GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet

Observations and models agree that the Greenland Ice Sheet (GrIS) surface mass balance (SMB) has decreased since the end of the 1990s due to an increase in meltwater runoff and that this trend will accelerate in the future. However, large uncertainties remain, partly due to different approaches for...

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Published in:The Cryosphere
Main Authors: Fettweis, Xavier, Hofer, Stefan, Krebs-Kanzow, Uta, Amory, Charles, Aoki, Teruo, Berends, Constantijn J., Born, Andreas, Box, Jason E., Delhasse, Alison, Fujita, Koji, Gierz, Paul, Goelzer, Heiko, Hanna, Edward, Hashimoto, Akihiro, Huybrechts, Philippe, Kapsch, Marie-Luise, King, Michaela D., Kittel, Christoph, Lang, Charlotte, Langen, Peter L., Lenaerts, Jan T.M., Liston, Glen E., Lohmann, Gerrit, Mernild, Jacob Sebastian Haugaard, Mikolajewicz, Uwe, Modali, Kameswarrao, Mottram, Ruth H., Niwano, Masashi, Noël, Brice, Ryan, Jonathan C., Smith, Amy, Streffing, Jan, Tedesco, Marco, Van de Berg, Willem Jan, Van den Broeke, Michiel, Van de Wal, Rodecrick S., Von Kampenhout, Leo, Wilton, David, Wouters, Bert, Ziemen, Florian, Zolles, Tobias
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications under license by EGU – European Geosciences Union GmbH 2020
Subjects:
Greenland
Ice Sheet
The Cryosphere
Online Access:http://hdl.handle.net/10852/81412
http://urn.nb.no/URN:NBN:no-84500
https://doi.org/10.5194/tc-14-3935-2020
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institution Open Polar
collection Universitet i Oslo: Digitale utgivelser ved UiO (DUO)
op_collection_id ftoslouniv
language English
description Observations and models agree that the Greenland Ice Sheet (GrIS) surface mass balance (SMB) has decreased since the end of the 1990s due to an increase in meltwater runoff and that this trend will accelerate in the future. However, large uncertainties remain, partly due to different approaches for modelling the GrIS SMB, which have to weigh physical complexity or low computing time, different spatial and temporal resolutions, different forcing fields, and different ice sheet topographies and extents, which collectively make an inter-comparison difficult. Our GrIS SMB model intercomparison project (GrSMBMIP) aims to refine these uncertainties by intercomparing 13 models of four types which were forced with the same ERA-Interim reanalysis forcing fields, except for two global models. We interpolate all modelled SMB fields onto a common ice sheet mask at 1 km horizontal resolution for the period 1980–2012 and score the outputs against (1) SMB estimates from a combination of gravimetric remote sensing data from GRACE and measured ice discharge; (2) ice cores, snow pits and in situ SMB observations; and (3) remotely sensed bare ice extent from MODerate-resolution Imaging Spectroradiometer (MODIS). Spatially, the largest spread among models can be found around the margins of the ice sheet, highlighting model deficiencies in an accurate representation of the GrIS ablation zone extent and processes related to surface melt and runoff. Overall, polar regional climate models (RCMs) perform the best compared to observations, in particular for simulating precipitation patterns. However, other simpler and faster models have biases of the same order as RCMs compared with observations and therefore remain useful tools for long-term simulations or coupling with ice sheet models. Finally, it is interesting to note that the ensemble mean of the 13 models produces the best estimate of the present-day SMB relative to observations, suggesting that biases are not systematic among models and that this ensemble estimate can be used as a reference for current climate when carrying out future model developments. However, a higher density of in situ SMB observations is required, especially in the south-east accumulation zone, where the model spread can reach 2 m w.e. yr−1 due to large discrepancies in modelled snowfall accumulation.
format Article in Journal/Newspaper
author Fettweis, Xavier
Hofer, Stefan
Krebs-Kanzow, Uta
Amory, Charles
Aoki, Teruo
Berends, Constantijn J.
Born, Andreas
Box, Jason E.
Delhasse, Alison
Fujita, Koji
Gierz, Paul
Goelzer, Heiko
Hanna, Edward
Hashimoto, Akihiro
Huybrechts, Philippe
Kapsch, Marie-Luise
King, Michaela D.
Kittel, Christoph
Lang, Charlotte
Langen, Peter L.
Lenaerts, Jan T.M.
Liston, Glen E.
Lohmann, Gerrit
Mernild, Jacob Sebastian Haugaard
Mikolajewicz, Uwe
Modali, Kameswarrao
Mottram, Ruth H.
Niwano, Masashi
Noël, Brice
Ryan, Jonathan C.
Smith, Amy
Streffing, Jan
Tedesco, Marco
Van de Berg, Willem Jan
Van den Broeke, Michiel
Van de Wal, Rodecrick S.
Von Kampenhout, Leo
Wilton, David
Wouters, Bert
Ziemen, Florian
Zolles, Tobias
spellingShingle Fettweis, Xavier
Hofer, Stefan
Krebs-Kanzow, Uta
Amory, Charles
Aoki, Teruo
Berends, Constantijn J.
Born, Andreas
Box, Jason E.
Delhasse, Alison
Fujita, Koji
Gierz, Paul
Goelzer, Heiko
Hanna, Edward
Hashimoto, Akihiro
Huybrechts, Philippe
Kapsch, Marie-Luise
King, Michaela D.
Kittel, Christoph
Lang, Charlotte
Langen, Peter L.
Lenaerts, Jan T.M.
Liston, Glen E.
Lohmann, Gerrit
Mernild, Jacob Sebastian Haugaard
Mikolajewicz, Uwe
Modali, Kameswarrao
Mottram, Ruth H.
Niwano, Masashi
Noël, Brice
Ryan, Jonathan C.
Smith, Amy
Streffing, Jan
Tedesco, Marco
Van de Berg, Willem Jan
Van den Broeke, Michiel
Van de Wal, Rodecrick S.
Von Kampenhout, Leo
Wilton, David
Wouters, Bert
Ziemen, Florian
Zolles, Tobias
GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet
author_facet Fettweis, Xavier
Hofer, Stefan
Krebs-Kanzow, Uta
Amory, Charles
Aoki, Teruo
Berends, Constantijn J.
Born, Andreas
Box, Jason E.
Delhasse, Alison
Fujita, Koji
Gierz, Paul
Goelzer, Heiko
Hanna, Edward
Hashimoto, Akihiro
Huybrechts, Philippe
Kapsch, Marie-Luise
King, Michaela D.
Kittel, Christoph
Lang, Charlotte
Langen, Peter L.
Lenaerts, Jan T.M.
Liston, Glen E.
Lohmann, Gerrit
Mernild, Jacob Sebastian Haugaard
Mikolajewicz, Uwe
Modali, Kameswarrao
Mottram, Ruth H.
Niwano, Masashi
Noël, Brice
Ryan, Jonathan C.
Smith, Amy
Streffing, Jan
Tedesco, Marco
Van de Berg, Willem Jan
Van den Broeke, Michiel
Van de Wal, Rodecrick S.
Von Kampenhout, Leo
Wilton, David
Wouters, Bert
Ziemen, Florian
Zolles, Tobias
author_sort Fettweis, Xavier
title GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet
title_short GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet
title_full GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet
title_fullStr GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet
title_full_unstemmed GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet
title_sort grsmbmip: intercomparison of the modelled 1980-2012 surface mass balance over the greenland ice sheet
publisher Copernicus Publications under license by EGU – European Geosciences Union GmbH
publishDate 2020
url http://hdl.handle.net/10852/81412
http://urn.nb.no/URN:NBN:no-84500
https://doi.org/10.5194/tc-14-3935-2020
geographic Greenland
geographic_facet Greenland
genre Greenland
Ice Sheet
The Cryosphere
genre_facet Greenland
Ice Sheet
The Cryosphere
op_source 1994-0416
op_relation http://urn.nb.no/URN:NBN:no-84500
Fettweis, Xavier Hofer, Stefan Krebs-Kanzow, Uta Amory, Charles Aoki, Teruo Berends, Constantijn J. Born, Andreas Box, Jason E. Delhasse, Alison Fujita, Koji Gierz, Paul Goelzer, Heiko Hanna, Edward Hashimoto, Akihiro Huybrechts, Philippe Kapsch, Marie-Luise King, Michaela D. Kittel, Christoph Lang, Charlotte Langen, Peter L. Lenaerts, Jan T.M. Liston, Glen E. Lohmann, Gerrit Mernild, Jacob Sebastian Haugaard Mikolajewicz, Uwe Modali, Kameswarrao Mottram, Ruth H. Niwano, Masashi Noël, Brice Ryan, Jonathan C. Smith, Amy Streffing, Jan Tedesco, Marco Van de Berg, Willem Jan Van den Broeke, Michiel Van de Wal, Rodecrick S. Von Kampenhout, Leo Wilton, David Wouters, Bert Ziemen, Florian Zolles, Tobias . GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet. The Cryosphere. 2020, 14, 3935-3958
http://hdl.handle.net/10852/81412
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spelling ftoslouniv:oai:www.duo.uio.no:10852/81412 2023-05-15T16:29:08+02:00 GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet Fettweis, Xavier Hofer, Stefan Krebs-Kanzow, Uta Amory, Charles Aoki, Teruo Berends, Constantijn J. Born, Andreas Box, Jason E. Delhasse, Alison Fujita, Koji Gierz, Paul Goelzer, Heiko Hanna, Edward Hashimoto, Akihiro Huybrechts, Philippe Kapsch, Marie-Luise King, Michaela D. Kittel, Christoph Lang, Charlotte Langen, Peter L. Lenaerts, Jan T.M. Liston, Glen E. Lohmann, Gerrit Mernild, Jacob Sebastian Haugaard Mikolajewicz, Uwe Modali, Kameswarrao Mottram, Ruth H. Niwano, Masashi Noël, Brice Ryan, Jonathan C. Smith, Amy Streffing, Jan Tedesco, Marco Van de Berg, Willem Jan Van den Broeke, Michiel Van de Wal, Rodecrick S. Von Kampenhout, Leo Wilton, David Wouters, Bert Ziemen, Florian Zolles, Tobias 2020-11-16T09:31:28Z http://hdl.handle.net/10852/81412 http://urn.nb.no/URN:NBN:no-84500 https://doi.org/10.5194/tc-14-3935-2020 EN eng Copernicus Publications under license by EGU – European Geosciences Union GmbH http://urn.nb.no/URN:NBN:no-84500 Fettweis, Xavier Hofer, Stefan Krebs-Kanzow, Uta Amory, Charles Aoki, Teruo Berends, Constantijn J. Born, Andreas Box, Jason E. Delhasse, Alison Fujita, Koji Gierz, Paul Goelzer, Heiko Hanna, Edward Hashimoto, Akihiro Huybrechts, Philippe Kapsch, Marie-Luise King, Michaela D. Kittel, Christoph Lang, Charlotte Langen, Peter L. Lenaerts, Jan T.M. Liston, Glen E. Lohmann, Gerrit Mernild, Jacob Sebastian Haugaard Mikolajewicz, Uwe Modali, Kameswarrao Mottram, Ruth H. Niwano, Masashi Noël, Brice Ryan, Jonathan C. Smith, Amy Streffing, Jan Tedesco, Marco Van de Berg, Willem Jan Van den Broeke, Michiel Van de Wal, Rodecrick S. Von Kampenhout, Leo Wilton, David Wouters, Bert Ziemen, Florian Zolles, Tobias . GrSMBMIP: intercomparison of the modelled 1980-2012 surface mass balance over the Greenland Ice Sheet. The Cryosphere. 2020, 14, 3935-3958 http://hdl.handle.net/10852/81412 1848186 info:ofi/fmt:kev:mtx:ctx&ctx_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:journal&rft.jtitle=The Cryosphere&rft.volume=14&rft.spage=3935&rft.date=2020 The Cryosphere 14 11 3935 3958 https://doi.org/10.5194/tc-14-3935-2020 URN:NBN:no-84500 Fulltext https://www.duo.uio.no/bitstream/handle/10852/81412/2/tc-14-3935-2020.pdf Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/ CC-BY 1994-0416 Journal article Tidsskriftartikkel Peer reviewed PublishedVersion 2020 ftoslouniv https://doi.org/10.5194/tc-14-3935-2020 2020-12-09T23:30:47Z Observations and models agree that the Greenland Ice Sheet (GrIS) surface mass balance (SMB) has decreased since the end of the 1990s due to an increase in meltwater runoff and that this trend will accelerate in the future. However, large uncertainties remain, partly due to different approaches for modelling the GrIS SMB, which have to weigh physical complexity or low computing time, different spatial and temporal resolutions, different forcing fields, and different ice sheet topographies and extents, which collectively make an inter-comparison difficult. Our GrIS SMB model intercomparison project (GrSMBMIP) aims to refine these uncertainties by intercomparing 13 models of four types which were forced with the same ERA-Interim reanalysis forcing fields, except for two global models. We interpolate all modelled SMB fields onto a common ice sheet mask at 1 km horizontal resolution for the period 1980–2012 and score the outputs against (1) SMB estimates from a combination of gravimetric remote sensing data from GRACE and measured ice discharge; (2) ice cores, snow pits and in situ SMB observations; and (3) remotely sensed bare ice extent from MODerate-resolution Imaging Spectroradiometer (MODIS). Spatially, the largest spread among models can be found around the margins of the ice sheet, highlighting model deficiencies in an accurate representation of the GrIS ablation zone extent and processes related to surface melt and runoff. Overall, polar regional climate models (RCMs) perform the best compared to observations, in particular for simulating precipitation patterns. However, other simpler and faster models have biases of the same order as RCMs compared with observations and therefore remain useful tools for long-term simulations or coupling with ice sheet models. Finally, it is interesting to note that the ensemble mean of the 13 models produces the best estimate of the present-day SMB relative to observations, suggesting that biases are not systematic among models and that this ensemble estimate can be used as a reference for current climate when carrying out future model developments. However, a higher density of in situ SMB observations is required, especially in the south-east accumulation zone, where the model spread can reach 2 m w.e. yr−1 due to large discrepancies in modelled snowfall accumulation. Article in Journal/Newspaper Greenland Ice Sheet The Cryosphere Universitet i Oslo: Digitale utgivelser ved UiO (DUO) Greenland The Cryosphere 14 11 3935 3958

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