An ice sheet model validation framework for the Greenland ice sheet

We propose a new ice sheet model validation framework – the Cryospheric Model Comparison Tool (CmCt) – that takes advantage of ice sheet altimetry and gravimetry observations collected over the past several decades and is applied here to modeling of the Greenland ice sheet. We use realistic simulati...

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Published in:Geoscientific Model Development
Main Authors: Price, Stephen F., Hoffman, Matthew J., Bonin, Jennifer A., Howat, Ian M., Neumann, Thomas, Saba, Jack, Tezaur, Irina, Guerber, Jeffrey, Chambers, Don P., Evans, Katherine J., Kennedy, Joseph H., Lenaerts, Jan, Lipscomb, William H., Perego, Mauro, Salinger, Andrew G., Tuminaro, Raymond S., van den Broeke, Michiel R., Nowicki, Sophie M. J.
Format: Text
Language:English
Published: 2017
Subjects:
Article
Greenland
glacier
Ice Sheet
Online Access:http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5911937/
https://doi.org/10.5194/gmd-10-255-2017
id ftpubmed:oai:pubmedcentral.nih.gov:5911937
record_format openpolar
spelling ftpubmed:oai:pubmedcentral.nih.gov:5911937 2023-05-15T16:21:27+02:00 An ice sheet model validation framework for the Greenland ice sheet Price, Stephen F. Hoffman, Matthew J. Bonin, Jennifer A. Howat, Ian M. Neumann, Thomas Saba, Jack Tezaur, Irina Guerber, Jeffrey Chambers, Don P. Evans, Katherine J. Kennedy, Joseph H. Lenaerts, Jan Lipscomb, William H. Perego, Mauro Salinger, Andrew G. Tuminaro, Raymond S. van den Broeke, Michiel R. Nowicki, Sophie M. J. 2017-01-17 http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5911937/ https://doi.org/10.5194/gmd-10-255-2017 en eng http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5911937/ http://dx.doi.org/10.5194/gmd-10-255-2017 Article Text 2017 ftpubmed https://doi.org/10.5194/gmd-10-255-2017 2018-04-29T00:17:58Z We propose a new ice sheet model validation framework – the Cryospheric Model Comparison Tool (CmCt) – that takes advantage of ice sheet altimetry and gravimetry observations collected over the past several decades and is applied here to modeling of the Greenland ice sheet. We use realistic simulations performed with the Community Ice Sheet Model (CISM) along with two idealized, non-dynamic models to demonstrate the framework and its use. Dynamic simulations with CISM are forced from 1991 to 2013 using combinations of reanalysis-based surface mass balance and observations of outlet glacier flux change. We propose and demonstrate qualitative and quantitative metrics for use in evaluating the different model simulations against the observations. We find that the altimetry observations used here are largely ambiguous in terms of their ability to distinguish one simulation from another. Based on basin- and whole-ice-sheet scale metrics, we find that simulations using both idealized conceptual models and dynamic, numerical models provide an equally reasonable representation of the ice sheet surface (mean elevation differences of <1 m). This is likely due to their short period of record, biases inherent to digital elevation models used for model initial conditions, and biases resulting from firn dynamics, which are not explicitly accounted for in the models or observations. On the other hand, we find that the gravimetry observations used here are able to unambiguously distinguish between simulations of varying complexity, and along with the CmCt, can provide a quantitative score for assessing a particular model and/or simulation. The new framework demonstrates that our proposed metrics can distinguish relatively better from relatively worse simulations and that dynamic ice sheet models, when appropriately initialized and forced with the right boundary conditions, demonstrate predictive skill with respect to observed dynamic changes occurring on Greenland over the past few decades. An extensible design will allow ... Text glacier Greenland Ice Sheet PubMed Central (PMC) Greenland Geoscientific Model Development 10 1 255 270
institution Open Polar
collection PubMed Central (PMC)
op_collection_id ftpubmed
language English
topic Article
spellingShingle Article
Price, Stephen F.
Hoffman, Matthew J.
Bonin, Jennifer A.
Howat, Ian M.
Neumann, Thomas
Saba, Jack
Tezaur, Irina
Guerber, Jeffrey
Chambers, Don P.
Evans, Katherine J.
Kennedy, Joseph H.
Lenaerts, Jan
Lipscomb, William H.
Perego, Mauro
Salinger, Andrew G.
Tuminaro, Raymond S.
van den Broeke, Michiel R.
Nowicki, Sophie M. J.
An ice sheet model validation framework for the Greenland ice sheet
topic_facet Article
description We propose a new ice sheet model validation framework – the Cryospheric Model Comparison Tool (CmCt) – that takes advantage of ice sheet altimetry and gravimetry observations collected over the past several decades and is applied here to modeling of the Greenland ice sheet. We use realistic simulations performed with the Community Ice Sheet Model (CISM) along with two idealized, non-dynamic models to demonstrate the framework and its use. Dynamic simulations with CISM are forced from 1991 to 2013 using combinations of reanalysis-based surface mass balance and observations of outlet glacier flux change. We propose and demonstrate qualitative and quantitative metrics for use in evaluating the different model simulations against the observations. We find that the altimetry observations used here are largely ambiguous in terms of their ability to distinguish one simulation from another. Based on basin- and whole-ice-sheet scale metrics, we find that simulations using both idealized conceptual models and dynamic, numerical models provide an equally reasonable representation of the ice sheet surface (mean elevation differences of <1 m). This is likely due to their short period of record, biases inherent to digital elevation models used for model initial conditions, and biases resulting from firn dynamics, which are not explicitly accounted for in the models or observations. On the other hand, we find that the gravimetry observations used here are able to unambiguously distinguish between simulations of varying complexity, and along with the CmCt, can provide a quantitative score for assessing a particular model and/or simulation. The new framework demonstrates that our proposed metrics can distinguish relatively better from relatively worse simulations and that dynamic ice sheet models, when appropriately initialized and forced with the right boundary conditions, demonstrate predictive skill with respect to observed dynamic changes occurring on Greenland over the past few decades. An extensible design will allow ...
format Text
author Price, Stephen F.
Hoffman, Matthew J.
Bonin, Jennifer A.
Howat, Ian M.
Neumann, Thomas
Saba, Jack
Tezaur, Irina
Guerber, Jeffrey
Chambers, Don P.
Evans, Katherine J.
Kennedy, Joseph H.
Lenaerts, Jan
Lipscomb, William H.
Perego, Mauro
Salinger, Andrew G.
Tuminaro, Raymond S.
van den Broeke, Michiel R.
Nowicki, Sophie M. J.
author_facet Price, Stephen F.
Hoffman, Matthew J.
Bonin, Jennifer A.
Howat, Ian M.
Neumann, Thomas
Saba, Jack
Tezaur, Irina
Guerber, Jeffrey
Chambers, Don P.
Evans, Katherine J.
Kennedy, Joseph H.
Lenaerts, Jan
Lipscomb, William H.
Perego, Mauro
Salinger, Andrew G.
Tuminaro, Raymond S.
van den Broeke, Michiel R.
Nowicki, Sophie M. J.
author_sort Price, Stephen F.
title An ice sheet model validation framework for the Greenland ice sheet
title_short An ice sheet model validation framework for the Greenland ice sheet
title_full An ice sheet model validation framework for the Greenland ice sheet
title_fullStr An ice sheet model validation framework for the Greenland ice sheet
title_full_unstemmed An ice sheet model validation framework for the Greenland ice sheet
title_sort ice sheet model validation framework for the greenland ice sheet
publishDate 2017
url http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5911937/
https://doi.org/10.5194/gmd-10-255-2017
geographic Greenland
geographic_facet Greenland
genre glacier
Greenland
Ice Sheet
genre_facet glacier
Greenland
Ice Sheet
op_relation http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5911937/
http://dx.doi.org/10.5194/gmd-10-255-2017
op_doi https://doi.org/10.5194/gmd-10-255-2017
container_title Geoscientific Model Development
container_volume 10
container_issue 1
container_start_page 255
op_container_end_page 270
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