Journal article
Freshening, stratification and deep-water formation in the Nordic Seas during marine isotope stage 11
Quaternary Science Reviews, Vol.272, 107231
15/11/2021
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Abstract
The Atlantic meridional overturning circulation (AMOC) is a critical element of Earth's climate system and it is currently weakening. While this weakening is frequently explained by freshwater-driven disruptions to deep-water formation, uncertainties about the impacts of prolonged freshening limit our capacity to predict its future state. For example, during the warm and unusually long marine isotope stage (MIS) 11 interglacial, ∼424 to 374 ka, several lines of evidence suggest that a strong AMOC persisted concomitant with fresher-than-present conditions in the Nordic Seas, challenging our current understanding of deep-water formation. Here, we present new foraminifer-bound nitrogen isotope data along with multiple additional geochemical reconstructions of upper-ocean hydrography in the Nordic Seas during this anomalous interval. Our data suggest that a weak summer stratification was driven by the prolonged upper-ocean accumulation of freshwater beginning at the onset of the climatic optimum, ∼410 to 407 ka, which could have helped precondition the region for deep-water formation. A box model constrained by paleo-proxy data additionally suggests that the density gradient between the subpolar North Atlantic and Nordic Seas was favorable for the onset of deep-water formation in the Nordic Seas during the climatic optimum. It is thus likely that the Nordic Seas became a locus of deep-water formation around this time. Enhanced northern-hemisphere heating driven by deep-water formation in the Nordic Seas may have been important for delaying glacial conditions, thereby driving the extended warming characteristic of MIS 11. Such findings may also be relevant for near-future changes under a relatively fresher high-latitude North Atlantic.
Details
- Title
- Freshening, stratification and deep-water formation in the Nordic Seas during marine isotope stage 11
- Creators
- John M Doherty - University of Hong KongYuet F Ling - University of Hong KongChristelle Not - University of Hong KongDirk Erler - Southern Cross UniversityHenning A Bauch - GEOMAR Helmholtz Centre for Ocean Research KielAdina Paytan - University of California, Santa CruzBenoit Thibodeau - The Chinese University of Hong Kong
- Publication Details
- Quaternary Science Reviews, Vol.272, 107231
- Publisher
- Elsevier Ltd
- Grant note
- This project was funded through the General Research Fund from the Research Grant Council of Hong Kong (#17301818) awarded to BT, HAB and AP, the Dr. Stephen S.F. Hui Trust Fund awarded to BT and both the Summer Research and Undergraduate Research Fellowship from the Faculty of Science of HKU awarded to YFL.
- Identifiers
- 991012978058502368
- Copyright
- © 2021 Elsevier Ltd. All rights reserved.
- Academic Unit
- Faculty of Science and Engineering; School of Environment, Science and Engineering; Centre for Coastal Biogeochemistry; Science
- Language
- English
- Resource Type
- Journal article