Shao, Jun , Stott, Lowell D., Menviel, Laurie , Ridgwell, Andy, Ödalen, Malin and Mohtadi, Mayhar (2021) The atmospheric bridge communicated the δ13C decline during the last deglaciation to the global upper ocean. Climate of the Past, 17 (4). pp. 1507-1521. DOI 10.5194/cp-17-1507-2021.

Preview	Text cp-17-1507-2021.pdf - Published Version Available under License Creative Commons: Attribution 4.0. Download (7MB) | Preview
Preview	Text cp-17-1507-2021-supplement.pdf - Supplemental Material Available under License Creative Commons: Attribution 4.0. Download (2MB) | Preview

Abstract

During the early part of the last glacial termination (17.2-15 ka) and coincident with a ∼ 35 ppm rise in atmospheric CO2, a sharp 0.3‰-0.4‰ decline in atmospheric δ13CO2 occurred, potentially constraining the key processes that account for the early deglacial CO2 rise. A comparable δ13C decline has also been documented in numerous marine proxy records from surface and thermocline-dwelling planktic foraminifera. The δ13C decline recorded in planktic foraminifera has previously been attributed to the release of respired carbon from the deep ocean that was subsequently transported within the upper ocean to sites where the signal was recorded (and then ultimately transferred to the atmosphere). Benthic δ13C records from the global upper ocean, including a new record presented here from the tropical Pacific, also document this distinct early deglacial δ13C decline. Here we present modeling evidence to show that rather than respired carbon from the deep ocean propagating directly to the upper ocean prior to reaching the atmosphere, the carbon would have first upwelled to the surface in the Southern Ocean where it would have entered the atmosphere. In this way the transmission of isotopically light carbon to the global upper ocean was analogous to the ongoing ocean invasion of fossil fuel CO2. The model results suggest that thermocline waters throughout the ocean and 500-2000m water depths were affected by this atmospheric bridge during the early deglaciation.

Actions (login required)

View Item