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Life-history adaptation under climate warming magnifies the agricultural footprint of a cosmopolitan insect pest

Author

Listed:
  • Estelle Burc

    (Norbyvägen 18D
    Graduate school of agronomy)

  • Camille Girard-Tercieux

    (Norbyvägen 18D
    Toulouse INP-ENSAT
    UMR Silva)

  • Moa Metz

    (Norbyvägen 18D
    Norwegian University of Science and Technology)

  • Elise Cazaux

    (Norbyvägen 18D
    Toulouse INP-ENSAT)

  • Julian Baur

    (Norbyvägen 18D)

  • Mareike Koppik

    (Norbyvägen 18D
    Martin-Luther University Halle-Wittenberg)

  • Alexandre Rêgo

    (Norbyvägen 18D)

  • Alex F Hart

    (Norbyvägen 18D)

  • David Berger

    (Norbyvägen 18D)

Abstract

Climate change is affecting population growth rates of ectothermic pests with potentially dire consequences for agriculture and global food security. However, current projection models of pest impact typically overlook the potential for rapid genetic adaptation, making current forecasts uncertain. Here, we predict how climate change adaptation in life-history traits of insect pests affects their growth rates and impact on agricultural yields by unifying thermodynamics with classic theory on resource acquisition and allocation trade-offs between foraging, reproduction, and maintenance. Our model predicts that warming temperatures will favour resource allocation towards maintenance coupled with increased resource acquisition through larval foraging, and the evolution of this life-history strategy results in both increased population growth rates and per capita host consumption, causing a double-blow on agricultural yields. We find support for these predictions by studying thermal adaptation in life-history traits and gene expression in the wide-spread insect pest, Callosobruchus maculatus; with 5 years of evolution under experimental warming causing an almost two-fold increase in its predicted agricultural footprint. These results show that pest adaptation can offset current projections of agricultural impact and emphasize the need for integrating a mechanistic understanding of life-history evolution into forecasts of pest impact under climate change.

Suggested Citation

  • Estelle Burc & Camille Girard-Tercieux & Moa Metz & Elise Cazaux & Julian Baur & Mareike Koppik & Alexandre Rêgo & Alex F Hart & David Berger, 2025. "Life-history adaptation under climate warming magnifies the agricultural footprint of a cosmopolitan insect pest," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56177-2
    DOI: 10.1038/s41467-025-56177-2
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    References listed on IDEAS

    as
    1. Lisa Bjerregaard Jørgensen & Michael Ørsted & Hans Malte & Tobias Wang & Johannes Overgaard, 2022. "Extreme escalation of heat failure rates in ectotherms with global warming," Nature, Nature, vol. 611(7934), pages 93-98, November.
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