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Resilience against the impacts of climate change in an ecologically and economically significant native oyster

Laura M. Parker, Elliot Scanes, Wayne A. O’Connor, Michael Dove, Abigail Elizur, Hans‐Otto Pörtner, Pauline M. Ross

2023Marine Pollution Bulletin11 citationsDOIOpen Access PDF

Abstract

Climate change is acidifying and warming our oceans, at an unprecedented rate posing a challenge for marine invertebrates vital across the globe for ecological services and food security. Here we show it is possible for resilience to climate change in an ecologically and economically significant oyster without detrimental effects to the energy budget. We exposed 24 pair-mated genetically distinct families of the Sydney rock oyster, Saccostrea glomerata to ocean acidification and warming for 4w and measured their resilience. Resilience was identified as the capacity to defend their acid-base balance without a loss of energy available for Scope for Growth (SFG). Of the 24 families, 13 were better able to defend their acid-base balance while eight had no loss of energy availability with a positive SFG. This study has found oyster families with reslience against climate change without a loss of SFG, is an essential mitigation strategy, in a critical mollusc.

Topics & Concepts

Ocean acidificationClimate changeOysterEnvironmental scienceResilience (materials science)EcosystemEffects of global warming on oceansPsychological resilienceEcologyGlobal warmingFisheryNatural resource economicsBiologyEconomicsPsychotherapistThermodynamicsPsychologyPhysicsOcean Acidification Effects and ResponsesMarine Bivalve and Aquaculture Studies
Resilience against the impacts of climate change in an ecologically and economically significant native oyster | Litcius