New Hydrometeorological Observations from Inglefield Land and Thule, NW Greenland

Meltwater runoff from the Greenland Ice Sheet (GrIS) is an important contributor to global sea level rise, but substantial uncertainty exists in its measurement and prediction. Common approaches for estimating ice sheet runoff are in situ gauging of proglacial rivers draining the ice sheet, and surf...

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Main Authors: Esenther, Sarah E., Smith, Laurence C., LeWinter, Adam, Pitcher, Lincoln H., Overstreet, Brandon T., Kehl, Aaron, Onclin, Cuyler, Goldstein, Seth, Ryan, Jonathan C.
Format: Text
Language:English
Published: 2023
Subjects:
Canyon River
Greenland
Inglefield Land
Thule Air Base
Ice Sheet
Inglefield land
Thule Air
Thule
Online Access:https://doi.org/10.5194/gi-2023-3
https://gi.copernicus.org/preprints/gi-2023-3/
id ftcopernicus:oai:publications.copernicus.org:gid109930
record_format openpolar
spelling ftcopernicus:oai:publications.copernicus.org:gid109930 2023-05-15T16:27:04+02:00 New Hydrometeorological Observations from Inglefield Land and Thule, NW Greenland Esenther, Sarah E. Smith, Laurence C. LeWinter, Adam Pitcher, Lincoln H. Overstreet, Brandon T. Kehl, Aaron Onclin, Cuyler Goldstein, Seth Ryan, Jonathan C. 2023-03-21 application/pdf https://doi.org/10.5194/gi-2023-3 https://gi.copernicus.org/preprints/gi-2023-3/ eng eng doi:10.5194/gi-2023-3 https://gi.copernicus.org/preprints/gi-2023-3/ eISSN: 2193-0864 Text 2023 ftcopernicus https://doi.org/10.5194/gi-2023-3 2023-03-27T16:23:13Z Meltwater runoff from the Greenland Ice Sheet (GrIS) is an important contributor to global sea level rise, but substantial uncertainty exists in its measurement and prediction. Common approaches for estimating ice sheet runoff are in situ gauging of proglacial rivers draining the ice sheet, and surface mass balance (SMB) modeling. To obtain hydrological and meteorological datasets suitable for both runoff characterization and SMB model validation, we established an automated weather station (AWS) and cluster of traditional and experimental river stage sensors on the Minturn River, the largest proglacial river draining Inglefield Land, NW Greenland. Secondary installations measuring river stage were installed in the Fox Canyon River and North River at Thule Air Base, NW Greenland. Proglacial runoff at these sites is dominated by supraglacial processes only, uniquely advantaging them for SMB studies. The three installations provide rare hydrological time-series and an opportunity to evaluate experimental measurements of river stage from a harsh, little-studied polar region. The installed instruments include submerged vented and non-vented pressure transducers, a bubbler sensor, experimental bank-mounted laser rangefinders, and time-lapse cameras. The first three years of observations (2019 to 2021) from these stations indicate a) a meltwater runoff season from late June to late August/early September, roughly synchronous throughout the region; b) early onset (~ June 23 to July 8) of a strong diurnal runoff signal in 2019 and 2020, suggesting minimal meltwater storage in snow/firn; c) one-day lagged air temperature displays the strongest correlation with river stage; d) river stage correlates more strongly with ablation zone albedo than with net radiation; and e) late-summer rain-on-ice events appear to trigger the region’s sharpest and largest floods. The new gauging stations provide valuable in situ hydrological observations from a little-studied, rapidly changing area and are freely available through the PROMICE ... Text Greenland Ice Sheet Inglefield land Thule Air Thule Air Base Thule Copernicus Publications: E-Journals Canyon River ENVELOPE(-84.052,-84.052,65.185,65.185) Greenland Inglefield Land ENVELOPE(-69.987,-69.987,78.637,78.637) Thule Air Base ENVELOPE(-68.703,-68.703,76.531,76.531)
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Meltwater runoff from the Greenland Ice Sheet (GrIS) is an important contributor to global sea level rise, but substantial uncertainty exists in its measurement and prediction. Common approaches for estimating ice sheet runoff are in situ gauging of proglacial rivers draining the ice sheet, and surface mass balance (SMB) modeling. To obtain hydrological and meteorological datasets suitable for both runoff characterization and SMB model validation, we established an automated weather station (AWS) and cluster of traditional and experimental river stage sensors on the Minturn River, the largest proglacial river draining Inglefield Land, NW Greenland. Secondary installations measuring river stage were installed in the Fox Canyon River and North River at Thule Air Base, NW Greenland. Proglacial runoff at these sites is dominated by supraglacial processes only, uniquely advantaging them for SMB studies. The three installations provide rare hydrological time-series and an opportunity to evaluate experimental measurements of river stage from a harsh, little-studied polar region. The installed instruments include submerged vented and non-vented pressure transducers, a bubbler sensor, experimental bank-mounted laser rangefinders, and time-lapse cameras. The first three years of observations (2019 to 2021) from these stations indicate a) a meltwater runoff season from late June to late August/early September, roughly synchronous throughout the region; b) early onset (~ June 23 to July 8) of a strong diurnal runoff signal in 2019 and 2020, suggesting minimal meltwater storage in snow/firn; c) one-day lagged air temperature displays the strongest correlation with river stage; d) river stage correlates more strongly with ablation zone albedo than with net radiation; and e) late-summer rain-on-ice events appear to trigger the region’s sharpest and largest floods. The new gauging stations provide valuable in situ hydrological observations from a little-studied, rapidly changing area and are freely available through the PROMICE ...
format Text
author Esenther, Sarah E.
Smith, Laurence C.
LeWinter, Adam
Pitcher, Lincoln H.
Overstreet, Brandon T.
Kehl, Aaron
Onclin, Cuyler
Goldstein, Seth
Ryan, Jonathan C.
spellingShingle Esenther, Sarah E.
Smith, Laurence C.
LeWinter, Adam
Pitcher, Lincoln H.
Overstreet, Brandon T.
Kehl, Aaron
Onclin, Cuyler
Goldstein, Seth
Ryan, Jonathan C.
New Hydrometeorological Observations from Inglefield Land and Thule, NW Greenland
author_facet Esenther, Sarah E.
Smith, Laurence C.
LeWinter, Adam
Pitcher, Lincoln H.
Overstreet, Brandon T.
Kehl, Aaron
Onclin, Cuyler
Goldstein, Seth
Ryan, Jonathan C.
author_sort Esenther, Sarah E.
title New Hydrometeorological Observations from Inglefield Land and Thule, NW Greenland
title_short New Hydrometeorological Observations from Inglefield Land and Thule, NW Greenland
title_full New Hydrometeorological Observations from Inglefield Land and Thule, NW Greenland
title_fullStr New Hydrometeorological Observations from Inglefield Land and Thule, NW Greenland
title_full_unstemmed New Hydrometeorological Observations from Inglefield Land and Thule, NW Greenland
title_sort new hydrometeorological observations from inglefield land and thule, nw greenland
publishDate 2023
url https://doi.org/10.5194/gi-2023-3
https://gi.copernicus.org/preprints/gi-2023-3/
long_lat ENVELOPE(-84.052,-84.052,65.185,65.185)
ENVELOPE(-69.987,-69.987,78.637,78.637)
ENVELOPE(-68.703,-68.703,76.531,76.531)
geographic Canyon River
Greenland
Inglefield Land
Thule Air Base
geographic_facet Canyon River
Greenland
Inglefield Land
Thule Air Base
genre Greenland
Ice Sheet
Inglefield land
Thule Air
Thule Air Base
Thule
genre_facet Greenland
Ice Sheet
Inglefield land
Thule Air
Thule Air Base
Thule
op_source eISSN: 2193-0864
op_relation doi:10.5194/gi-2023-3
https://gi.copernicus.org/preprints/gi-2023-3/
op_doi https://doi.org/10.5194/gi-2023-3
_version_ 1766016126703108096

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