Tracing water masses with 129I and 236U in the subpolar North Atlantic along the GEOTRACES GA01 section

Pathways and timescales of water mass transport in the subpolar North Atlantic Ocean (SPNA) have been investigated by many studies due to their importance for the meridional overturning circulation and thus for the global ocean. In this sense, observational data on geochemical tracers provide comple...

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Published in:Biogeosciences
Main Authors: Castrillejo, Maxi, Casacuberta, Núria, Christl, Marcus, Vockenhuber, Christof, Synal, Hans-Arno, García-Ibáñez, Maribel I., Lherminier, Pascale, Sarthou, Géraldine, Garcia-Orellana, Jordi, Masqué, Pere
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2018
Subjects:
article
Verlagsveröffentlichung
Arctic
Arctic Ocean
Greenland
Irminger Sea
Canadian Archipelago
Denmark Strait
East Greenland
east greenland current
Iceland
Labrador Sea
Nordic Seas
North Atlantic
Online Access:https://doi.org/10.5194/bg-15-5545-2018
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record_format openpolar
institution Open Polar
collection Niedersächsisches Online-Archiv NOA
op_collection_id ftnonlinearchiv
language English
topic article
Verlagsveröffentlichung
spellingShingle article
Verlagsveröffentlichung
Castrillejo, Maxi
Casacuberta, Núria
Christl, Marcus
Vockenhuber, Christof
Synal, Hans-Arno
García-Ibáñez, Maribel I.
Lherminier, Pascale
Sarthou, Géraldine
Garcia-Orellana, Jordi
Masqué, Pere
Tracing water masses with 129I and 236U in the subpolar North Atlantic along the GEOTRACES GA01 section
topic_facet article
Verlagsveröffentlichung
description Pathways and timescales of water mass transport in the subpolar North Atlantic Ocean (SPNA) have been investigated by many studies due to their importance for the meridional overturning circulation and thus for the global ocean. In this sense, observational data on geochemical tracers provide complementary information to improve the current understanding of the circulation in the SPNA. To this end, we present the first simultaneous distribution of artificial 129I and 236U in 14 depth profiles and in surface waters along the GEOVIDE section covering a zonal transect through the SPNA in spring 2014. Our results show that the two tracers are distributed following the water mass structure and that their presence is largely influenced by the global fallout (GF) and liquid effluents discharged to north-western European coastal waters by the Sellafield and La Hague nuclear reprocessing plants (NRPs). As a result, 129I concentrations and 236U∕238U atom ratios and 129I∕236U atom ratios display a wide range of values: (0.2–256) ×107 at kg−1 (40–2350) ×10-12 and 0.5–200, respectively. The signal from NRPs, which is characterised by higher 129I concentrations and 129I∕236U atom ratios compared to GF, is transported by Atlantic Waters (AWs) into the SPNA, notably by the East Greenland Current (EGC)/Labrador Current (LC) at the surface and by waters overflowing the Greenland–Scotland passage at greater depths. Nevertheless, our results show that the effluents from NRPs may also directly enter the surface of the eastern SPNA through the Iceland–Scotland passage or the English Channel/Irish Sea. The use of the 236U∕238U and 129I∕236U dual tracer approach further serves to discern Polar Intermediate Water (PIW) of Canadian origin from that of Atlantic origin, which carries comparably higher tracer levels due to NRPs (particularly 129I). The cascading of these waters appears to modify the water mass composition in the bottom of the Irminger and Labrador seas, which are dominated by Denmark Strait Overflow Water (DSOW). Indeed, PIW–Atlantic, which has a high level of 129I compared to 236U, appears to contribute to the deep Irminger Sea increasing the 129I concentrations in the realm of DSOW. A similar observation can be made for 236U for PIW entering through the Canadian Archipelago into the Labrador Sea. Several depth profiles also show an increase in 129I concentrations in near bottom waters in the Iceland and the West European basins that are very likely associated with the transport of the NRP signal by the Iceland–Scotland Overflow Water (ISOW). This novel result would support current modelling studies indicating the transport of ISOW into the eastern SPNA. Finally, our tracer data from 2014 are combined with published 129I data for the deep central Labrador Sea between 1993 and 2013. The results obtained from comparing simulated and measured 129I concentrations support the previously suggested two major transport pathways for the AWs in the SPNA, i.e. a short loop through the Nordic seas into the SPNA and a longer loop, which includes recirculation of the AWs in the Arctic Ocean before it enters the western SPNA.
format Article in Journal/Newspaper
author Castrillejo, Maxi
Casacuberta, Núria
Christl, Marcus
Vockenhuber, Christof
Synal, Hans-Arno
García-Ibáñez, Maribel I.
Lherminier, Pascale
Sarthou, Géraldine
Garcia-Orellana, Jordi
Masqué, Pere
author_facet Castrillejo, Maxi
Casacuberta, Núria
Christl, Marcus
Vockenhuber, Christof
Synal, Hans-Arno
García-Ibáñez, Maribel I.
Lherminier, Pascale
Sarthou, Géraldine
Garcia-Orellana, Jordi
Masqué, Pere
author_sort Castrillejo, Maxi
title Tracing water masses with 129I and 236U in the subpolar North Atlantic along the GEOTRACES GA01 section
title_short Tracing water masses with 129I and 236U in the subpolar North Atlantic along the GEOTRACES GA01 section
title_full Tracing water masses with 129I and 236U in the subpolar North Atlantic along the GEOTRACES GA01 section
title_fullStr Tracing water masses with 129I and 236U in the subpolar North Atlantic along the GEOTRACES GA01 section
title_full_unstemmed Tracing water masses with 129I and 236U in the subpolar North Atlantic along the GEOTRACES GA01 section
title_sort tracing water masses with 129i and 236u in the subpolar north atlantic along the geotraces ga01 section
publisher Copernicus Publications
publishDate 2018
url https://doi.org/10.5194/bg-15-5545-2018
https://noa.gwlb.de/receive/cop_mods_00004801
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00004758/bg-15-5545-2018.pdf
https://bg.copernicus.org/articles/15/5545/2018/bg-15-5545-2018.pdf
long_lat ENVELOPE(-34.041,-34.041,63.054,63.054)
geographic Arctic
Arctic Ocean
Greenland
Irminger Sea
geographic_facet Arctic
Arctic Ocean
Greenland
Irminger Sea
genre Arctic
Arctic Ocean
Canadian Archipelago
Denmark Strait
East Greenland
east greenland current
Greenland
Iceland
Labrador Sea
Nordic Seas
North Atlantic
genre_facet Arctic
Arctic Ocean
Canadian Archipelago
Denmark Strait
East Greenland
east greenland current
Greenland
Iceland
Labrador Sea
Nordic Seas
North Atlantic
op_relation Biogeosciences -- http://www.bibliothek.uni-regensburg.de/ezeit/?2158181 -- http://www.copernicus.org/EGU/bg/bg.html -- 1726-4189
https://doi.org/10.5194/bg-15-5545-2018
https://noa.gwlb.de/receive/cop_mods_00004801
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00004758/bg-15-5545-2018.pdf
https://bg.copernicus.org/articles/15/5545/2018/bg-15-5545-2018.pdf
op_rights https://creativecommons.org/licenses/by/4.0/
uneingeschränkt
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op_rightsnorm CC-BY
op_doi https://doi.org/10.5194/bg-15-5545-2018
container_title Biogeosciences
container_volume 15
container_issue 18
container_start_page 5545
op_container_end_page 5564
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spelling ftnonlinearchiv:oai:noa.gwlb.de:cop_mods_00004801 2023-05-15T15:19:47+02:00 Tracing water masses with 129I and 236U in the subpolar North Atlantic along the GEOTRACES GA01 section Castrillejo, Maxi Casacuberta, Núria Christl, Marcus Vockenhuber, Christof Synal, Hans-Arno García-Ibáñez, Maribel I. Lherminier, Pascale Sarthou, Géraldine Garcia-Orellana, Jordi Masqué, Pere 2018-09 electronic https://doi.org/10.5194/bg-15-5545-2018 https://noa.gwlb.de/receive/cop_mods_00004801 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00004758/bg-15-5545-2018.pdf https://bg.copernicus.org/articles/15/5545/2018/bg-15-5545-2018.pdf eng eng Copernicus Publications Biogeosciences -- http://www.bibliothek.uni-regensburg.de/ezeit/?2158181 -- http://www.copernicus.org/EGU/bg/bg.html -- 1726-4189 https://doi.org/10.5194/bg-15-5545-2018 https://noa.gwlb.de/receive/cop_mods_00004801 https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00004758/bg-15-5545-2018.pdf https://bg.copernicus.org/articles/15/5545/2018/bg-15-5545-2018.pdf https://creativecommons.org/licenses/by/4.0/ uneingeschränkt info:eu-repo/semantics/openAccess CC-BY article Verlagsveröffentlichung article Text doc-type:article 2018 ftnonlinearchiv https://doi.org/10.5194/bg-15-5545-2018 2022-02-08T22:59:54Z Pathways and timescales of water mass transport in the subpolar North Atlantic Ocean (SPNA) have been investigated by many studies due to their importance for the meridional overturning circulation and thus for the global ocean. In this sense, observational data on geochemical tracers provide complementary information to improve the current understanding of the circulation in the SPNA. To this end, we present the first simultaneous distribution of artificial 129I and 236U in 14 depth profiles and in surface waters along the GEOVIDE section covering a zonal transect through the SPNA in spring 2014. Our results show that the two tracers are distributed following the water mass structure and that their presence is largely influenced by the global fallout (GF) and liquid effluents discharged to north-western European coastal waters by the Sellafield and La Hague nuclear reprocessing plants (NRPs). As a result, 129I concentrations and 236U∕238U atom ratios and 129I∕236U atom ratios display a wide range of values: (0.2–256) ×107 at kg−1 (40–2350) ×10-12 and 0.5–200, respectively. The signal from NRPs, which is characterised by higher 129I concentrations and 129I∕236U atom ratios compared to GF, is transported by Atlantic Waters (AWs) into the SPNA, notably by the East Greenland Current (EGC)/Labrador Current (LC) at the surface and by waters overflowing the Greenland–Scotland passage at greater depths. Nevertheless, our results show that the effluents from NRPs may also directly enter the surface of the eastern SPNA through the Iceland–Scotland passage or the English Channel/Irish Sea. The use of the 236U∕238U and 129I∕236U dual tracer approach further serves to discern Polar Intermediate Water (PIW) of Canadian origin from that of Atlantic origin, which carries comparably higher tracer levels due to NRPs (particularly 129I). The cascading of these waters appears to modify the water mass composition in the bottom of the Irminger and Labrador seas, which are dominated by Denmark Strait Overflow Water (DSOW). Indeed, PIW–Atlantic, which has a high level of 129I compared to 236U, appears to contribute to the deep Irminger Sea increasing the 129I concentrations in the realm of DSOW. A similar observation can be made for 236U for PIW entering through the Canadian Archipelago into the Labrador Sea. Several depth profiles also show an increase in 129I concentrations in near bottom waters in the Iceland and the West European basins that are very likely associated with the transport of the NRP signal by the Iceland–Scotland Overflow Water (ISOW). This novel result would support current modelling studies indicating the transport of ISOW into the eastern SPNA. Finally, our tracer data from 2014 are combined with published 129I data for the deep central Labrador Sea between 1993 and 2013. The results obtained from comparing simulated and measured 129I concentrations support the previously suggested two major transport pathways for the AWs in the SPNA, i.e. a short loop through the Nordic seas into the SPNA and a longer loop, which includes recirculation of the AWs in the Arctic Ocean before it enters the western SPNA. Article in Journal/Newspaper Arctic Arctic Ocean Canadian Archipelago Denmark Strait East Greenland east greenland current Greenland Iceland Labrador Sea Nordic Seas North Atlantic Niedersächsisches Online-Archiv NOA Arctic Arctic Ocean Greenland Irminger Sea ENVELOPE(-34.041,-34.041,63.054,63.054) Biogeosciences 15 18 5545 5564

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