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Article

Increasing ecological heterogeneity can constrain biopesticide resistance evolution

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Citation

Mangan R, Bussière LF, Polanczyk RA & Tinsley MC (2023) Increasing ecological heterogeneity can constrain biopesticide resistance evolution. Trends in Ecology & Evolution. https://doi.org/10.1016/j.tree.2023.01.012

Abstract
Microbial biopesticides containing living parasites are valuable emerging crop protection technologies against insect pests, but they are vulnerable to resistance evolution. Fortunately, the fitness of alleles that provide resistance, including to parasites used in biopesticides, frequently depends on parasite identity and environmental conditions. This context-specificity suggests a sustainable approach to biopesticide resistance management through landscape diversification. To mitigate resistance risks, we advocate increasing the range of biopesticides available to farmers, whilst simultaneously encouraging other aspects of landscape-wide crop heterogeneity that can generate variable selection on resistance alleles. This approach requires agricultural stakeholders to prioritize diversity as well as efficiency, both within agricultural landscapes and the biocontrol marketplace.

Keywords
sustainable agriculture; agroecology; crop protection; integrated pest management; landscape diversity; genotype-by-environment interactions

Notes
Output Type: Opinion Output Status: Forthcoming/Available Online

Journal
Trends in Ecology & Evolution

StatusEarly Online
Funders and
Publication date online09/03/2023
Date accepted by journal23/01/2023
URL
PublisherElsevier BV
ISSN0169-5347
eISSN1872-8383

People (1)

Professor Matthew Tinsley

Professor Matthew Tinsley

Professor, Biological and Environmental Sciences

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