Behavioural and physiological responses to thermal stress in a social spider

Kirsten Gade Malmos, Andreas Husted Lüdeking, Thomas Vosegaard, Anne Aagaard, Jesper Bechsgaard, Jesper Givskov Sørensen, Trine Bilde*

*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review

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Temperature is one of the primary environmental drivers of the distribution of species, and particularly high temperatures challenge physiological processes by disruption of cellular homoeostasis. This exerts selection on organisms to maintain cellular homoeostasis by adaptive physiological and/or behavioural responses. The social spider Stegodyphus dumicola occurs across several climate zones in Southern Africa, and populations experience high and variable temperatures, suggesting a wide temperature niche, or alternatively that populations respond with plastic or locally adapted responses to temperature. Using a common garden design, we investigated complementary adaptive heat responses (behavioural thermoregulation and cuticle wax composition) in individuals from warmer and cooler locations. The spiders exhibited higher temperature tolerance than most ectotherms (CTmax almost 49℃), with the individuals from warmer locations showing the highest tolerance. Analyses of cuticle wax revealed chemical compositions consistent with a higher melting temperature (e.g. increased chain length and lower occurrence of branching) and therefore improved waterproofing in spiders originating from warmer locations and acclimated at a higher temperature, as expected if local temperature drives changes in the cuticle composition to improve waterproofing. The spiders exhibited a clear behavioural escape response from increasing temperature, with individuals from warmer locations and kept at higher acclimation temperature showing a lower threshold temperature at which this behaviour was triggered, suggesting that this threshold is under natural selection. Our study provides evidence of both local adaptation and phenotypic plasticity in physiological and behavioural traits relating to temperature tolerance. Population differences in trait expression suggest local adaptation to different thermal environments, and individuals plastically adjust cuticle wax composition and cooling behaviour in response to temperature changes. The Bogert effect predicts that behavioural thermoregulation may relax selection for physiological adaptations. Our study instead suggests that synergistic effects of both physiological and behavioural adaptive traits shape the thermal biology of species. Local adaptation allows existence across different climate zones. Additionally, plasticity in behavioural and physiological traits enables rapid responses to short-term temperature fluctuations within a thermal niche. We show that adaptive and plastic responses act in concert to shape the thermal biology and distribution of species. A free Plain Language Summary can be found within the Supporting Information of this article.

TidsskriftFunctional Ecology
Sider (fra-til)2728-2742
Antal sider15
StatusUdgivet - dec. 2021


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