Holocene oscillations in temperature and salinity of the surface subpolar North Atlantic

The Atlantic meridional overturning circulation (AMOC) transports warm salty surface waters to high latitudes, where they cool, sink and return southwards at depth. Through its attendant meridional heat transport, the AMOC helps maintain a warm northwestern European climate, and acts as a control on...

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Main Authors: Thornalley, DJR, Elderfield, H, McCave, IN
Format: Article in Journal/Newspaper
Language:English
Published: 2009
Subjects:
Arctic
Climate change
North Atlantic
Online Access:https://discovery.ucl.ac.uk/id/eprint/1396380/1/Thornalley_Holocene%20Oscillations%20in%20the%20Temperature%20and%20Salinity%20of.pdf
https://discovery.ucl.ac.uk/id/eprint/1396380/
id ftucl:oai:eprints.ucl.ac.uk.OAI2:1396380
record_format openpolar
spelling ftucl:oai:eprints.ucl.ac.uk.OAI2:1396380 2023-12-24T10:14:26+01:00 Holocene oscillations in temperature and salinity of the surface subpolar North Atlantic Thornalley, DJR Elderfield, H McCave, IN 2009-02-05 text https://discovery.ucl.ac.uk/id/eprint/1396380/1/Thornalley_Holocene%20Oscillations%20in%20the%20Temperature%20and%20Salinity%20of.pdf https://discovery.ucl.ac.uk/id/eprint/1396380/ eng eng https://discovery.ucl.ac.uk/id/eprint/1396380/1/Thornalley_Holocene%20Oscillations%20in%20the%20Temperature%20and%20Salinity%20of.pdf https://discovery.ucl.ac.uk/id/eprint/1396380/ open Nature , 457 (7230) 711 - 714. (2009) Article 2009 ftucl 2023-11-27T13:07:38Z The Atlantic meridional overturning circulation (AMOC) transports warm salty surface waters to high latitudes, where they cool, sink and return southwards at depth. Through its attendant meridional heat transport, the AMOC helps maintain a warm northwestern European climate, and acts as a control on the global climate. Past climate fluctuations during the Holocene epoch (~11,700 years ago to the present) have been linked with changes in North Atlantic Ocean circulation. The behaviour of the surface flowing salty water that helped drive overturning during past climatic changes is, however, not well known. Here we investigate the temperature and salinity changes of a substantial surface inflow to a region of deep-water formation throughout the Holocene. We find that the inflow has undergone millennial-scale variations in temperature and salinity (~3.5 °C and ~1.5 practical salinity units, respectively) most probably controlled by subpolar gyre dynamics. The temperature and salinity variations correlate with previously reported periods of rapid climate change. The inflow becomes more saline during enhanced freshwater flux to the subpolar North Atlantic. Model studies predict a weakening of AMOC in response to enhanced Arctic freshwater fluxes, although the inflow can compensate on decadal timescales by becoming more saline. Our data suggest that such a negative feedback mechanism may have operated during past intervals of climate change. Article in Journal/Newspaper Arctic Climate change North Atlantic University College London: UCL Discovery Arctic
institution Open Polar
collection University College London: UCL Discovery
op_collection_id ftucl
language English
description The Atlantic meridional overturning circulation (AMOC) transports warm salty surface waters to high latitudes, where they cool, sink and return southwards at depth. Through its attendant meridional heat transport, the AMOC helps maintain a warm northwestern European climate, and acts as a control on the global climate. Past climate fluctuations during the Holocene epoch (~11,700 years ago to the present) have been linked with changes in North Atlantic Ocean circulation. The behaviour of the surface flowing salty water that helped drive overturning during past climatic changes is, however, not well known. Here we investigate the temperature and salinity changes of a substantial surface inflow to a region of deep-water formation throughout the Holocene. We find that the inflow has undergone millennial-scale variations in temperature and salinity (~3.5 °C and ~1.5 practical salinity units, respectively) most probably controlled by subpolar gyre dynamics. The temperature and salinity variations correlate with previously reported periods of rapid climate change. The inflow becomes more saline during enhanced freshwater flux to the subpolar North Atlantic. Model studies predict a weakening of AMOC in response to enhanced Arctic freshwater fluxes, although the inflow can compensate on decadal timescales by becoming more saline. Our data suggest that such a negative feedback mechanism may have operated during past intervals of climate change.
format Article in Journal/Newspaper
author Thornalley, DJR
Elderfield, H
McCave, IN
spellingShingle Thornalley, DJR
Elderfield, H
McCave, IN
Holocene oscillations in temperature and salinity of the surface subpolar North Atlantic
author_facet Thornalley, DJR
Elderfield, H
McCave, IN
author_sort Thornalley, DJR
title Holocene oscillations in temperature and salinity of the surface subpolar North Atlantic
title_short Holocene oscillations in temperature and salinity of the surface subpolar North Atlantic
title_full Holocene oscillations in temperature and salinity of the surface subpolar North Atlantic
title_fullStr Holocene oscillations in temperature and salinity of the surface subpolar North Atlantic
title_full_unstemmed Holocene oscillations in temperature and salinity of the surface subpolar North Atlantic
title_sort holocene oscillations in temperature and salinity of the surface subpolar north atlantic
publishDate 2009
url https://discovery.ucl.ac.uk/id/eprint/1396380/1/Thornalley_Holocene%20Oscillations%20in%20the%20Temperature%20and%20Salinity%20of.pdf
https://discovery.ucl.ac.uk/id/eprint/1396380/
geographic Arctic
geographic_facet Arctic
genre Arctic
Climate change
North Atlantic
genre_facet Arctic
Climate change
North Atlantic
op_source Nature , 457 (7230) 711 - 714. (2009)
op_relation https://discovery.ucl.ac.uk/id/eprint/1396380/1/Thornalley_Holocene%20Oscillations%20in%20the%20Temperature%20and%20Salinity%20of.pdf
https://discovery.ucl.ac.uk/id/eprint/1396380/
op_rights open
_version_ 1786193966968864768

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