Litcius/Paper detail

Dissimilar Sensitivities of Ocean Acidification Metrics to Anthropogenic Carbon Accumulation in the Central North Pacific Ocean and California Current Large Marine Ecosystem

Mar C. Arroyo, Andrea J. Fassbender, Brendan R. Carter, Christopher A. Edwards, Jérôme Fiechter, Addie Norgaard, Richard A. Feely

2022Geophysical Research Letters23 citationsDOIOpen Access PDF

Abstract

Abstract We analyze and compare changes in ocean acidification metrics caused by anthropogenic carbon (C anth ) accumulation in the North Pacific Ocean and California Current Large Marine Ecosystem (CCLME). The greatest declines in pH and carbonate mineral saturation state occur near the surface, coincident with the highest C anth concentrations. However, maximal increases in the partial pressure of carbon dioxide ( p CO 2 ) and hydrogen ion concentration occur subsurface where C anth values are lower. We attribute dissimilar sensitivities of these metrics to background ocean chemistry, which has naturally high p CO 2 and low buffering capacity in subsurface waters due to accumulated byproducts of organic matter respiration, which interacts with C anth . In the CCLME, rising subsurface p CO 2 has increased the frequency, duration, and intensity of hypercapnia ( p CO 2 ≥ 1,000 μatm) on the continental shelf. Our findings suggest that hypercapnia induced by C anth accumulation can co‐occur with hypoxia in the CCLME and is an additional modern stressor for marine organisms.

Topics & Concepts

Ocean acidificationOceanographyEcosystemEnvironmental scienceCarbon dioxideHypoxia (environmental)CarbonateMarine ecosystemOrganic matterContinental shelfCarbon sequestrationTotal organic carbonSeawaterEnvironmental chemistryGeologyEcologyChemistryBiologyOxygenOrganic chemistryOcean Acidification Effects and ResponsesMarine Biology and Ecology ResearchMarine and coastal ecosystems
Dissimilar Sensitivities of Ocean Acidification Metrics to Anthropogenic Carbon Accumulation in the Central North Pacific Ocean and California Current Large Marine Ecosystem | Litcius