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[1]兰英,赵秀梅,刘悦,等.玉米田双斑长跗萤叶甲综合治理研究进展[J].黑龙江农业科学,2022,(12):100-105.[doi:10.11942/j.issn1002-2767.2022.12.0100]
　LAN Ying,ZHAO Xiu-mei,LIU Yue,et al.Research Progress on Comprehensive Management of Monolepta hieroglyphica (Motschulsky)[J].HEILONGJIANG AGRICULTURAL SCIENCES,2022,(12):100-105.[doi:10.11942/j.issn1002-2767.2022.12.0100]

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玉米田双斑长跗萤叶甲综合治理研究进展

《黑龙江农业科学》[ISSN:1002-2767/CN:23-1204/S] 卷: 期数: 2022年12 页码: 100-105 栏目: 出版日期: 2022-12-10

Title:: Research Progress on Comprehensive Management of Monolepta hieroglyphica (Motschulsky)

作者:: 兰英; 赵秀梅; 刘悦; 李青超; 王立达; 刘洋; 黑龙江省农业科学院齐齐哈尔分院，黑龙江齐齐哈尔 161006

Author(s):: LAN Ying; ZHAO Xiu-mei; LIU Yue; LI Qing-chao; WANG Li-da; LIU Yang; Qiqihar Branch， Heilongjiang Academy of Agricultural Sciences， Qiqihar 161006， China

关键词:: 玉米; 双斑长跗萤叶甲; 发生规律; 综合治理

Keywords:: maize; Monolepta hieroglyphica; occurrence regularity; comprehensive control

DOI:: 10.11942/j.issn1002-2767.2022.12.0100

文献标志码:: A

摘要:: 近年来，随着我国玉米种植规模的不断扩大以及耕作方式的改变，双斑长跗萤叶甲已跃升为我国玉米产区的主要害虫，而对其综合防治相关研究较少。为减少其发生及危害，本文从其发生规律、危害特点、防治策略、防控方法等方面总结玉米产区双斑长跗萤叶甲的研究现状，介绍了不同防治措施的特点，并对今后的研究方向进行了展望，以期为我国玉米产区双斑长跗萤叶甲的深入研究和防治方法提供理论和技术支撑。

Abstract:: In recent years， with the continuous expansion of maize planting scale and the change of tillage method， Monolepta hieroglyphica has become the main pest in maize producing areas， but there are few studies on its comprehensive control. In order to reduce its occurrence and harm， in this paper， the research status of Monolepta hieroglyphica in corn producing areas was summarized from the aspects of occurrence law， hazard characteristics， control strategy， prevention and control methods， the characteristics of different control measures were introduced， and the future research direction was prospected， in order to provide theoretical and technical support for further research and control methods of Monolepta hieroglyphica in corn producing areas.

参考文献/References:

［1］赵秀梅，张树权，李青超，等.黑龙江省玉米穗期主要害虫发生概况及防治对策[J].中国植保导刊，2014，34(11):37-39.

[2]王立仁，刘斌侠，付泓.玉米田双斑长跗萤叶甲的发生为害情况与防治对策[J].陕西农业科学，2006，10(2):123.

[3]杜建军，云雷.双斑长跗萤叶甲发生危害特点及防治措施[J].陕西农业科学，2009，10(3):202.

[4]梁日霞，王振营，何康来，等.基于线粒体COⅡ基因序列的双斑长跗萤叶甲中国北方地理种群的遗传多样性研究[J].昆虫学报，2011，54(7):828-837.

[5]邵天玉，刘兴龙，刘春来，等.黑龙江省双斑长跗萤叶甲成虫田间发生动态研究[J].黑龙江农业科学，2014(5):65-66.

[6]高宇，徐伟，史树森，等.双斑长跗萤叶甲寄主植物名录[J].湖北农业科学，2017，56(5):865-869.

[7]聂强，孙强.双斑萤叶甲成虫的取食选择性研究[J].黑龙江八一农垦大学学报，2009，21(4):38-41.

[8]陈静，张建萍，张建华，等.双斑长跗萤叶甲的嗜食性[J].昆虫知识，2017，44(3):357-360.

[9]赵秀梅，刘洋，谭可菲，等.玉米田双斑萤叶甲发生危害情况与防治对策[J].黑龙江农业科学，2011(6):51-52.

[10]张聪，葛星，赵磊，等.双斑长跗萤叶甲越冬卵在玉米田的空间分布型[J].生态学报，2013，33(11):3452-3459.

[11]王连霞，王克勤，赵秀梅，等.用黄色粘虫板监测玉米田双斑萤叶甲和蚜虫种群动态与诱杀效果研究[J].玉米科学，2021(14):122-127.

[12]WANG X J，ZHANG X，YANG J T，et al.Efect on transcriptome and metabolome of stacked transgenic maize containing insecticidal cry and glyphosate tolerance epsps genes[J].Plant，2018，93(6):1007-1016.

[13]SHEN Q Q，PU Q Y，LIANG J，et al.CYP71Z18 overexpressn confers elevated blast resistance in transgenic rice[J].Plant Molecular Biology，2019，100(6):579-589.

[14]LUAN Y S，CUI J，WANG W C，et al.Mir 1918 enhances tomato sensitivity to Phytophthora infestans infection[J].Scientific Reports，2016，6:35858-35869.

[15]NI M，MA W，WANG X F，et al.Next-generation transgenic cotton：pyramiding RNAi and Bt counters insect resistance[J].Plant Biotechnology Journal，2017，15(9):1204-1213.

[16]SCHIEMANN J，DIETZ-PFEILSTETTER A，HARTUNG F，et al.Risk assessment and regulation of plants modifed by modern biotechniques：current status and future challenges[J].Annual Review of Plant Biology，2019，70:699-726.

[17]MAO Y B，CAI W J，WANG J W，et al.Silencing a cotton bollworm P450 monooxygenase gene by plant mediated RNAi impairs larval tolerance of gossypol[J].Nat Biotechnol，2007，25(11):1307-1313.

[18]ZHANG J，KHAN S A，HECKEL D G，et al.Next-generation insectresistant plants:RNAi-mediated crop protection[J].Trends Biotechnol，2017，35(9):871-882.

[19]RICROCH A，BERGE J B，KUNTZ M，et al.Evaluation of genetically engineered crops using transcriptomic，proteomic，and metabolomic profling techniques[J].Plant Physiol，2011，155(4):1752-1761.

[20]BARROS E，LEZAR S，ANTTONEN M J，et al.Comparison of two GM maize varieties with a near-isogenic non-GM variety using transcriptomics，proteomics and metabolomics[J].Plant Biotechnology Journal，2010，8(4):436-451.

[21]KIM J K，PARK S Y，LEE S M，et al.Unintended polar metabolite profling of carotenoid-biofortifed transgenic rice reveals substantial equivalence to its non-transgenic counterpart[J].Plant Biotechnology Reports，2013，7(1):121-128.[22]RAO J，YANG L，GUO J，et al.Metabolic changes in transgenic maize mature seeds over-expressing the Aspergillus niger phyA2[J].Plant Cell Rep orts，2016，35(2):429-437.

[23]张萌，崔娟，徐伟，等.几种农作物寄主对双斑长跗萤叶甲成虫生殖力的影响[J].中国农学通报，2015，31(23):81-84.

[24]李广伟，张建萍，陈静，等.几种杀虫剂对双斑萤叶甲的毒力测定及田间药效试验[J].农药，2007，46(7):486-488.

[25]王振华，王宏富，刘鑫，等.双斑长跗萤叶甲在相邻农田生态系统中种群消长规律[J].植物保护，2018，44(1):161-165，178.

[26]GUI W J，WANG S T，GUO Y R，et al.Development of a one-step strip for the detection of triazophos residues in environmental samples[J].Analytical Biochemistry，2008，377:202-208.

[27]MANSOUR R，YOUSSFI F E，LEBDI K G，et al.Imidacloprid applied through drip irrigation as a new promising alternative to control mealybugs in Tunisian vineyards[J].Review of Plant Protection Research，2010，50:314-319.[28]REDING ME，ZHU H ，DERKSEN R，et al.Drip chemigation with imidacloprid and nematodes for control of scarab larvae in nursery crops[J].Horticulture Environment And Biotechnology，2008，26:93-100.[29]张选良.玉米双斑长跗萤叶甲的发生规律及综合防治对策[J].陕西农业科学，2009，5(3):201.

[30]麻林，李军，王建林，等.双斑长跗萤叶甲发生规律观察[J].中国植保导刊，2006，26(8):40-41.

[31]袁海滨，刘莹，丁玉骁，等.野艾蒿精油对双斑萤叶甲成虫的熏蒸活性及体内酶活力的影响[J].吉林农业大学学报，2014(1):30-35.

[32]陈光辉，尹弯，李勤，等.双斑长跗萤叶甲研究进展[J].中国植保导刊，2016，36(10):19-26.

[33]聂强.双斑萤叶甲生物学特性和防治策略的研究[D].大庆:黑龙江八一农垦大学，2009.

[34]OLDHAM N J，VEITH M，BOLAND W，et al.Iridoid monoterpene biosynthesis in insects：evidence for a de novo pathway occurring in the defensive glands of Phaedon armoraciae (Chrysomelidae) leaf beetle larvae[J].Naturwissenschaften，1996，83：470-473.

[35]PASTEELS J M，BRAEKMAN J C，DALOZE D，et al.Chemical defence in chrysomelid larvae and adults[J].Tetrahedron，1982，38：1891-1897.

[36]KESSLER A，BALDWIN I T.Plants responses to insect herbivory：the emerging molecular analysis[J].Annual Review of Plant Biology，2002，53:299-328.

[37]DUDAREVA N，PICHERSKY E.Metabolic engineering of plant volatiles[J].Current Opinion in Biotechnology，2008，19:181-189.

[38]HOLOPAINEN J K，GERSHENZOU J.Multiple stress factors and the emission of plant VOCs[J].Trends in Plant Science，2010，15(3):176-184.

[39]BALDWIN I T，HALITSCHKE R，PASCHOLD A，et al.Volatile signaling in plant-plant interactions：“Talking trees” in the genomics era[J].Science，2006，311:812-815.[40]DICKEM，BRUIN J.Chemical information transfer between plants：back to the future[J].Biochemical Systematics AND Ecology，2001，29:981-994.

[41]RENFREE M B，LINCOLN D W，ALMEIDA O F，et al.Abolition of seasonal embryonic diapause in a wallaby by pineal denervation[J].Nature，1981，293:138-139.

[42]SUZUKI K，TANAKA H，AN Y，et al.Significance of specific factors produced throughout diapause in pharate first instar larvae and adults[J].Insect Timing：Circadian Rhythmicity to Seasonality，2001：185-198.DOI:10.1016/B978-04450608-5/50047-7.

[43]TANAKA H，SUDO C，AN Y，et al.A Specific peptide produced during adult diapause of the leaf beetle，Gastrophysa Atrocyanea motschulsky (Coleoptera：Chrysomelidae)[J].Applied Entomology and Zoology,1998，33:535-43.

[44]HAHN C，BACHMANN L，CHEVREUX B，et al.Reconstructing mitochondrial genomes directly from genomic next-generation sequencing reads-a baiting and iterative mapping approach[J].Nucleic Acids Research，2013，41(13):e129-e129.[45]RONQUIST F，TESLENKO M，van der MARK P.MrBayes 3.2：efficient Bayesian phylogenetic Inference and model choice across a large model space[M].Systematic Biology，2012，61(3):539-542

.[46]POSADA D.ModelTest：phylogenetic model averaging[J].Molecular Biology and Evolution，2008，25:1253-1256.

[47]张聪.玉米田双斑长跗萤叶甲发生规律及生物学特性研究[D].北京:中国农业科学院，2012．

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备注/Memo

收稿日期：2022-09-10

基金项目：齐齐哈尔市科技局农业攻关项目（CNYGG2021030）；黑龙江省农业科学院农业科技创新跨越工程专项（HNK2019CX14）；黑龙江省省属科研院所科研业务费项目（CZKYF2021C008）；中国科学院战略性先导科技黑土粮仓专项（XDA28130504）。

第一作者：兰英（1994-），女，硕士，研究实习员，从事植物保护研究。E-mail：1301622659@qq.com。

更新日期/Last Update: 2022-12-29