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Oxygen availability and body mass modulate ectotherm responses to ocean warming

Murray I. Duncan, Fiorenza Micheli, Thomas H. Boag, J. Andres Marquez, Hailey Deres, Curtis Deutsch, Erik A. Sperling

2023Nature Communications16 citationsDOIOpen Access PDF

Abstract

Abstract In an ocean that is rapidly warming and losing oxygen, accurate forecasting of species’ responses must consider how this environmental change affects fundamental aspects of their physiology. Here, we develop an absolute metabolic index (Φ A ) that quantifies how ocean temperature, dissolved oxygen and organismal mass interact to constrain the total oxygen budget an organism can use to fuel sustainable levels of aerobic metabolism. We calibrate species-specific parameters of Φ A with physiological measurements for red abalone ( Haliotis rufescens ) and purple urchin ( Strongylocentrotus purpuratus ). Φ A models highlight that the temperature where oxygen supply is greatest shifts cooler when water loses oxygen or organisms grow larger, providing a mechanistic explanation for observed thermal preference patterns. Viable habitat forecasts are disproportionally deleterious for red abalone, revealing how species-specific physiologies modulate the intensity of a common climate signal, captured in the newly developed Φ A framework.

Topics & Concepts

EctothermEffects of global warming on oceansOrganismEcologyGlobal warmingBiologyClimate changeOxygenHabitatHypoxia (environmental)Environmental scienceChemistryOrganic chemistryPaleontologyPhysiological and biochemical adaptationsOcean Acidification Effects and ResponsesMarine Bivalve and Aquaculture Studies
Oxygen availability and body mass modulate ectotherm responses to ocean warming | Litcius