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Marginal Reefs Under Stress: Physiological Limits Render Galápagos Corals Susceptible to Ocean Acidification and Thermal Stress

D. M. Thompson, Malcolm T. McCulloch, Julia E. Cole, Emma V. Reed, Juan Pablo D’Olivo, Kelsey A. Dyez, Marcus Löfverström, Janice Lough, Neal E. Cantin, Alexander W. Tudhope, Anson H. Cheung, Lael Vetter, R. Lawrence Edwards

2022AGU Advances13 citationsDOIOpen Access PDF

Abstract

Abstract Ocean acidification (OA) and thermal stress may undermine corals' ability to calcify and support diverse reef communities, particularly in marginal environments. Coral calcification depends on aragonite supersaturation (Ω » 1) of the calcifying fluid (cf) from which the skeleton precipitates. Corals actively upregulate pH cf relative to seawater to buffer against changes in temperature and dissolved inorganic carbon, which together control Ω cf . Here we assess the buffering capacity of modern and fossil corals from the Galápagos Islands that have been exposed to sub‐optimal conditions, extreme thermal stress, and OA. We demonstrate a significant decline in pH cf and Ω cf since the pre‐industrial era, trends which are exacerbated during extreme warm years. These results suggest that there are likely physiological limits to corals' pH buffering capacity, and that these constraints render marginal reefs particularly susceptible to OA.

Topics & Concepts

Ocean acidificationAragoniteReefOceanographyCoral reefCoralSeawaterCalcificationSupersaturationTotal inorganic carbonMesocosmEcologyCarbon dioxideEnvironmental scienceBiologyGeologyChemistryNutrientCalciteMineralogyOrganic chemistryPathologyMedicineCoral and Marine Ecosystems StudiesOcean Acidification Effects and ResponsesMarine and fisheries research
Marginal Reefs Under Stress: Physiological Limits Render Galápagos Corals Susceptible to Ocean Acidification and Thermal Stress | Litcius