Multigenerational Experimental Simulation of Climate Change on an Economically Important Insect Pest

Overview

Journal Ecol Evol

Date 2020 Dec 11

PMID 33304502

Citations 2

Authors

David Schneider

Alejandra G Ramos

Alex Cordoba-Aguilar

Affiliations

Soon will be listed here.

Abstract

Long-term multigenerational experimental simulations of climate change on insect pests of economically and socially important crops are crucial to anticipate challenges for feeding humanity in the not-so-far future. Mexican bean weevil , is a worldwide pest that attacks the common bean seeds, in crops and storage. We designed a long term (i.e., over 10 generations), experimental simulation of climate change by increasing temperature and CO air concentration in controlled conditions according to model predictions for 2100. Higher temperature and CO concentrations favored pest's egg-to-adult development survival, even at high female fecundity. It also induced a reduction of fat storage and increase of protein content but did not alter body size. After 10 generations of simulation, genetic adaptation was detected for total lipid content only, however, other traits showed signs of such process. Future experimental designs and methods similar to ours, are key for studying long-term effects of climate change through multigenerational experimental designs.

Citing Articles

Cross-protection interactions in insect pests: Implications for pest management in a changing climate.

Bueno E, McIlhenny C, Chen Y Pest Manag Sci. 2022; 79(1):9-20.

PMID: 36127854 PMC: 10092685. DOI: 10.1002/ps.7191.

Multigenerational experimental simulation of climate change on an economically important insect pest.

Schneider D, Ramos A, Cordoba-Aguilar A Ecol Evol. 2020; 10(23):12893-12909.

PMID: 33304502 PMC: 7713942. DOI: 10.1002/ece3.6847.

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