Biological Responses to Ocean Acidification Are Changing the Global Ocean Carbon Cycle
Reese C. Barrett, Brendan R. Carter, Andrea J. Fassbender, Bronte Tilbrook, Ryan J. Woosley, Kumiko Azetsu‐Scott, Richard A. Feely, Catherine Goyet, Masao Ishii, Akihiko Murata, Fı́z F. Pérez
Abstract
Abstract Increased oceanic uptake of CO 2 due to rising anthropogenic emissions has caused lowered pH levels (ocean acidification) that are hypothesized to diminish biotic calcification and reduce the export of total alkalinity ( A T ) as carbonate minerals from the surface ocean or their burial in coastal sediments. This “CO 2 ‐biotic calcification feedback” is a negative feedback on atmospheric CO 2 , as elevated levels of surface A T increase the ocean's capacity to uptake CO 2 . We detect signatures of this feedback in the global ocean for the first time using repeat hydrographic measurements and seawater property prediction algorithms. Over the course of the past 30 years, we find an increase in global surface A T of 0.072 ± 0.023 μmol kg −1 yr −1 , which would have caused approximately 20 Tmol of additional A T to accumulate in the surface ocean. This finding suggests that anthropogenic CO 2 emissions are measurably perturbing the cycling of carbon on a planetary scale by disrupting biological patterns. More observations of A T would be required to understand the effects of this feedback on a regional basis and to fully characterize its potential to reduce the efficiency of marine carbon dioxide removal technology.