Oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in Maxwell Bay, King George Island (West-Antarctica)

We examine the hydrographic variability induced by tides, winds, and the advance of the austral summer, in Maxwell Bay and tributary fjords, based on two recent oceanographic campaigns. We provide the first description in this area of the intrusion of relatively warm subsurface waters, which have le...

Full description

Bibliographic Details
Main Authors: PJ Llanillo, Christopher Aiken, RR Cordero, A Damiani, E Sepúlveda, B Fernández-Gómez
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2019
Subjects:
Physical Oceanography
Antarctica
Hydrographic variability
Ice-shelf disintegration
Intraseasonal timescales
Maxwell Bay
Tides
Tidewater glacier retreat
Wind
Austral
King George Island
Marian
Marian Cove
West Antarctica
Antarc*
Ice Shelf
Tidewater
Online Access:http://hdl.handle.net/10779/cqu.20365509.v1
id ftcquniportalfig:oai:figshare.com:article/20365509
record_format openpolar
spelling ftcquniportalfig:oai:figshare.com:article/20365509 2023-05-15T13:40:47+02:00 Oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in Maxwell Bay, King George Island (West-Antarctica) PJ Llanillo Christopher Aiken RR Cordero A Damiani E Sepúlveda B Fernández-Gómez 2019-12-01T00:00:00Z http://hdl.handle.net/10779/cqu.20365509.v1 unknown https://figshare.com/articles/journal_contribution/Oceanographic_variability_induced_by_tides_the_intraseasonal_cycle_and_warm_subsurface_water_intrusions_in_Maxwell_Bay_King_George_Island_West-Antarctica_/20365509 http://hdl.handle.net/10779/cqu.20365509.v1 CC BY 4.0 CC-BY Physical Oceanography Antarctica Hydrographic variability Ice-shelf disintegration Intraseasonal timescales Maxwell Bay Tides Tidewater glacier retreat Wind Text Journal contribution 2019 ftcquniportalfig 2022-08-05T11:51:17Z We examine the hydrographic variability induced by tides, winds, and the advance of the austral summer, in Maxwell Bay and tributary fjords, based on two recent oceanographic campaigns. We provide the first description in this area of the intrusion of relatively warm subsurface waters, which have led elsewhere in Antarctica to ice-shelf disintegration and tidewater glacier retreat. During flood tide, meltwater was found to accumulate toward the head of Maxwell Bay, freshening and warming the upper 70 m. Below 70 m, the flood tide enhances the intrusion and mixing of relatively warm modified Upper Circumpolar Deep Water (m-UCDW). Tidal stirring progressively erodes the remnants of Winter Waters found at the bottom of Marian Cove. There is a buoyancy gain through warming and freshening as the summer advances. In Maxwell Bay, the upper 105 m were 0.79 °C warmer and 0.039 PSU fresher in February than in December, changes that cannot be explained by tidal or wind-driven processes. The episodic intrusion of m-UCDW into Maxwell Bay leads to interleaving and eventually to warming, salinification and deoxygenation between 80 and 200 m, with important implications for biological productivity and for the mass balance of tidewater glaciers in the area. Other Non-Article Part of Journal/Newspaper Antarc* Antarctica Ice Shelf King George Island Maxwell Bay Tidewater West Antarctica CQUniversity: acquire Austral King George Island Marian ENVELOPE(-58.750,-58.750,-62.217,-62.217) Marian Cove ENVELOPE(-58.800,-58.800,-62.217,-62.217) Maxwell Bay ENVELOPE(-58.859,-58.859,-62.223,-62.223) West Antarctica
institution Open Polar
collection CQUniversity: acquire
op_collection_id ftcquniportalfig
language unknown
topic Physical Oceanography
Antarctica
Hydrographic variability
Ice-shelf disintegration
Intraseasonal timescales
Maxwell Bay
Tides
Tidewater glacier retreat
Wind
spellingShingle Physical Oceanography
Antarctica
Hydrographic variability
Ice-shelf disintegration
Intraseasonal timescales
Maxwell Bay
Tides
Tidewater glacier retreat
Wind
PJ Llanillo
Christopher Aiken
RR Cordero
A Damiani
E Sepúlveda
B Fernández-Gómez
Oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in Maxwell Bay, King George Island (West-Antarctica)
topic_facet Physical Oceanography
Antarctica
Hydrographic variability
Ice-shelf disintegration
Intraseasonal timescales
Maxwell Bay
Tides
Tidewater glacier retreat
Wind
description We examine the hydrographic variability induced by tides, winds, and the advance of the austral summer, in Maxwell Bay and tributary fjords, based on two recent oceanographic campaigns. We provide the first description in this area of the intrusion of relatively warm subsurface waters, which have led elsewhere in Antarctica to ice-shelf disintegration and tidewater glacier retreat. During flood tide, meltwater was found to accumulate toward the head of Maxwell Bay, freshening and warming the upper 70 m. Below 70 m, the flood tide enhances the intrusion and mixing of relatively warm modified Upper Circumpolar Deep Water (m-UCDW). Tidal stirring progressively erodes the remnants of Winter Waters found at the bottom of Marian Cove. There is a buoyancy gain through warming and freshening as the summer advances. In Maxwell Bay, the upper 105 m were 0.79 °C warmer and 0.039 PSU fresher in February than in December, changes that cannot be explained by tidal or wind-driven processes. The episodic intrusion of m-UCDW into Maxwell Bay leads to interleaving and eventually to warming, salinification and deoxygenation between 80 and 200 m, with important implications for biological productivity and for the mass balance of tidewater glaciers in the area.
format Other Non-Article Part of Journal/Newspaper
author PJ Llanillo
Christopher Aiken
RR Cordero
A Damiani
E Sepúlveda
B Fernández-Gómez
author_facet PJ Llanillo
Christopher Aiken
RR Cordero
A Damiani
E Sepúlveda
B Fernández-Gómez
author_sort PJ Llanillo
title Oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in Maxwell Bay, King George Island (West-Antarctica)
title_short Oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in Maxwell Bay, King George Island (West-Antarctica)
title_full Oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in Maxwell Bay, King George Island (West-Antarctica)
title_fullStr Oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in Maxwell Bay, King George Island (West-Antarctica)
title_full_unstemmed Oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in Maxwell Bay, King George Island (West-Antarctica)
title_sort oceanographic variability induced by tides, the intraseasonal cycle and warm subsurface water intrusions in maxwell bay, king george island (west-antarctica)
publishDate 2019
url http://hdl.handle.net/10779/cqu.20365509.v1
long_lat ENVELOPE(-58.750,-58.750,-62.217,-62.217)
ENVELOPE(-58.800,-58.800,-62.217,-62.217)
ENVELOPE(-58.859,-58.859,-62.223,-62.223)
geographic Austral
King George Island
Marian
Marian Cove
Maxwell Bay
West Antarctica
geographic_facet Austral
King George Island
Marian
Marian Cove
Maxwell Bay
West Antarctica
genre Antarc*
Antarctica
Ice Shelf
King George Island
Maxwell Bay
Tidewater
West Antarctica
genre_facet Antarc*
Antarctica
Ice Shelf
King George Island
Maxwell Bay
Tidewater
West Antarctica
op_relation https://figshare.com/articles/journal_contribution/Oceanographic_variability_induced_by_tides_the_intraseasonal_cycle_and_warm_subsurface_water_intrusions_in_Maxwell_Bay_King_George_Island_West-Antarctica_/20365509
http://hdl.handle.net/10779/cqu.20365509.v1
op_rights CC BY 4.0
op_rightsnorm CC-BY
_version_ 1766140069120311296

Similar Items