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Adaptation to simultaneous warming and acidification carries a thermal tolerance cost in a marine copepod

James A. deMayo, Amanda Girod, Matthew Sasaki, Hans G. Dam

2021Biology Letters16 citationsDOIOpen Access PDF

Abstract

The ocean is undergoing warming and acidification. Thermal tolerance is affected both by evolutionary adaptation and developmental plasticity. Yet, thermal tolerance in animals adapted to simultaneous warming and acidification is unknown. We experimentally evolved the ubiquitous copepod Acartia tonsa to future combined ocean warming and acidification conditions (OWA approx. 22°C, 2000 µatm CO 2 ) and then compared its thermal tolerance relative to ambient conditions (AM approx. 18°C, 400 µatm CO 2 ). The OWA and AM treatments were reciprocally transplanted after 65 generations to assess effects of developmental conditions on thermal tolerance and potential costs of adaptation. Treatments transplanted from OWA to AM conditions were assessed at the F1 and F9 generations following transplant. Adaptation to warming and acidification, paradoxically, reduces both thermal tolerance and phenotypic plasticity. These costs of adaptation to combined warming and acidification may limit future population resilience.

Topics & Concepts

Ocean acidificationAcartia tonsaBiologyCopepodAdaptation (eye)Global warmingPhenotypic plasticityEffects of global warming on oceansLocal adaptationEcologyAcclimatizationPopulationClimate changeCrustaceanNeuroscienceSociologyDemographyOcean Acidification Effects and ResponsesMarine Bivalve and Aquaculture StudiesPhysiological and biochemical adaptations
Adaptation to simultaneous warming and acidification carries a thermal tolerance cost in a marine copepod | Litcius