Behaviour is more important than thermal performance for an Arctic host–parasite system under climate change

Climate change is affecting Arctic ecosystems, including parasites. Predicting outcomes for host–parasite systems is challenging due to the complexity of multi-species interactions and the numerous, interacting pathways by which climate change can alter dynamics. Increasing temperatures may lead to...

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Bibliographic Details
Published in:Royal Society Open Science
Main Authors: Peacock, Stephanie J., Kutz, Susan J., Hoar, Bryanne M., Molnár, Péter K.
Format: Text
Language:English
Published: The Royal Society 2022
Subjects:
Ecology
Conservation and Global Change Biology
Arctic
Climate change
Rangifer tarandus
Online Access:http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9399711/
https://doi.org/10.1098/rsos.220060
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Summary:Climate change is affecting Arctic ecosystems, including parasites. Predicting outcomes for host–parasite systems is challenging due to the complexity of multi-species interactions and the numerous, interacting pathways by which climate change can alter dynamics. Increasing temperatures may lead to faster development of free-living parasite stages but also higher mortality. Interactions between behavioural plasticity of hosts and parasites will also influence transmission processes. We combined laboratory experiments and population modelling to understand the impacts of changing temperatures on barren-ground caribou (Rangifer tarandus) and their common helminth (Ostertagia gruehneri). We experimentally determined the thermal performance curves for mortality and development of free-living parasite stages and applied them in a spatial host–parasite model that also included behaviour of the parasite (propensity for arrested development in the host) and host (long-distance migration). Sensitivity analyses showed that thermal responses had less of an impact on simulated parasite burdens than expected, and the effect differed depending on parasite behaviour. The propensity for arrested development and host migration led to distinct spatio-temporal patterns in infection. These results emphasize the importance of considering behaviour—and behavioural plasticity—when projecting climate-change impacts on host–parasite systems.

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