Assessing the risk of the evolution of resistance to pesticides using spatially complex simulation models.
Publication: Global pesticide resistance in arthropods
pp. 90-117
Abstract
This chapter discusses the principal features governing the evolution of pesticide resistance, including mutation, gene flow, initial gene frequency, fitness, genetic drift in arthropod resistance and selection intensity, while discussing spatially complex models and their role in pest management practices.
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Information & Authors
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Published In
Pages: 90 - 117
Editors: M. E. Whalon, Department of Entomology and Plant PathologyMississippi State UniversityMississippi StateMS 39762USA, D. Mota-Sanchez, and R. M. Hollingworth
ISBN (ePDF): 978-1-84593-379-1
ISBN (Hardback): 978-1-84593-353-1
History
Cover date: 2008
Published online: 28 April 2008
Language
English
Authors
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Citing Literature
- David W. Onstad, Michael A. Caprio, Zaiqi Pan, Models of Diabrotica Populations: Demography, Population Genetics, Geographic Spread, and Management, Insects, 10.3390/insects11100712, 11, 10, (712), (2020).
- Mark S. Sisterson, Drake C. Stenger, Roguing with Replacement in Perennial Crops: Conditions for Successful Disease Management, Phytopathology®, 10.1094/PHYTO-05-12-0101-R, 103, 2, (117-128), (2013).
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