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Management of Colorado potato beetle in invasive frontier areas |
WANG Cong, XU Han, PAN Xu-bin
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Institute of Plant Quarantine, Chinese Academy of Inspection and Quarantine, Beijing 100029, P.R.China |
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Abstract Colorado potato beetle (CPB) is one of the most devastating invasive insects and it is native to North America. It feeds on several wild species of the genus Solamum, such as S. elaeagnifolium and S. rostratum Dunal, and is one of the major pests of potato and eggplant. Beginning in the early 19th century, CPB has rapidly spread across North America, Europe, and Central Asia. CPB was first reported to invade Xinjiang of China in 1993 and it was effectively controlled in Mori County. Since 2013, CPB has also been found in Jilin and Heilongjiang in Northeast China, and it likely migrated to these provinces from Russia. Thus, China has become the frontier for the global CPB spread, and risk management and monitoring systems for this pest are urgently needed. Here, we summarize pest management methods that are used in areas at the frontier of the CPB invasion, and put forward frameworks for further preventing and controlling of the spread of CPB. The management methods for CPB can also serve as an example for the control of invasive species mitigation in frontier areas.
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Received: 17 April 2019
Accepted:
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| Fund: This work is supported by the Basic Scientific Funding from Chinese Academy of Inspection and Quarantine (2017JK038 and 2014JK014). |
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Corresponding Authors:
Correspondence PAN Xu-bin, E-mail: xubin.hu.pan@gmail.com
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| About author: WANG Cong, E-mail: wangcong_alice@outlook.com; |
Cite this article:
WANG Cong, XU Han, PAN Xu-bin.
2020.
Management of Colorado potato beetle in invasive frontier areas . Journal of Integrative Agriculture, 19(2): 360-366.
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Alyokhin A, Baker M, Mota-Sanchez D, Dively G, Grafius E. 2008. Colorado potato beetle resistance to insecticides. American Journal of Potato Research, 85, 395–413.
Alyokhin A, Dively G, Patterson M, Castaldo C, Rogers D, Mahoney M, Wollam J. 2007. Resistance and cross-resistance to imidacloprid and thiamethoxam in the Colorado potato beetle Leptinotarsa decemlineata. Pest Management Science, 63, 32–41.
Bacon S J, Aebi A, Calanca P, Bacher S. 2014. Quarantine arthropod invasions in Europe: the role of climate, hosts and propagule pressure. Diversity and Distributions, 20, 84–94.
Bacon S J, Bacher S, Aebi A. 2012. Gaps in border controls are related to quarantine alien insect invasions in Europe. PLoS ONE, 7, e47689.
Bartlett P W. 2008. Interception and eradication of Colorado beetle in England and Wales, 1958–1977. Bulletin OEPP/EPPO Bulletin, 10, 481–489.
Beaumont L J, Pitman A J, Poulsen M, Hughes L. 2007. Where will species go? Incorporating new advances in climate modelling into projections of species distributions. Global Change Biology, 13, 1368–1385.
Berzitis E A, Minigan J N, Hallett R H, Newman J A. 2014. Climate and host plant availability impact the future distribution of the bean leaf beetle (Cerotoma trifurcata). Global Change Biology, 20, 2778–2792.
Bolter C J, Jongsma M A, 1995. Colorado potato beetle (Leptinotarsa decemlineata) adapt to proteinase inhibitors induced in potato leaves by methyl jasmonate. Journal of Insect Physiology, 41, 1071–1078.
Casagrande R A, 1987. The Colorado potato beetle: 125 years of mismanagement. Bulletin of the Entomological Society of America, 33, 142–150.
Dively G P, Follett P A, Linduska J J, Roderick G K. 1998. Use of imidacloprid-treated row mixtures for Colorado potato beetle (Coleoptera: Chrysomelidae) management. Journal of Economic Entomology, 91, 376.
Edgerton J, 1861. Potato insects. Prairie Farmer, 8 (new series), 116.
Fang L. 2012. Occurrence and interception of potato beetle in Xinjiang. Xinjiang Agricultural Sciences and Technology, (6), 49. (in Chinese)
Fielding A H, Bell J F. 1997. A review of methods for the assessment of prediction errors in conservation presence/absence models. Environment Conservation, 24, 38–49.
Gilbert A J. 2013. Delimitation survey-guidelines for mapping. In: Gilbert A J, Hoffman K M, Cannon C J, Cook C H, Chan J K, eds., Pest Detection/Emergency Projects. Insect Trapping Guide13th ed. Department of Food and Agriculture, California. p. xxii.
Greenstone M H, Szendrei Z, Payton M E, Rowley D L, Coudron T C, Weber D C. 2010. Choosing natural enemies for conservation biological control: use of the prey detectability half-life to rank key predators of Colorado potato beetle. Entomologia Experimentalis et Applicata, 136, 97–107.
Guan H, Zhang L, Yu H X. 2012. Discussion on integrated control technology of potato beetle. Xinjiang Agricultural Science and Technology, (3), 26. (in Chinese)
Guo W C, Xu J, Liu J, He J, Li J, Ma D C, Wang J. 2010. Research on the identification of Colorado potato beetle & its distribution dispersal and damage in Xinjiang. Xinjiang Agricultural Sciences, 47, 906–909. (in Chinese)
Gutierrez A P, Mills N J, Ponti L. 2010. Limits to the potential distribution of light brown apple moth in Arizona–California based on climate suitability and host plant availability. Biological Invasions, 12, 3319–3331.
Harcourt D G. 1971. Population dynamics of Leptinotarsa decemlineata (Say) in eastern Ontario. III. Major population processes. Canadian Entomologist, 103, 1049–1061.
Hare J D. 1990. Ecology and management of the Colorado potato beetle. Annual Review of Entomology, 35, 81–100.
Izzo V M, Hawthorne D J, Chen Y H. 2014. Geographic variation in winter hardiness of a common agricultural pest, Leptinotarsa decemlineata, the Colorado potato beetle. Evolutionary Ecology, 28, 505–520.
Jiang W H, Wang Z T, Xiong M H, Lu W P, Liu P, Guo W C, Li G Q. 2010. Insecticide resistance status of Colorado potato beetle (Coleoptera: Chrysomelidae) adults in northern Xinjiang Uygur Autonomous Region. Journal of Economic Entomology, 103, 1365–1371.
Lehmann P, Lyytinen A, Piiroinen S, Lindström L. 2014. Northward range expansion requires synchronization of both overwintering behavior and physiology with photoperiod in the invasive Colorado potato beetle (Leptinotarsa decemlineata). Oecologia, 176, 57–68.
Liang L, Fei S. 2014. Divergence of the potential invasion range of emerald ash borer and its host distribution in North America under climate change. Climatic Change, 122, 735–746.
Liu H J, Wu J J, Hu X N, Gu Y J. 2011. Exotic pest monitoring in California, USA. Plant Quarantine, 25, 63–67. (in Chinese)
Liu K. 2010. Monitoring colorado potato beetles in Heilongjiang Province. Chinese Potato Journal, 24, 109–111. (in Chinese)
Liu N, Li Y, Zhang R. 2012. Invasion of Colorado potato beetle, Leptinotarsa decemlineata, in China: dispersal, occurrence, and economic impact. Entomologia Experimentalist Applicate, 143, 207–217.
Ma Z, Jiang C Y, Qin M, Liu H, Feng X D, Zhang R Z. 2018. Distribution and spread of national quarantine insects of agricultural plants in China. Chinese Journal of Applied Entomology, 55, 1–11. (in Chinese)
NATESC (National Agricultural Technology Extension Service Center). 2018. Effective prevention and control of potato beetle in Heilongjiang Province. [2018-08-21]. https://www.natesc.org.cn/Html/2018_08_21/2_29228_2018_08_21_455288.html (in Chinese)
Nault B A, Kennedy G G. 2000. Seasonal changes in habitat preference by Coleomegilla maculata: implications for Colorado potato beetle management in potato. Biological Control, 17, 164–173.
Palli S R. 2014. RNA interference in Colorado potato beetle: Steps toward development of dsRNA as a commercial insecticide. Current Opinion in Insect Science, 6, 1–8.
Pan X, Luo Z, Liu Y. 2016. Environmental deterioration of farmlands caused by the abuse of agricultural technologies. Frontiers of Environmental Science & Engineering, 10, 18.
Perlak F J, Stone T B, Muskopf Y M, Petersen L J, Parker G B, McPherson S A, Wyman J, Love S, Reed G, Biever D. 1993. Genetically improved potatoes: Protection from damage by Colorado potato beetles. Plant Molecular Biology, 2, 313–321.
Popova E N. 2014. The influence of climatic changes on range expansion and phenology of the Colorado potato beetle (Leptinotarsa decemlineata, Coleoptera, Chrysomelidae) in the territory of Russia. Entomological Review, 94, 643–653.
Qian T R, Qu N Z, Chen H, Zhou Y S. 1995. Preliminary prediction of suitable habitats for potato beetles in China and its surrounding areas. Plant Quarantine, 9, 95–97. (in Chinese)
Rafoss T, Sethre M G. 2003. Spatial and temporal distribution of bioclimatic potential for the Codling moth and the Colorado potato beetle in Norway: Model predictions versus climate and field data from the 1990s. Agricultural and Forest Entomology, 5, 75–86.
Roura-PaSRual N, Suarez A V, Gomez C, Pons P, Touyama Y, Wild A L, Peterson A T. 2004. Geographical potential of Argentine ants (Linepithema humile Mayr) in the face of global climate change. Proceedings of the Royal Society (B: Biological Sciences), 271, 2527–2535.
Shao S. 2015. Suitability analysis of Leptinotarse decemlineata (Say) combing the climate and its host plants. MSc thesis, China Agricultural University, China. (in Chinese)
Tang Y. 2017. Control technology of potato beetle in Mori County. Rural Science & Technology, 8, 33–34. (in Chinese)
Tower W L. 1906. An Investigation of Evolution in Chrysomelid Beetles of the Genus Leptinotarsa. Carnegie Institution of Washington, Washington, D.C, USA.
Wang C, Hawthorne D, Qin Y J, Pan X B, Li Z H, Zhu S F. 2017. Impact of climate and host availability on future distribution of Colorado potato beetle. Scientific Reports, 7, 4489.
Wang C, Zhang X, Pan X, Li Z, Zhu S. 2015a. Greenhouses: Hotspots in the invasive network for alien species. Biodiversity and Conservation, 7, 1825–1829.
Wang C, Zhang Y, Shao S, Zhang X, Zhang W, Li Z, Pan X. 2015b. National border biosecurity system. Plant Quarantine, 29, 12–18. (in Chinese)
Wang D M, Chen L, Zheng C, Zhang Y C, Luo G P, Xu W J. 2014. Thinking on the monitoring system optimization of Leptinotarsa decemlineata in the Sino-Russian border area. Plant Quarantine, 28, 73–76. (in Chinese)
Weber D C. 2003. Colorado beetle: Pest on the move. Pesticide Outlook, 14, 256–259.
Wójtowicz A, Wójtowicz M, Sigvald R. 2013. Forecasting the influence of temperature increase on the development of the Colorado potato beetle [Leptinotarsa decemlineata (Say)] in the Wielkopolska region of Poland. Acta Agriculturae Scandinavica (Section B: Soil & Plant Science), 63, 136–146.
Zhao X M, Qin H L. 2016. Situation of monitoring and control for Colorado potato beetles and its countermeasures in Heilongjiang. Plant Quarantine, 30, 82–84. (in Chinese)
Zhao Z H, Wei J, Zhang K Y, Li H, Wei S H, Pan X B, Huang W G, Zhu M M, Zhang R. 2018. Asymmetric response of different functional insect groups to low-grazing pressure in Eurasian steppe in Ningxia. Ecology and Evolution, 8, 11609–11618.
Zhang J J, Yang J, Li C Y, Liu N, Zhang R Z. 2013. Genetic relationships of introduced Colorado potato beetle Leptinotarsa decemlineata populations in Xinjiang, China. Insect Science, 20, 643–654.
Zhang R, Jiao X D, Zu Y Z, Jia J W, Zhang Q F. 2012. Current situation and suggestions of potato beetle epidemic surveillance in Heilongjiang Province. Plant Quarantine, 30, 82–84. (in Chinese)
Zhang R Z. 1996. Occurrence of Colorado potato beetle [Leptinotarsa decemlineata (Say)] and its control. Ph D thesis, Institute of Zoology, Chinese Academy of Sciences, China. (in Chinese)
Zhang S, Fan G Q, Gao Y L, Zhang W, Qiu C L, Shen Y, Wei Q, Liu K, Lv D Q. 2018. Co-evolution of Colorado potato beetles with host plants and their controls. Chinese Potato Journal, 32, 367–373. (in Chinese)
Zhu F, Xu J, Palli R, Ferguson J, Palli S R. 2011. Ingested RNA interference for managing the populations of the Colorado potato beetle, Leptinotarsa decemlineata. Pest Management Science, 67, 175–182. |
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