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Controls on the Boundary Between Thermally and Non‐Thermally Driven <i>p</i>CO<sub>2</sub> Regimes in the South Pacific

Channing J. Prend, Jess M. Hunt, Matthew R. Mazloff, Sarah T. Gille, Lynne D. Talley

2022Geophysical Research Letters18 citationsDOIOpen Access PDF

Abstract

Abstract Regional and temporal patterns of air–sea carbon exchange are strongly linked to the surface ocean partial pressure of carbon dioxide ( p CO 2 ), which varies with sea surface temperature (SST), salinity, dissolved inorganic carbon (DIC), and alkalinity. It is well‐known that temperature controls the p CO 2 seasonal cycle in the subtropics, whereas DIC dominates at high latitudes. The balance of mechanisms governing the boundary between these regimes, however, are not well characterized due to lack of year‐round p CO 2 data. Here, we use autonomous biogeochemical float measurements from the South Pacific to investigate the processes that control meridional variations in p CO 2 seasonality. We find that the transition between p CO 2 regimes is linked to the poleward decrease in SST seasonal cycle amplitude, which is closely associated with the northern boundary of deep winter mixed layers. Processes that determine the annual SST range are, therefore, central to the response of oceanic carbon uptake to anthropogenic forcing.

Topics & Concepts

Biogeochemical cycleClimatologyAlkalinityCarbon cycleSea surface temperatureEnvironmental scienceBoundary currentForcing (mathematics)Carbon dioxideLatitudeAtmospheric sciencesSubtropicsOceanographyZonal and meridionalGeologyOcean currentChemistryEcosystemEnvironmental chemistryGeodesyFisheryOrganic chemistryBiologyEcologyMarine and coastal ecosystemsOcean Acidification Effects and ResponsesOceanographic and Atmospheric Processes
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