Groundwater discharge to the western Antarctic coastal ocean

Submarine groundwater discharge (SGD) measurements have been limited along the Antarctic coast, although groundwater discharge is becoming recognized as an important process in the Antarctic. Quantifying this meltwater path-way is important for hydrologic budgets, ice mass balances and solute delive...

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Main Authors: NC DOCKS at East Carolina University, Null, Kimberly A.,Corbett,D. Reide,Crenshaw,Jared,Peterson,Richar
Language:English
Published: 2019
Subjects:
Antarctic
Marr
Marr Glacier
Palmer Station
Palmer-Station
The Antarctic
Antarc*
Tidewater
Online Access:http://libres.uncg.edu/ir/ecu/f/0000-embargo-holder.txt
id ftunivnorthcag:oai:libres.uncg.edu/34339
record_format openpolar
spelling ftunivnorthcag:oai:libres.uncg.edu/34339 2024-10-29T17:41:39+00:00 Groundwater discharge to the western Antarctic coastal ocean NC DOCKS at East Carolina University Null, Kimberly A.,Corbett,D. Reide,Crenshaw,Jared,Peterson,Richar 2019 http://libres.uncg.edu/ir/ecu/f/0000-embargo-holder.txt English eng 2019 ftunivnorthcag 2024-10-08T15:22:15Z Submarine groundwater discharge (SGD) measurements have been limited along the Antarctic coast, although groundwater discharge is becoming recognized as an important process in the Antarctic. Quantifying this meltwater path-way is important for hydrologic budgets, ice mass balances and solute delivery to the coastal ocean. Here, we estimate the combined discharge of subglacial and submarine groundwater to the Antarctic coastal ocean. SGD, including subglacial and submarine groundwater, is quantified along the WAP at the Marr Glacier terminus using the activities of naturally occurring radium isotopes (223Ra, 224Ra). Estimated SGD fluxes from a 224Ra mass balance ranged from (0.41 ± 0.14)×104 and (8.2 ± 2.3)×104m3 d−1. Using a salinity mass balance, we estimate SGD contributes up to 32% of the total freshwater to the coastal environment near Palmer Station. This study suggests that a large portion of the melting glacier may be infiltrating into the bedrock and being discharged to coastal waters along the WAP. Meltwater infiltrating as groundwater at glacier termini is an import-ant solute delivery mechanism to the nearshore environment that can influence biological productivity. More importantly, quantifying this meltwater pathway may be worthy of attention when predicting future impacts of climate change on retreat of tidewater glaciers. Other/Unknown Material Antarc* Tidewater University of North Carolina: NC DOCKS (Digital Online Collection of Knowledge and Scholarship) Antarctic Marr ENVELOPE(52.117,52.117,-66.400,-66.400) Marr Glacier ENVELOPE(162.733,162.733,-77.717,-77.717) Palmer Station ENVELOPE(-64.050,-64.050,-64.770,-64.770) Palmer-Station ENVELOPE(-64.050,-64.050,-64.770,-64.770) The Antarctic
institution Open Polar
collection University of North Carolina: NC DOCKS (Digital Online Collection of Knowledge and Scholarship)
op_collection_id ftunivnorthcag
language English
description Submarine groundwater discharge (SGD) measurements have been limited along the Antarctic coast, although groundwater discharge is becoming recognized as an important process in the Antarctic. Quantifying this meltwater path-way is important for hydrologic budgets, ice mass balances and solute delivery to the coastal ocean. Here, we estimate the combined discharge of subglacial and submarine groundwater to the Antarctic coastal ocean. SGD, including subglacial and submarine groundwater, is quantified along the WAP at the Marr Glacier terminus using the activities of naturally occurring radium isotopes (223Ra, 224Ra). Estimated SGD fluxes from a 224Ra mass balance ranged from (0.41 ± 0.14)×104 and (8.2 ± 2.3)×104m3 d−1. Using a salinity mass balance, we estimate SGD contributes up to 32% of the total freshwater to the coastal environment near Palmer Station. This study suggests that a large portion of the melting glacier may be infiltrating into the bedrock and being discharged to coastal waters along the WAP. Meltwater infiltrating as groundwater at glacier termini is an import-ant solute delivery mechanism to the nearshore environment that can influence biological productivity. More importantly, quantifying this meltwater pathway may be worthy of attention when predicting future impacts of climate change on retreat of tidewater glaciers.
author NC DOCKS at East Carolina University
Null, Kimberly A.,Corbett,D. Reide,Crenshaw,Jared,Peterson,Richar
spellingShingle NC DOCKS at East Carolina University
Null, Kimberly A.,Corbett,D. Reide,Crenshaw,Jared,Peterson,Richar
Groundwater discharge to the western Antarctic coastal ocean
author_facet NC DOCKS at East Carolina University
Null, Kimberly A.,Corbett,D. Reide,Crenshaw,Jared,Peterson,Richar
author_sort NC DOCKS at East Carolina University
title Groundwater discharge to the western Antarctic coastal ocean
title_short Groundwater discharge to the western Antarctic coastal ocean
title_full Groundwater discharge to the western Antarctic coastal ocean
title_fullStr Groundwater discharge to the western Antarctic coastal ocean
title_full_unstemmed Groundwater discharge to the western Antarctic coastal ocean
title_sort groundwater discharge to the western antarctic coastal ocean
publishDate 2019
url http://libres.uncg.edu/ir/ecu/f/0000-embargo-holder.txt
long_lat ENVELOPE(52.117,52.117,-66.400,-66.400)
ENVELOPE(162.733,162.733,-77.717,-77.717)
ENVELOPE(-64.050,-64.050,-64.770,-64.770)
ENVELOPE(-64.050,-64.050,-64.770,-64.770)
geographic Antarctic
Marr
Marr Glacier
Palmer Station
Palmer-Station
The Antarctic
geographic_facet Antarctic
Marr
Marr Glacier
Palmer Station
Palmer-Station
The Antarctic
genre Antarc*
Tidewater
genre_facet Antarc*
Tidewater
_version_ 1814279056036724736

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