Climate change and the genetics of insecticide resistance

Jian Pu; Zinan Wang; Henry Chung

doi:10.1002/ps.5700

Climate change and the genetics of insecticide resistance

Jian Pu, Zinan Wang, Henry Chung

Entomology

Research output: Contribution to journal › Review article › peer-review

76 Scopus citations

Abstract

Changes in global temperature and humidity as a result of climate change are producing rapid evolutionary changes in many animal species, including agricultural pests and disease vectors, leading to changes in allele frequencies of genes involved in thermotolerance and desiccation resistance. As some of these genes have pleiotropic effects on insecticide resistance, climate change is likely to affect insecticide resistance in the field. In this review, we discuss how the interactions between adaptation to climate change and resistance to insecticides can affect insecticide resistance in the field using examples in phytophagous and hematophagous pest insects, focusing on the effects of increased temperature and increased aridity. We then use detailed genetic and mechanistic studies in the model insect, Drosophila melanogaster, to explain the mechanisms underlying this phenomenon. We suggest that tradeoffs or facilitation between adaptation to climate change and resistance to insecticides can alter insecticide resistance allele frequencies in the field. The dynamics of these interactions will need to be considered when managing agricultural pests and disease vectors in a changing climate.

Original language	English
Pages (from-to)	846-852
Number of pages	7
Journal	Pest Management Science
Volume	76
Issue number	3
DOIs	https://doi.org/10.1002/ps.5700
State	Published - Mar 1 2020

Bibliographical note

Publisher Copyright:
© 2019 Society of Chemical Industry

Funding

The authors thank Prof. Jonathan Gressel for the invitation to write this review, Haosu Cong and Mei Luo for critical feedback, and six anonymous reviewers for their constructive reviews of this manuscript. This project was supported by the USDA National Institute of Food and Agriculture and Michigan AgBioResearch. The authors thank Prof. Jonathan Gressel for the invitation to write this review, Haosu Cong and Mei Luo for critical feedback, and six anonymous reviewers for their constructive reviews of this manuscript. This project was supported by the USDA National Institute of Food and Agriculture and Michigan AgBioResearch.

Funders	Funder number
Michigan State University AgBioResearch
USDA National Institute of Food and Agriculture and Michigan AgBioResearch
US Department of Agriculture National Institute of Food and Agriculture, Agriculture and Food Research Initiative

Keywords

climate change
desiccation
facilitations
insecticide resistance
resistance
thermotolerance
tradeoffs

ASJC Scopus subject areas

Agronomy and Crop Science
Insect Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/ps.5700

Cite this

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abstract = "Changes in global temperature and humidity as a result of climate change are producing rapid evolutionary changes in many animal species, including agricultural pests and disease vectors, leading to changes in allele frequencies of genes involved in thermotolerance and desiccation resistance. As some of these genes have pleiotropic effects on insecticide resistance, climate change is likely to affect insecticide resistance in the field. In this review, we discuss how the interactions between adaptation to climate change and resistance to insecticides can affect insecticide resistance in the field using examples in phytophagous and hematophagous pest insects, focusing on the effects of increased temperature and increased aridity. We then use detailed genetic and mechanistic studies in the model insect, Drosophila melanogaster, to explain the mechanisms underlying this phenomenon. We suggest that tradeoffs or facilitation between adaptation to climate change and resistance to insecticides can alter insecticide resistance allele frequencies in the field. The dynamics of these interactions will need to be considered when managing agricultural pests and disease vectors in a changing climate.",

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N2 - Changes in global temperature and humidity as a result of climate change are producing rapid evolutionary changes in many animal species, including agricultural pests and disease vectors, leading to changes in allele frequencies of genes involved in thermotolerance and desiccation resistance. As some of these genes have pleiotropic effects on insecticide resistance, climate change is likely to affect insecticide resistance in the field. In this review, we discuss how the interactions between adaptation to climate change and resistance to insecticides can affect insecticide resistance in the field using examples in phytophagous and hematophagous pest insects, focusing on the effects of increased temperature and increased aridity. We then use detailed genetic and mechanistic studies in the model insect, Drosophila melanogaster, to explain the mechanisms underlying this phenomenon. We suggest that tradeoffs or facilitation between adaptation to climate change and resistance to insecticides can alter insecticide resistance allele frequencies in the field. The dynamics of these interactions will need to be considered when managing agricultural pests and disease vectors in a changing climate.

AB - Changes in global temperature and humidity as a result of climate change are producing rapid evolutionary changes in many animal species, including agricultural pests and disease vectors, leading to changes in allele frequencies of genes involved in thermotolerance and desiccation resistance. As some of these genes have pleiotropic effects on insecticide resistance, climate change is likely to affect insecticide resistance in the field. In this review, we discuss how the interactions between adaptation to climate change and resistance to insecticides can affect insecticide resistance in the field using examples in phytophagous and hematophagous pest insects, focusing on the effects of increased temperature and increased aridity. We then use detailed genetic and mechanistic studies in the model insect, Drosophila melanogaster, to explain the mechanisms underlying this phenomenon. We suggest that tradeoffs or facilitation between adaptation to climate change and resistance to insecticides can alter insecticide resistance allele frequencies in the field. The dynamics of these interactions will need to be considered when managing agricultural pests and disease vectors in a changing climate.

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KW - desiccation

KW - facilitations

KW - insecticide resistance

KW - resistance

KW - thermotolerance

KW - tradeoffs

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Climate change and the genetics of insecticide resistance

Abstract

Bibliographical note

Funding

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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