A baseline evaluation of oceanographic and sea ice conditions in the Hudson Bay Complex during 2016-2018

In this paper, we examine sea surface temperatures (SSTs) and sea ice conditions in the Hudson Bay Complex as a baseline evaluation for the BaySys 2016-2018 field program time frame. Investigated in particular are spatiotemporal patterns in SST and sea ice state and dynamics, with rankings of the la...

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Main Authors: Lukovich, Jennifer V., Jafarikhasragh, Shabnam, Tefs, A., Myers, Paul G., Sydor, K., Wong, K., Stroeve, Julienne C., Stadnyk, T. A., Babb, D., Barber, D. G.
Format: Report
Language:English
Published: 2021
Subjects:
Oceanography
Ocean temperature
Sea ice
Climatology
Lagrange equations
Hudson Bay
Extreme events
Hudson Bay Complex
Lagrangian dispersion statistics
Satellite data and observations
Sea ice conditions
Sea surface temperatures
Hudson
Lagrange
Online Access:https://era.library.ualberta.ca/items/213d9e2c-258c-4acb-b71c-465b7cf6e6fc
https://doi.org/10.7939/r3-dvme-gv86
id ftunivalberta:oai:era.library.ualberta.ca:213d9e2c-258c-4acb-b71c-465b7cf6e6fc
record_format openpolar
spelling ftunivalberta:oai:era.library.ualberta.ca:213d9e2c-258c-4acb-b71c-465b7cf6e6fc 2024-06-23T07:53:33+00:00 A baseline evaluation of oceanographic and sea ice conditions in the Hudson Bay Complex during 2016-2018 Lukovich, Jennifer V. Jafarikhasragh, Shabnam Tefs, A. Myers, Paul G. Sydor, K. Wong, K. Stroeve, Julienne C. Stadnyk, T. A. Babb, D. Barber, D. G. 2021-01-01 https://era.library.ualberta.ca/items/213d9e2c-258c-4acb-b71c-465b7cf6e6fc https://doi.org/10.7939/r3-dvme-gv86 English eng https://era.library.ualberta.ca/items/213d9e2c-258c-4acb-b71c-465b7cf6e6fc doi:10.7939/r3-dvme-gv86 http://creativecommons.org/licenses/by/4.0/ Oceanography Ocean temperature Sea ice Climatology Lagrange equations Hudson Bay Extreme events Hudson Bay Complex Lagrangian dispersion statistics Satellite data and observations Sea ice conditions Sea surface temperatures Report 2021 ftunivalberta https://doi.org/10.7939/r3-dvme-gv86 2024-06-03T03:09:00Z In this paper, we examine sea surface temperatures (SSTs) and sea ice conditions in the Hudson Bay Complex as a baseline evaluation for the BaySys 2016-2018 field program time frame. Investigated in particular are spatiotemporal patterns in SST and sea ice state and dynamics, with rankings of the latter to highlight extreme conditions relative to the examined 1981-2010 climatology. Results from this study show that SSTs in northwestern Hudson Bay from May to July, 2016-2018, are high relative to the climatology for SST (1982-2010). SSTs are also warmer in 2016 and 2017 than in 2018 relative to their climatology. Similarly, unusually low sea ice cover existed from August to December of 2016 and July to September of 2017, while unusually high sea ice cover existed in January, February, and October of 2018. The ice-free season was approximately 20 days longer in 2016 than in 2018. Unusually high ice-drift speeds occurred in April of 2016 and 2017 and in May of 2018, coinciding with strong winds in 2016 and 2018 and following strong winds in March 2017. Strong meridional circulation was observed in spring of 2016 and winter of 2017, while weak meridional circulation existed in 2018. In a case study of an extreme event, a blizzard from 7 to 9 March 2017, evaluated using Lagrangian dispersion statistics, is shown to have suppressed sea ice deformation off the coast of Churchill. These results are relevant to describing and planning for possible future pathways and scenarios under continued climate change and river regulation. Report Hudson Bay Sea ice University of Alberta: Era - Education and Research Archive Hudson Hudson Bay Lagrange ENVELOPE(-62.597,-62.597,-64.529,-64.529)
institution Open Polar
collection University of Alberta: Era - Education and Research Archive
op_collection_id ftunivalberta
language English
topic Oceanography
Ocean temperature
Sea ice
Climatology
Lagrange equations
Hudson Bay
Extreme events
Hudson Bay Complex
Lagrangian dispersion statistics
Satellite data and observations
Sea ice conditions
Sea surface temperatures
spellingShingle Oceanography
Ocean temperature
Sea ice
Climatology
Lagrange equations
Hudson Bay
Extreme events
Hudson Bay Complex
Lagrangian dispersion statistics
Satellite data and observations
Sea ice conditions
Sea surface temperatures
Lukovich, Jennifer V.
Jafarikhasragh, Shabnam
Tefs, A.
Myers, Paul G.
Sydor, K.
Wong, K.
Stroeve, Julienne C.
Stadnyk, T. A.
Babb, D.
Barber, D. G.
A baseline evaluation of oceanographic and sea ice conditions in the Hudson Bay Complex during 2016-2018
topic_facet Oceanography
Ocean temperature
Sea ice
Climatology
Lagrange equations
Hudson Bay
Extreme events
Hudson Bay Complex
Lagrangian dispersion statistics
Satellite data and observations
Sea ice conditions
Sea surface temperatures
description In this paper, we examine sea surface temperatures (SSTs) and sea ice conditions in the Hudson Bay Complex as a baseline evaluation for the BaySys 2016-2018 field program time frame. Investigated in particular are spatiotemporal patterns in SST and sea ice state and dynamics, with rankings of the latter to highlight extreme conditions relative to the examined 1981-2010 climatology. Results from this study show that SSTs in northwestern Hudson Bay from May to July, 2016-2018, are high relative to the climatology for SST (1982-2010). SSTs are also warmer in 2016 and 2017 than in 2018 relative to their climatology. Similarly, unusually low sea ice cover existed from August to December of 2016 and July to September of 2017, while unusually high sea ice cover existed in January, February, and October of 2018. The ice-free season was approximately 20 days longer in 2016 than in 2018. Unusually high ice-drift speeds occurred in April of 2016 and 2017 and in May of 2018, coinciding with strong winds in 2016 and 2018 and following strong winds in March 2017. Strong meridional circulation was observed in spring of 2016 and winter of 2017, while weak meridional circulation existed in 2018. In a case study of an extreme event, a blizzard from 7 to 9 March 2017, evaluated using Lagrangian dispersion statistics, is shown to have suppressed sea ice deformation off the coast of Churchill. These results are relevant to describing and planning for possible future pathways and scenarios under continued climate change and river regulation.
format Report
author Lukovich, Jennifer V.
Jafarikhasragh, Shabnam
Tefs, A.
Myers, Paul G.
Sydor, K.
Wong, K.
Stroeve, Julienne C.
Stadnyk, T. A.
Babb, D.
Barber, D. G.
author_facet Lukovich, Jennifer V.
Jafarikhasragh, Shabnam
Tefs, A.
Myers, Paul G.
Sydor, K.
Wong, K.
Stroeve, Julienne C.
Stadnyk, T. A.
Babb, D.
Barber, D. G.
author_sort Lukovich, Jennifer V.
title A baseline evaluation of oceanographic and sea ice conditions in the Hudson Bay Complex during 2016-2018
title_short A baseline evaluation of oceanographic and sea ice conditions in the Hudson Bay Complex during 2016-2018
title_full A baseline evaluation of oceanographic and sea ice conditions in the Hudson Bay Complex during 2016-2018
title_fullStr A baseline evaluation of oceanographic and sea ice conditions in the Hudson Bay Complex during 2016-2018
title_full_unstemmed A baseline evaluation of oceanographic and sea ice conditions in the Hudson Bay Complex during 2016-2018
title_sort baseline evaluation of oceanographic and sea ice conditions in the hudson bay complex during 2016-2018
publishDate 2021
url https://era.library.ualberta.ca/items/213d9e2c-258c-4acb-b71c-465b7cf6e6fc
https://doi.org/10.7939/r3-dvme-gv86
long_lat ENVELOPE(-62.597,-62.597,-64.529,-64.529)
geographic Hudson
Hudson Bay
Lagrange
geographic_facet Hudson
Hudson Bay
Lagrange
genre Hudson Bay
Sea ice
genre_facet Hudson Bay
Sea ice
op_relation https://era.library.ualberta.ca/items/213d9e2c-258c-4acb-b71c-465b7cf6e6fc
doi:10.7939/r3-dvme-gv86
op_rights http://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.7939/r3-dvme-gv86
_version_ 1802645281249951744

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