BAO X C,LIU B Y,et al.Electroantennogram responses of the tea slug moth,Iragoides fasciata to some plant volatiles associated with tea,Camellia sinensis[J].Journal of Insect Science,2012(1):75.
[10]黄安平,包小村.茶刺蛾触角感器的扫描电镜观察[J].福建茶叶,2013(4):10-15.
[11]SUN X,WANG M,ZHANG G.Ultrastructural observations on antennal sensilla of Cnaphalocrocis medinalis(Lepidoptera:Pyralidae)[J].Microscopy Research and Technique,2011(2):113-121.
[12]KIMJ,PARK K C,ROH H S,et al.Morphology and distribution of antennal sensilla of the bean bug riptortus pedestris(Hemiptera:Alydidae)[J].Microsc Res Tech,2016(6):501-511.
[13]FRANK D L,LESKEY T C,BERGH J C.Morphological characterization of antennal sensilla of the dogwood borer(Lepidoptera:Sesiidae)[J].Annals of the Entomological Society of America,2010(6):993-1002.
[14]R J.Morphology and distribution of antennal sensilla in Opisina arenosella walker(Lepidoptera:Xyloryctinae)[J].Journal of Entomological Research,2010(4):23-25.
[15]王焱,穆兰芳,曾凡荣,等.樟巢螟成虫触角感器的扫描电镜观察[J].应用昆虫学报,2011(3):675-679.
[16]ZHANG G,LI B,LI A C.Morphology and distribution of antennal sensilla of female Phyllotreta striolata(Fabricius)(Coleoptera:Chrysomelidae)[J].Microscopy Research and Technique,2016(3):219-226.
[17]DWECK H K M,GADALLAH N S.Description of the antennal sensilla of habrobracon hebetor[J].Bio Control,2008(6):841-856.
[18]YANG H,YAN S,LIU D.Ultrastructural observations on antennal sensilla of Coleophora obducta[J].Micron,2009(2):231-238.
[19]CHEN J,QIAO H,CHEN J,et al.Observation of antennal sensilla in Xylotrechus grayii(Coleoptera:Cerambycidae)with scanning electron microscopy[J].Microscopy Research and Technique,2014(4):264-273.
[20]WEI C,REN B,CHEN X,et al.Scanning electron bicroscope observations on the antennal sensilla of two stored grain pests Trogoderma granarium and Trogoderma variabile(Coleoptera:Dermestidae)[J].Florida Entomologist,2015(1):140-148.
[21]BLEEKER M A K,SMID H M,VAN AELST A C,et al.Antennal sensilla of two parasitoid wasps:a comparative scanning electron microscopy study[J].Microscopy Research and Technique,2004(5):266-273.
[22]SHI Y Y,YONG Z Z,JIN P Z,et al.A comparative scanning electron microscopy study on antennal sensilla of Trissolcus japonicus and Trissolcus plautiae,egg parasitoids of stink bugs(Pentatomidae)[J].Annals of the Entomological Society of America,2016(1):112-120.
[23]DAS P,FADAMIRO H Y.Species and sexual differences in antennal lobe architecture and glomerular organization in two parasitoids with different degree of host specificity,Microplitis croceipes and Cotesia marginiventris[J].Cell and Tissue Research,2013(2):227-235.
[24]付盈盈,汤方,赵文亮,等.分月扇舟蛾触角感觉器的扫描电镜观察[J].应用昆虫学报,2012(2):515-519.
[25]高宇,王志英,赵红盈,等.白蜡吉丁啮小蜂触角感觉器的扫描电镜观察[J].中国农业科学,2013(9):1956-1964.
[26]宫田睿.桃小食心虫寄主选择性研究[D].杨凌:西北农林科技大学,2012.
[27]唐美君,郭华伟,殷坤山.茶刺蛾幼虫的发育起点温度和有效积温[J].植物保护,2015,41(2):139-141.
[28]唐美君,殷坤山,郭华伟,等.茶刺蛾核型多角体病毒大量增殖的最优条件[J].植物保护学报,2012(5):473-474.
[29]张朝阳,李浩宇,吴喜斌.太湖洞庭山果茶间作地区刺蛾类害虫发生情况初报[J].中国南方果树,2011(2):63-64.
[30]唐美君,郭华伟,肖强.茶刺蛾的防治适期与防治指标[J].植物保护,2014(3):183-186.
[31]杨丽荣,肖强,冷杨,等.茶刺蛾核型多角体病毒与其他杆状病毒关系的基因分析[J].茶叶科学,2005(1):65-70.
[32]YANG L,XIAO Q,ZHANG B,et al.Characterization of a baculovirus newly isolated from the tea slug moth,Iragoidae fasciata[J].The Journal of Microbiology,2009,47(2):208-213.
[33]唐美君,殷坤山,郭华伟,等.茶刺蛾核型多角体病毒的毒性测定与田间应用[J].植物保护学报,2010(1):93-94.
[34]唐美君,肖强,郭华伟,等.茶刺蛾核型多角体病毒制剂示范应用试验[J].中国茶叶,2007(3):28-29.
[35]唐美君,殷坤山,肖强.茶刺蛾核型多角体病毒多角体的增殖动态与生产工艺[J].植物保护,2015(1):174-177.
[36]黄安平,韩宝瑜,包小村.茶刺蛾危害后茶树挥发性有机化合物释放变化[J].应用与环境生物学报,2011(6):819-823.
[37]黄安平,李正文,周凌云.茶刺蛾危害诱导茶树挥发物释放变化的研究[J].茶叶通讯,2013(4):6-9.
[38]ABRELL L,GUERENSTEIN P G,MECHABER W L,et al.Effect of elevated atmospheric CO2on oviposition behavior in Manduca sexta moths[J].Global Change Biology,2005(8):1272-1282.
[39]ARIMURA G,KOST C,BOLAND W.Herbivore-induced,indirect plant defences[J].Biochimica et Biophysica Acta:Molecular and Cell Biology of Lipids,2005(2):91-111.
[40]HEIL M,SILVA-BUENO J C.Within-plant signaling by volatiles leads to induction and priming of an indirect plant defense in nature[J].Proceedings of the National Academy of Sciences,2007(13):5467-5472.
[41]TAO L,HOLOPAINEN J K,KOKKO H,et al.Herbivore-induced aspen volatiles temporally regulate two different indirect defences in neighbouring plants[J].Functional Ecology,2012(5):1176-1185.
[42]KOST C,HEIL M.Herbivore-induced plant volatiles induce an indirect defence in neighbouring plants[J].Journal of Ecology,2006(3):619-628.
[43]WOODS J L,JAMES D G,LEE J C,et al.Evaluation of airborne methyl salicylate for improved conservation biological control of two-spotted spider mite and hop aphid in Oregon hop yards[J].Experimental and Applied Acarology,2011(4):401-416.
[44]DUDAREVA N D H P,PICHERSKY E.Biochemistry of plant volatiles[J].Plant Physiology,2004(4):1893-1902.
[45]PIERRE P S,JANSEN J J,HORDIJK C A,et al.Differences in volatile profiles of turnip plants subjected to single and dual herbivory above-and belowground[J].Journal of Chemical Ecology,2011,37(4):368-377.
[46]ANGELA N G,VAUGHN M W,JANA C L.Olfactory response of Typhlodromus pyri(Acari:Phytoseiidae)to synthetic methyl salicylate in laboratory bioassays[J].Journal of Applied Entomology,2012,136(6):476-480.
[47]HILKER M,MEINERS T.Plants and insect eggs:How do they affect each other?[J].Phytochemistry,2011,72(13):1612-1623.
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