Atlantic Water Inflow Through the Yermak Pass Branch: Evolution Since 2007

Under embargo until: 2022-07-20 Thirty-four months (2017–2020) of mooring data were recently obtained at 80.6°N, 7.26°E in the main branch of Atlantic Water inflow to the Arctic, the Yermak Pass Branch. The Yermak Pass Branch was sampled at that same location during 14 months a decade ago (2007–2008...

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Published in:Journal of Geophysical Research: Oceans
Main Authors: Artana, Camila, Provost, Christine, Koenig, Zoe Charlotte, Athanase, Marylou, Asgari, Ava
Format: Article in Journal/Newspaper
Language:English
Published: AGU 2022
Subjects:
Arctic
Yermak Plateau
Sea ice
Yermak plateau
Online Access:https://hdl.handle.net/11250/2997946
https://doi.org/10.1029/2021JC018006
id ftunivbergen:oai:bora.uib.no:11250/2997946
record_format openpolar
spelling ftunivbergen:oai:bora.uib.no:11250/2997946 2023-05-15T15:10:35+02:00 Atlantic Water Inflow Through the Yermak Pass Branch: Evolution Since 2007 Artana, Camila Provost, Christine Koenig, Zoe Charlotte Athanase, Marylou Asgari, Ava 2022 application/pdf https://hdl.handle.net/11250/2997946 https://doi.org/10.1029/2021JC018006 eng eng AGU urn:issn:2169-9275 https://hdl.handle.net/11250/2997946 https://doi.org/10.1029/2021JC018006 cristin:2021450 Journal of Geophysical Research (JGR): Oceans. 2022, 127 (2), e2021JC018006. Copyright 2022 American Geophysical Union. All Rights Reserved e2021JC018006 Journal of Geophysical Research (JGR): Oceans 127 2 Journal article Peer reviewed 2022 ftunivbergen https://doi.org/10.1029/2021JC018006 2023-03-14T17:43:39Z Under embargo until: 2022-07-20 Thirty-four months (2017–2020) of mooring data were recently obtained at 80.6°N, 7.26°E in the main branch of Atlantic Water inflow to the Arctic, the Yermak Pass Branch. The Yermak Pass Branch was sampled at that same location during 14 months a decade ago (2007–2008) when sea ice was abundant (mean sea-ice concentration of 74% vs. 39% during the recent deployment). We focus on time scales larger than 50 hr. The new mooring data set shows an increase in the velocity variations of 40% compared to the 2007–2008 period. Year 2018 was exceptional with ice-free conditions over the entire year and an intensified mesoscale activity compared to other years. Temperature and salinity time series at 340 m showed significant trends over 3 years (freshening of −0.07 g/kg and cooling of about −0.9°C in 3 years). The performance of 1/12° Mercator-Ocean operational model at the mooring location was precisely assessed. The modeled Atlantic Water transport was on average larger during 2017–2020 (40% larger) than during 2007–2008. The synoptic transport time series ranged between −1 and 5 Sv over 2007–2020 and showed large seasonal and interannual variations. The transport was larger in winter than summer. However, occasionally negative transport (<−0.7 Sv) through the Yermak Pass Branch occurred during winters (“Blocking events”). These blocking events are associated with recirculations and eddy activity and were more common over the last years from 2016 onward. The model suggested that a Northern Branch crossing the Yermak Plateau further north (81.6°N) intermittently developed. publishedVersion Article in Journal/Newspaper Arctic Sea ice Yermak plateau University of Bergen: Bergen Open Research Archive (BORA-UiB) Arctic Yermak Plateau ENVELOPE(5.000,5.000,81.250,81.250) Journal of Geophysical Research: Oceans 127 2
institution Open Polar
collection University of Bergen: Bergen Open Research Archive (BORA-UiB)
op_collection_id ftunivbergen
language English
description Under embargo until: 2022-07-20 Thirty-four months (2017–2020) of mooring data were recently obtained at 80.6°N, 7.26°E in the main branch of Atlantic Water inflow to the Arctic, the Yermak Pass Branch. The Yermak Pass Branch was sampled at that same location during 14 months a decade ago (2007–2008) when sea ice was abundant (mean sea-ice concentration of 74% vs. 39% during the recent deployment). We focus on time scales larger than 50 hr. The new mooring data set shows an increase in the velocity variations of 40% compared to the 2007–2008 period. Year 2018 was exceptional with ice-free conditions over the entire year and an intensified mesoscale activity compared to other years. Temperature and salinity time series at 340 m showed significant trends over 3 years (freshening of −0.07 g/kg and cooling of about −0.9°C in 3 years). The performance of 1/12° Mercator-Ocean operational model at the mooring location was precisely assessed. The modeled Atlantic Water transport was on average larger during 2017–2020 (40% larger) than during 2007–2008. The synoptic transport time series ranged between −1 and 5 Sv over 2007–2020 and showed large seasonal and interannual variations. The transport was larger in winter than summer. However, occasionally negative transport (<−0.7 Sv) through the Yermak Pass Branch occurred during winters (“Blocking events”). These blocking events are associated with recirculations and eddy activity and were more common over the last years from 2016 onward. The model suggested that a Northern Branch crossing the Yermak Plateau further north (81.6°N) intermittently developed. publishedVersion
format Article in Journal/Newspaper
author Artana, Camila
Provost, Christine
Koenig, Zoe Charlotte
Athanase, Marylou
Asgari, Ava
spellingShingle Artana, Camila
Provost, Christine
Koenig, Zoe Charlotte
Athanase, Marylou
Asgari, Ava
Atlantic Water Inflow Through the Yermak Pass Branch: Evolution Since 2007
author_facet Artana, Camila
Provost, Christine
Koenig, Zoe Charlotte
Athanase, Marylou
Asgari, Ava
author_sort Artana, Camila
title Atlantic Water Inflow Through the Yermak Pass Branch: Evolution Since 2007
title_short Atlantic Water Inflow Through the Yermak Pass Branch: Evolution Since 2007
title_full Atlantic Water Inflow Through the Yermak Pass Branch: Evolution Since 2007
title_fullStr Atlantic Water Inflow Through the Yermak Pass Branch: Evolution Since 2007
title_full_unstemmed Atlantic Water Inflow Through the Yermak Pass Branch: Evolution Since 2007
title_sort atlantic water inflow through the yermak pass branch: evolution since 2007
publisher AGU
publishDate 2022
url https://hdl.handle.net/11250/2997946
https://doi.org/10.1029/2021JC018006
long_lat ENVELOPE(5.000,5.000,81.250,81.250)
geographic Arctic
Yermak Plateau
geographic_facet Arctic
Yermak Plateau
genre Arctic
Sea ice
Yermak plateau
genre_facet Arctic
Sea ice
Yermak plateau
op_source e2021JC018006
Journal of Geophysical Research (JGR): Oceans
127
2
op_relation urn:issn:2169-9275
https://hdl.handle.net/11250/2997946
https://doi.org/10.1029/2021JC018006
cristin:2021450
Journal of Geophysical Research (JGR): Oceans. 2022, 127 (2), e2021JC018006.
op_rights Copyright 2022 American Geophysical Union. All Rights Reserved
op_doi https://doi.org/10.1029/2021JC018006
container_title Journal of Geophysical Research: Oceans
container_volume 127
container_issue 2
_version_ 1766341579838062592

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