Historical snow and ice temperature observations document the recent warming of the Greenland ice sheet

The surface melting of the Greenland ice sheet has been increasing over the last decades due to Arctic atmospheric warming. Surface melt depends on the energy balance which includes the atmospheric forcing but also the thermal budget of the snow, firn and ice near the ice sheet surface. We present a...

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Main Authors: Vandecrux, Baptiste, Fausto, Robert S., Box, Jason E., Covi, Federico, Hock, Regine, Rennermalm, Asa K., Heilig, Achim, Abermann, Jakob, As, Dirk, Bjerre, Elisa, Fettweis, Xavier, Smeets, Paul C. J. P., Kuipers Munneke, Peter, Broeke, Michiel R., Brils, Max, Langen, Peter L., Mottram, Ruth, Ahlstrøm, Andreas P.
Format: Text
Language:English
Published: 2023
Subjects:
Arctic
Greenland
Ice Sheet
Online Access:https://doi.org/10.5194/tc-2023-105
https://tc.copernicus.org/preprints/tc-2023-105/
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record_format openpolar
spelling ftcopernicus:oai:publications.copernicus.org:tcd113025 2023-09-05T13:17:45+02:00 Historical snow and ice temperature observations document the recent warming of the Greenland ice sheet Vandecrux, Baptiste Fausto, Robert S. Box, Jason E. Covi, Federico Hock, Regine Rennermalm, Asa K. Heilig, Achim Abermann, Jakob As, Dirk Bjerre, Elisa Fettweis, Xavier Smeets, Paul C. J. P. Kuipers Munneke, Peter Broeke, Michiel R. Brils, Max Langen, Peter L. Mottram, Ruth Ahlstrøm, Andreas P. 2023-08-09 application/pdf https://doi.org/10.5194/tc-2023-105 https://tc.copernicus.org/preprints/tc-2023-105/ eng eng doi:10.5194/tc-2023-105 https://tc.copernicus.org/preprints/tc-2023-105/ eISSN: 1994-0424 Text 2023 ftcopernicus https://doi.org/10.5194/tc-2023-105 2023-08-14T16:24:20Z The surface melting of the Greenland ice sheet has been increasing over the last decades due to Arctic atmospheric warming. Surface melt depends on the energy balance which includes the atmospheric forcing but also the thermal budget of the snow, firn and ice near the ice sheet surface. We present a compilation of more than 4500 measurements of ice, snow and firn temperature at 10 m below the surface (T 10m ) across Greenland spanning from 1912 to 2022. The measurements are either instantaneous or monthly averages. We train an Artificial Neural Network model (ANN) on these observations, weighted by their relative representativity, and use it to reconstruct T 10m over the entire Greenland ice sheet. We use 10 year averages and mean annual values of air temperature and snowfall from the ERA5 reanalysis dataset (1950–2022) as model input. The ANN indicates a Greenland-wide positive trend of T 10m at 0.2 °C decade -1 during the 1950–2022 period, with a cooling during 1950–1985 (-0.3 °C decade -1 ) followed by a warming during 1985–2022 (+0.7 °C decade -1 ). Regional climate models HIRHAM5, RACMO2.3p2 and MARv3.12 show mixed results compared to the observational T 10m dataset with mean differences ranging from -0.4 °C (HIRHAM) to 1.3 °C (MAR) and root mean squared differences ranging from 2.8 °C (HIRHAM) to 4.7 °C (MAR). The corresponding values for the ANN are -0.2 °C and 1.7 °C. The observation-based ANN also reveals an underestimation of the subsurface warming trends in climate models for the bare ice and dry snow areas. The subsurface warming brings the Greenland ice sheet surface closer to the melting point, reducing the amount of summer energy input required for melting. Our compilation documents the response of the ice sheet subsurface to atmospheric warming and will enable further improvements of models used for ice sheet mass loss assessment and reduce the uncertainty in projections. Text Arctic Greenland Ice Sheet Copernicus Publications: E-Journals Arctic Greenland
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description The surface melting of the Greenland ice sheet has been increasing over the last decades due to Arctic atmospheric warming. Surface melt depends on the energy balance which includes the atmospheric forcing but also the thermal budget of the snow, firn and ice near the ice sheet surface. We present a compilation of more than 4500 measurements of ice, snow and firn temperature at 10 m below the surface (T 10m ) across Greenland spanning from 1912 to 2022. The measurements are either instantaneous or monthly averages. We train an Artificial Neural Network model (ANN) on these observations, weighted by their relative representativity, and use it to reconstruct T 10m over the entire Greenland ice sheet. We use 10 year averages and mean annual values of air temperature and snowfall from the ERA5 reanalysis dataset (1950–2022) as model input. The ANN indicates a Greenland-wide positive trend of T 10m at 0.2 °C decade -1 during the 1950–2022 period, with a cooling during 1950–1985 (-0.3 °C decade -1 ) followed by a warming during 1985–2022 (+0.7 °C decade -1 ). Regional climate models HIRHAM5, RACMO2.3p2 and MARv3.12 show mixed results compared to the observational T 10m dataset with mean differences ranging from -0.4 °C (HIRHAM) to 1.3 °C (MAR) and root mean squared differences ranging from 2.8 °C (HIRHAM) to 4.7 °C (MAR). The corresponding values for the ANN are -0.2 °C and 1.7 °C. The observation-based ANN also reveals an underestimation of the subsurface warming trends in climate models for the bare ice and dry snow areas. The subsurface warming brings the Greenland ice sheet surface closer to the melting point, reducing the amount of summer energy input required for melting. Our compilation documents the response of the ice sheet subsurface to atmospheric warming and will enable further improvements of models used for ice sheet mass loss assessment and reduce the uncertainty in projections.
format Text
author Vandecrux, Baptiste
Fausto, Robert S.
Box, Jason E.
Covi, Federico
Hock, Regine
Rennermalm, Asa K.
Heilig, Achim
Abermann, Jakob
As, Dirk
Bjerre, Elisa
Fettweis, Xavier
Smeets, Paul C. J. P.
Kuipers Munneke, Peter
Broeke, Michiel R.
Brils, Max
Langen, Peter L.
Mottram, Ruth
Ahlstrøm, Andreas P.
spellingShingle Vandecrux, Baptiste
Fausto, Robert S.
Box, Jason E.
Covi, Federico
Hock, Regine
Rennermalm, Asa K.
Heilig, Achim
Abermann, Jakob
As, Dirk
Bjerre, Elisa
Fettweis, Xavier
Smeets, Paul C. J. P.
Kuipers Munneke, Peter
Broeke, Michiel R.
Brils, Max
Langen, Peter L.
Mottram, Ruth
Ahlstrøm, Andreas P.
Historical snow and ice temperature observations document the recent warming of the Greenland ice sheet
author_facet Vandecrux, Baptiste
Fausto, Robert S.
Box, Jason E.
Covi, Federico
Hock, Regine
Rennermalm, Asa K.
Heilig, Achim
Abermann, Jakob
As, Dirk
Bjerre, Elisa
Fettweis, Xavier
Smeets, Paul C. J. P.
Kuipers Munneke, Peter
Broeke, Michiel R.
Brils, Max
Langen, Peter L.
Mottram, Ruth
Ahlstrøm, Andreas P.
author_sort Vandecrux, Baptiste
title Historical snow and ice temperature observations document the recent warming of the Greenland ice sheet
title_short Historical snow and ice temperature observations document the recent warming of the Greenland ice sheet
title_full Historical snow and ice temperature observations document the recent warming of the Greenland ice sheet
title_fullStr Historical snow and ice temperature observations document the recent warming of the Greenland ice sheet
title_full_unstemmed Historical snow and ice temperature observations document the recent warming of the Greenland ice sheet
title_sort historical snow and ice temperature observations document the recent warming of the greenland ice sheet
publishDate 2023
url https://doi.org/10.5194/tc-2023-105
https://tc.copernicus.org/preprints/tc-2023-105/
geographic Arctic
Greenland
geographic_facet Arctic
Greenland
genre Arctic
Greenland
Ice Sheet
genre_facet Arctic
Greenland
Ice Sheet
op_source eISSN: 1994-0424
op_relation doi:10.5194/tc-2023-105
https://tc.copernicus.org/preprints/tc-2023-105/
op_doi https://doi.org/10.5194/tc-2023-105
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