Deep ocean 14C ventilation age reconstructions from the Arctic Mediterranean reassessed
Permanent lenke
https://hdl.handle.net/10037/15814Dato
2019-05-13Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
The present-day ocean ventilation in the Arctic Mediterranean (Nordic Seas and Arctic Ocean), via
transformation of northward inflowing warm Atlantic surface water into cold deep water, affects regional
climate, atmospheric circulation and carbon storage in the deep ocean. Here we study the glacial
evolution of the Arctic Mediterranean circulation and its influence on glacial climate using radiocarbon
reservoir-age reconstructions on deep-sea cores from the Fram Strait that cover the late glacial period
(33,000–20,000 yr ago; 33–20 ka). Our results show high Benthic-Planktic 14C age differences of ∼1500 14C years 33–26.5 ka suggesting significant water column stratification between ∼100–2600 m water
depth, and reduction and/or shoaling of deep-water formation. This phase was followed by breakup of the stratification during the Last Glacial Maximum (LGM; 26–20 ka), with Benthic-Planktic 14C
age differences of ∼250 14C years, likely due to enhanced upwelling. These ocean circulation changes
potentially contributed to the final intensification phase of glaciation via positive cryosphere-atmosphereocean circulation-carbon cycle feedbacks. Our data also do not support ‘extreme aging’ of >6000 14C
years in the deep Arctic Mediterranean, and appear to rule out the proposed outflow of very old Arctic
Ocean water to the Nordic Seas during the LGM and to the subpolar North Atlantic Ocean during the
deglacial period.