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Competition and resource depletion shape the thermal response of population fitness in Aedes aegypti

Paul J. Huxley, Kris A. Murray, Samraat Pawar, Lauren J. Cator

2022Communications Biology54 citationsDOIOpen Access PDF

Abstract

Mathematical models that incorporate the temperature dependence of lab-measured life history traits are increasingly being used to predict how climatic warming will affect ectotherms, including disease vectors and other arthropods. These temperature-trait relationships are typically measured under laboratory conditions that ignore how conspecific competition in depleting resource environments-a commonly occurring scenario in nature-regulates natural populations. Here, we used laboratory experiments on the mosquito Aedes aegypti, combined with a stage-structured population model, to investigate this issue. We find that intensified larval competition in ecologically-realistic depleting resource environments can significantly diminish the vector's maximal population-level fitness across the entire temperature range, cause a ~6 °C decrease in the optimal temperature for fitness, and contract its thermal niche width by ~10 °C. Our results provide evidence for the importance of considering intra-specific competition under depleting resources when predicting how arthropod populations will respond to climatic warming.

Topics & Concepts

Aedes aegyptiCompetition (biology)Resource (disambiguation)PopulationBiologyEcologyComputer scienceDemographyLarvaSociologyComputer networkMosquito-borne diseases and controlSpecies Distribution and Climate ChangeEvolution and Genetic Dynamics
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