The future of sea ice modelling: where do we go from here?

Earth System Models (ESMs) include a sea ice component to physically represent sea ice changes and impacts on planetary albedo and ocean circulation (Manabe & Stouffer, 1980). Most contemporary sea ice models describe the sea ice pack as a continuum material, a principle laid by the AIDJEX (Arct...

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Published in:Bulletin of the American Meteorological Society
Main Authors: Blockley, Ed, Vancoppenolle, Martin, Hunke, Elizabeth, Bitz, Cecilia, Feltham, Daniel, Lemieux, Jean-François, Losch, Martin, Maisonnave, Eric, Notz, Dirk, Rampal, Pierre, Tietsche, Steffen, Tremblay, Bruno, Turner, Adrian, Massonnet, François, Ólason, Einar, Roberts, Andrew, Aksenov, Yevgeny, Fichefet, Thierry, Garric, Gilles, Iovino, Doroteaciro, Madec, Gurvan, Rousset, Clement, Salas y Melia, David, Schroeder, David
Format: Article in Journal/Newspaper
Language:English
Published: American Meteorological Society 2020
Subjects:
Arctic
Laugarvatn
albedo
ice pack
Iceland
Sea ice
Online Access:https://centaur.reading.ac.uk/91295/
https://centaur.reading.ac.uk/91295/1/bamsd200073.pdf
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spelling ftunivreading:oai:centaur.reading.ac.uk:91295 2024-06-23T07:45:09+00:00 The future of sea ice modelling: where do we go from here? Blockley, Ed Vancoppenolle, Martin Hunke, Elizabeth Bitz, Cecilia Feltham, Daniel Lemieux, Jean-François Losch, Martin Maisonnave, Eric Notz, Dirk Rampal, Pierre Tietsche, Steffen Tremblay, Bruno Turner, Adrian Massonnet, François Ólason, Einar Roberts, Andrew Aksenov, Yevgeny Fichefet, Thierry Garric, Gilles Iovino, Doroteaciro Madec, Gurvan Rousset, Clement Salas y Melia, David Schroeder, David 2020-08 text https://centaur.reading.ac.uk/91295/ https://centaur.reading.ac.uk/91295/1/bamsd200073.pdf en eng American Meteorological Society https://centaur.reading.ac.uk/91295/1/bamsd200073.pdf Blockley, E., Vancoppenolle, M., Hunke, E., Bitz, C., Feltham, D. <https://centaur.reading.ac.uk/view/creators/90004991.html> orcid:0000-0003-2289-014X , Lemieux, J.-F., Losch, M., Maisonnave, E., Notz, D., Rampal, P., Tietsche, S. <https://centaur.reading.ac.uk/view/creators/90004675.html>, Tremblay, B., Turner, A., Massonnet, F., Ólason, E., Roberts, A., Aksenov, Y., Fichefet, T., Garric, G., Iovino, D., Madec, G., Rousset, C., Salas y Melia, D. and Schroeder, D. <https://centaur.reading.ac.uk/view/creators/90005031.html> orcid:0000-0003-2351-4306 (2020) The future of sea ice modelling: where do we go from here? Bulletin of the American Meteorological Society, 101 (8). E1304-E1311. ISSN 1520-0477 doi: https://doi.org/10.1175/BAMS-D-20-0073.1 <https://doi.org/10.1175/BAMS-D-20-0073.1> Article PeerReviewed 2020 ftunivreading 2024-06-11T15:10:14Z Earth System Models (ESMs) include a sea ice component to physically represent sea ice changes and impacts on planetary albedo and ocean circulation (Manabe & Stouffer, 1980). Most contemporary sea ice models describe the sea ice pack as a continuum material, a principle laid by the AIDJEX (Arctic Ice Dynamics Joint EXperiment) group in the 1970s (Pritchard, 1980). Initially intended for climate studies, the sea ice components in ESMs are now used across a wide range of resolutions, including very high resolutions more than 100 times finer than those they were designed for, in an increasingly wide range of applications that challenge the AIDJEX model foundations (Coon et al., 2007), including operational weather and marine forecasts. It is therefore sensible to question the applicability of contemporary sea ice models to these applications. Are there better alternatives available? Large advances in high performance computing (HPC) have been made over the last few decades and this trend will continue. What constraints and opportunities will these HPC changes provide for contemporary sea ice models? Can continuum models scale well for use in exascale computing? To address these important questions, members of the sea ice modelling community met in September 2019 for a workshop in Laugarvatn, Iceland. Thirty-two sea ice modelling scientists from 11 countries across Europe and North America attended, spanning 3 key areas: (i) developers of sea-ice models; (ii) users of sea-ice models in an ESM context; (iii) users of sea64 ice models for operational forecasting and (re)analyses. The workshop was structured around 2 key themes: 1. Scientific and technical validity and limitations of the physics and numerical approaches used in the current models 2. Physical processes and complexity: bridging the gap between weather and climate requirements For each theme, 5 keynote speakers were invited to address the motivating questions and stimulate debate. Further details can be found in the Supplementary Material. Article in Journal/Newspaper albedo Arctic ice pack Iceland Sea ice CentAUR: Central Archive at the University of Reading Arctic Laugarvatn ENVELOPE(-20.711,-20.711,64.210,64.210) Bulletin of the American Meteorological Society 101 8 E1304 E1311
institution Open Polar
collection CentAUR: Central Archive at the University of Reading
op_collection_id ftunivreading
language English
description Earth System Models (ESMs) include a sea ice component to physically represent sea ice changes and impacts on planetary albedo and ocean circulation (Manabe & Stouffer, 1980). Most contemporary sea ice models describe the sea ice pack as a continuum material, a principle laid by the AIDJEX (Arctic Ice Dynamics Joint EXperiment) group in the 1970s (Pritchard, 1980). Initially intended for climate studies, the sea ice components in ESMs are now used across a wide range of resolutions, including very high resolutions more than 100 times finer than those they were designed for, in an increasingly wide range of applications that challenge the AIDJEX model foundations (Coon et al., 2007), including operational weather and marine forecasts. It is therefore sensible to question the applicability of contemporary sea ice models to these applications. Are there better alternatives available? Large advances in high performance computing (HPC) have been made over the last few decades and this trend will continue. What constraints and opportunities will these HPC changes provide for contemporary sea ice models? Can continuum models scale well for use in exascale computing? To address these important questions, members of the sea ice modelling community met in September 2019 for a workshop in Laugarvatn, Iceland. Thirty-two sea ice modelling scientists from 11 countries across Europe and North America attended, spanning 3 key areas: (i) developers of sea-ice models; (ii) users of sea-ice models in an ESM context; (iii) users of sea64 ice models for operational forecasting and (re)analyses. The workshop was structured around 2 key themes: 1. Scientific and technical validity and limitations of the physics and numerical approaches used in the current models 2. Physical processes and complexity: bridging the gap between weather and climate requirements For each theme, 5 keynote speakers were invited to address the motivating questions and stimulate debate. Further details can be found in the Supplementary Material.
format Article in Journal/Newspaper
author Blockley, Ed
Vancoppenolle, Martin
Hunke, Elizabeth
Bitz, Cecilia
Feltham, Daniel
Lemieux, Jean-François
Losch, Martin
Maisonnave, Eric
Notz, Dirk
Rampal, Pierre
Tietsche, Steffen
Tremblay, Bruno
Turner, Adrian
Massonnet, François
Ólason, Einar
Roberts, Andrew
Aksenov, Yevgeny
Fichefet, Thierry
Garric, Gilles
Iovino, Doroteaciro
Madec, Gurvan
Rousset, Clement
Salas y Melia, David
Schroeder, David
spellingShingle Blockley, Ed
Vancoppenolle, Martin
Hunke, Elizabeth
Bitz, Cecilia
Feltham, Daniel
Lemieux, Jean-François
Losch, Martin
Maisonnave, Eric
Notz, Dirk
Rampal, Pierre
Tietsche, Steffen
Tremblay, Bruno
Turner, Adrian
Massonnet, François
Ólason, Einar
Roberts, Andrew
Aksenov, Yevgeny
Fichefet, Thierry
Garric, Gilles
Iovino, Doroteaciro
Madec, Gurvan
Rousset, Clement
Salas y Melia, David
Schroeder, David
The future of sea ice modelling: where do we go from here?
author_facet Blockley, Ed
Vancoppenolle, Martin
Hunke, Elizabeth
Bitz, Cecilia
Feltham, Daniel
Lemieux, Jean-François
Losch, Martin
Maisonnave, Eric
Notz, Dirk
Rampal, Pierre
Tietsche, Steffen
Tremblay, Bruno
Turner, Adrian
Massonnet, François
Ólason, Einar
Roberts, Andrew
Aksenov, Yevgeny
Fichefet, Thierry
Garric, Gilles
Iovino, Doroteaciro
Madec, Gurvan
Rousset, Clement
Salas y Melia, David
Schroeder, David
author_sort Blockley, Ed
title The future of sea ice modelling: where do we go from here?
title_short The future of sea ice modelling: where do we go from here?
title_full The future of sea ice modelling: where do we go from here?
title_fullStr The future of sea ice modelling: where do we go from here?
title_full_unstemmed The future of sea ice modelling: where do we go from here?
title_sort future of sea ice modelling: where do we go from here?
publisher American Meteorological Society
publishDate 2020
url https://centaur.reading.ac.uk/91295/
https://centaur.reading.ac.uk/91295/1/bamsd200073.pdf
long_lat ENVELOPE(-20.711,-20.711,64.210,64.210)
geographic Arctic
Laugarvatn
geographic_facet Arctic
Laugarvatn
genre albedo
Arctic
ice pack
Iceland
Sea ice
genre_facet albedo
Arctic
ice pack
Iceland
Sea ice
op_relation https://centaur.reading.ac.uk/91295/1/bamsd200073.pdf
Blockley, E., Vancoppenolle, M., Hunke, E., Bitz, C., Feltham, D. <https://centaur.reading.ac.uk/view/creators/90004991.html> orcid:0000-0003-2289-014X , Lemieux, J.-F., Losch, M., Maisonnave, E., Notz, D., Rampal, P., Tietsche, S. <https://centaur.reading.ac.uk/view/creators/90004675.html>, Tremblay, B., Turner, A., Massonnet, F., Ólason, E., Roberts, A., Aksenov, Y., Fichefet, T., Garric, G., Iovino, D., Madec, G., Rousset, C., Salas y Melia, D. and Schroeder, D. <https://centaur.reading.ac.uk/view/creators/90005031.html> orcid:0000-0003-2351-4306 (2020) The future of sea ice modelling: where do we go from here? Bulletin of the American Meteorological Society, 101 (8). E1304-E1311. ISSN 1520-0477 doi: https://doi.org/10.1175/BAMS-D-20-0073.1 <https://doi.org/10.1175/BAMS-D-20-0073.1>
container_title Bulletin of the American Meteorological Society
container_volume 101
container_issue 8
container_start_page E1304
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