OCEANIC FLUXES FROM PROGLACIAL AND DEGLACIAL WATERSHEDS IN WESTERN GREENLAND

Weathering in western Greenland occurs in two distinct environments: proglacial watersheds that extend from the margin of the Greenland Ice Sheet (GIS) and derive water from ice melt, and deglacial watersheds that develop on terrains unconnected to the GIS and derive water from annual precipitation....

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Main Authors: Deuerling, Kelly M., Scribner, Cecilia A., Martin, Jonathan B, Martin, Ellen E.
Format: Text
Language:unknown
Published: DigitalCommons@UNO 2014
Subjects:
Greenland
Kangerlussuaq
Sisimiut
Nerumaq
Ice Sheet
Online Access:https://digitalcommons.unomaha.edu/geoggeolfacproc/7
https://digitalcommons.unomaha.edu/context/geoggeolfacproc/article/1009/viewcontent/OCEANI_1.PDF
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spelling ftuninebromaha:oai:digitalcommons.unomaha.edu:geoggeolfacproc-1009 2024-02-11T10:04:15+01:00 OCEANIC FLUXES FROM PROGLACIAL AND DEGLACIAL WATERSHEDS IN WESTERN GREENLAND Deuerling, Kelly M. Scribner, Cecilia A. Martin, Jonathan B Martin, Ellen E. 2014-10-20T07:00:00Z application/pdf https://digitalcommons.unomaha.edu/geoggeolfacproc/7 https://digitalcommons.unomaha.edu/context/geoggeolfacproc/article/1009/viewcontent/OCEANI_1.PDF unknown DigitalCommons@UNO https://digitalcommons.unomaha.edu/geoggeolfacproc/7 https://digitalcommons.unomaha.edu/context/geoggeolfacproc/article/1009/viewcontent/OCEANI_1.PDF Geography and Geology Faculty Proceedings & Presentations text 2014 ftuninebromaha 2024-01-14T17:40:48Z Weathering in western Greenland occurs in two distinct environments: proglacial watersheds that extend from the margin of the Greenland Ice Sheet (GIS) and derive water from ice melt, and deglacial watersheds that develop on terrains unconnected to the GIS and derive water from annual precipitation. Proglacial and deglacial watersheds currently provide equal amounts of runoff in western Greenland. These watersheds may contribute different solute fluxes to the oceans depending on exposure age, climate, and weathering environment. We test this hypothesis by comparing chemical compositions of streams in four deglacial watersheds (Sisimiut, Nerumaq, Qorlortoq, Kangerlussuaq) and one proglacial watershed (Watson River Akuliarusiarsuup Kuua River; AKR) along a ~160 km transect from the coast to the GIS. Recent work found that weathering reactions in the deglacial watersheds shift from being dominated by carbonate dissolution inland to sulfide oxidation near the coast. Silicate weathering, based on increased Si, Na and K concentrations, is a minor source of solutes to deglacial streams and is less extensive near the GIS than the coast, where older moraines experience greater precipitation. In general, specific conductivity (SpC: 48-301 μS/cm) and pH (7.0-8.2) increase inland as precipitation decreases and fresh mineral surfaces become more common. The AKR, in contrast, has lower average SpC (11.9 uS/cm) and pH (6.86) than the deglacial streams. Low SpC reflects dilution by ice melt and short residence time of water in the subglacial system. Proglacial flow is enriched in Si compared to deglacial flow particularly near headwaters, indicating higher silicate weathering rates in the pro- and sub-glacial systems. Low pH values indicate: 1) equilibration with atmospheric CO2 in the supraglacial system near headwaters, and 2) acid production generated by sulfide oxidation in the hyporheic zone identified by elevated SO4 concentrations. However, Ca, Mg and HCO3 are the dominant ions over the length of the AKR indicating that ... Text Greenland Ice Sheet Kangerlussuaq Sisimiut University of Nebraska Omaha: DigitalCommons@UNO Greenland Kangerlussuaq ENVELOPE(-55.633,-55.633,72.633,72.633) Sisimiut ENVELOPE(-53.674,-53.674,66.939,66.939) Nerumaq ENVELOPE(-52.783,-52.783,67.017,67.017)
institution Open Polar
collection University of Nebraska Omaha: DigitalCommons@UNO
op_collection_id ftuninebromaha
language unknown
description Weathering in western Greenland occurs in two distinct environments: proglacial watersheds that extend from the margin of the Greenland Ice Sheet (GIS) and derive water from ice melt, and deglacial watersheds that develop on terrains unconnected to the GIS and derive water from annual precipitation. Proglacial and deglacial watersheds currently provide equal amounts of runoff in western Greenland. These watersheds may contribute different solute fluxes to the oceans depending on exposure age, climate, and weathering environment. We test this hypothesis by comparing chemical compositions of streams in four deglacial watersheds (Sisimiut, Nerumaq, Qorlortoq, Kangerlussuaq) and one proglacial watershed (Watson River Akuliarusiarsuup Kuua River; AKR) along a ~160 km transect from the coast to the GIS. Recent work found that weathering reactions in the deglacial watersheds shift from being dominated by carbonate dissolution inland to sulfide oxidation near the coast. Silicate weathering, based on increased Si, Na and K concentrations, is a minor source of solutes to deglacial streams and is less extensive near the GIS than the coast, where older moraines experience greater precipitation. In general, specific conductivity (SpC: 48-301 μS/cm) and pH (7.0-8.2) increase inland as precipitation decreases and fresh mineral surfaces become more common. The AKR, in contrast, has lower average SpC (11.9 uS/cm) and pH (6.86) than the deglacial streams. Low SpC reflects dilution by ice melt and short residence time of water in the subglacial system. Proglacial flow is enriched in Si compared to deglacial flow particularly near headwaters, indicating higher silicate weathering rates in the pro- and sub-glacial systems. Low pH values indicate: 1) equilibration with atmospheric CO2 in the supraglacial system near headwaters, and 2) acid production generated by sulfide oxidation in the hyporheic zone identified by elevated SO4 concentrations. However, Ca, Mg and HCO3 are the dominant ions over the length of the AKR indicating that ...
format Text
author Deuerling, Kelly M.
Scribner, Cecilia A.
Martin, Jonathan B
Martin, Ellen E.
spellingShingle Deuerling, Kelly M.
Scribner, Cecilia A.
Martin, Jonathan B
Martin, Ellen E.
OCEANIC FLUXES FROM PROGLACIAL AND DEGLACIAL WATERSHEDS IN WESTERN GREENLAND
author_facet Deuerling, Kelly M.
Scribner, Cecilia A.
Martin, Jonathan B
Martin, Ellen E.
author_sort Deuerling, Kelly M.
title OCEANIC FLUXES FROM PROGLACIAL AND DEGLACIAL WATERSHEDS IN WESTERN GREENLAND
title_short OCEANIC FLUXES FROM PROGLACIAL AND DEGLACIAL WATERSHEDS IN WESTERN GREENLAND
title_full OCEANIC FLUXES FROM PROGLACIAL AND DEGLACIAL WATERSHEDS IN WESTERN GREENLAND
title_fullStr OCEANIC FLUXES FROM PROGLACIAL AND DEGLACIAL WATERSHEDS IN WESTERN GREENLAND
title_full_unstemmed OCEANIC FLUXES FROM PROGLACIAL AND DEGLACIAL WATERSHEDS IN WESTERN GREENLAND
title_sort oceanic fluxes from proglacial and deglacial watersheds in western greenland
publisher DigitalCommons@UNO
publishDate 2014
url https://digitalcommons.unomaha.edu/geoggeolfacproc/7
https://digitalcommons.unomaha.edu/context/geoggeolfacproc/article/1009/viewcontent/OCEANI_1.PDF
long_lat ENVELOPE(-55.633,-55.633,72.633,72.633)
ENVELOPE(-53.674,-53.674,66.939,66.939)
ENVELOPE(-52.783,-52.783,67.017,67.017)
geographic Greenland
Kangerlussuaq
Sisimiut
Nerumaq
geographic_facet Greenland
Kangerlussuaq
Sisimiut
Nerumaq
genre Greenland
Ice Sheet
Kangerlussuaq
Sisimiut
genre_facet Greenland
Ice Sheet
Kangerlussuaq
Sisimiut
op_source Geography and Geology Faculty Proceedings & Presentations
op_relation https://digitalcommons.unomaha.edu/geoggeolfacproc/7
https://digitalcommons.unomaha.edu/context/geoggeolfacproc/article/1009/viewcontent/OCEANI_1.PDF
_version_ 1790600813019660288

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