Resolving and Parameterising the Ocean Mesoscale in Earth System Models

Purpose of Review Assessment of the impact of ocean resolution in Earth System models on the mean state, variability, and future projections and discussion of prospects for improved parameterisations to represent the ocean mesoscale. Recent Findings The majority of centres participating in CMIP6 emp...

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Veröffentlicht in:	Current climate change reports 2020-12, Vol.6 (4), p.137-152
Hauptverfasser:	Hewitt, Helene T., Roberts, Malcolm, Mathiot, Pierre, Biastoch, Arne, Blockley, Ed, Chassignet, Eric P., Fox-Kemper, Baylor, Hyder, Pat, Marshall, David P., Popova, Ekaterina, Treguier, Anne-Marie, Zanna, Laure, Yool, Andrew, Yu, Yongqiang, Beadling, Rebecca, Bell, Mike, Kuhlbrodt, Till, Arsouze, Thomas, Bellucci, Alessio, Castruccio, Fred, Gan, Bolan, Putrasahan, Dian, Roberts, Christopher D., Van Roekel, Luke, Zhang, Qiuying
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Schlagworte:	Advances and Future Directions in Earth System Modelling (I Simpson Atlantic Meridional Overturning Circulation (AMOC) Atmospheric Sciences Climate Climate Change Climate Change Management and Policy Climate variability Climatology Components Earth Earth and Environmental Science Environment Future climates General circulation models Heat Mesoscale phenomena Ocean circulation Ocean currents Oceanography Oceans Parameterization Sea level Section Editor Simulation Topical Collection on Advances and Future Directions in Earth System Modelling Variability Vortices
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creator	Hewitt, Helene T. Roberts, Malcolm Mathiot, Pierre Biastoch, Arne Blockley, Ed Chassignet, Eric P. Fox-Kemper, Baylor Hyder, Pat Marshall, David P. Popova, Ekaterina Treguier, Anne-Marie Zanna, Laure Yool, Andrew Yu, Yongqiang Beadling, Rebecca Bell, Mike Kuhlbrodt, Till Arsouze, Thomas Bellucci, Alessio Castruccio, Fred Gan, Bolan Putrasahan, Dian Roberts, Christopher D. Van Roekel, Luke Zhang, Qiuying
description	Purpose of Review Assessment of the impact of ocean resolution in Earth System models on the mean state, variability, and future projections and discussion of prospects for improved parameterisations to represent the ocean mesoscale. Recent Findings The majority of centres participating in CMIP6 employ ocean components with resolutions of about 1 degree in their full Earth System models (eddy-parameterising models). In contrast, there are also models submitted to CMIP6 (both DECK and HighResMIP) that employ ocean components of approximately 1/4 degree and 1/10 degree (eddy-present and eddy-rich models). Evidence to date suggests that whether the ocean mesoscale is explicitly represented or parameterised affects not only the mean state of the ocean but also the climate variability and the future climate response, particularly in terms of the Atlantic meridional overturning circulation (AMOC) and the Southern Ocean. Recent developments in scale-aware parameterisations of the mesoscale are being developed and will be included in future Earth System models. Summary Although the choice of ocean resolution in Earth System models will always be limited by computational considerations, for the foreseeable future, this choice is likely to affect projections of climate variability and change as well as other aspects of the Earth System. Future Earth System models will be able to choose increased ocean resolution and/or improved parameterisation of processes to capture physical processes with greater fidelity.
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Recent Findings The majority of centres participating in CMIP6 employ ocean components with resolutions of about 1 degree in their full Earth System models (eddy-parameterising models). In contrast, there are also models submitted to CMIP6 (both DECK and HighResMIP) that employ ocean components of approximately 1/4 degree and 1/10 degree (eddy-present and eddy-rich models). Evidence to date suggests that whether the ocean mesoscale is explicitly represented or parameterised affects not only the mean state of the ocean but also the climate variability and the future climate response, particularly in terms of the Atlantic meridional overturning circulation (AMOC) and the Southern Ocean. Recent developments in scale-aware parameterisations of the mesoscale are being developed and will be included in future Earth System models. 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Future Earth System models will be able to choose increased ocean resolution and/or improved parameterisation of processes to capture physical processes with greater fidelity.</description><identifier>ISSN: 2198-6061</identifier><identifier>EISSN: 2198-6061</identifier><identifier>DOI: 10.1007/s40641-020-00164-w</identifier><language>eng</language><publisher>Cham: Springer International Publishing</publisher><subject>Advances and Future Directions in Earth System Modelling (I Simpson ; Atlantic Meridional Overturning Circulation (AMOC) ; Atmospheric Sciences ; Climate ; Climate Change ; Climate Change Management and Policy ; Climate variability ; Climatology ; Components ; Earth ; Earth and Environmental Science ; Environment ; Future climates ; General circulation models ; Heat ; Mesoscale phenomena ; Ocean circulation ; Ocean currents ; Oceanography ; Oceans ; Parameterization ; Sea level ; Section Editor ; Simulation ; Topical Collection on Advances and Future Directions in Earth System Modelling ; Variability ; Vortices</subject><ispartof>Current climate change reports, 2020-12, Vol.6 (4), p.137-152</ispartof><rights>The Author(s) 2020. corrected publication 2020</rights><rights>The Author(s) 2020. corrected publication 2020. 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Recent Findings The majority of centres participating in CMIP6 employ ocean components with resolutions of about 1 degree in their full Earth System models (eddy-parameterising models). In contrast, there are also models submitted to CMIP6 (both DECK and HighResMIP) that employ ocean components of approximately 1/4 degree and 1/10 degree (eddy-present and eddy-rich models). Evidence to date suggests that whether the ocean mesoscale is explicitly represented or parameterised affects not only the mean state of the ocean but also the climate variability and the future climate response, particularly in terms of the Atlantic meridional overturning circulation (AMOC) and the Southern Ocean. Recent developments in scale-aware parameterisations of the mesoscale are being developed and will be included in future Earth System models. Summary Although the choice of ocean resolution in Earth System models will always be limited by computational considerations, for the foreseeable future, this choice is likely to affect projections of climate variability and change as well as other aspects of the Earth System. Future Earth System models will be able to choose increased ocean resolution and/or improved parameterisation of processes to capture physical processes with greater fidelity.</description><subject>Advances and Future Directions in Earth System Modelling (I Simpson</subject><subject>Atlantic Meridional Overturning Circulation (AMOC)</subject><subject>Atmospheric Sciences</subject><subject>Climate</subject><subject>Climate Change</subject><subject>Climate Change Management and Policy</subject><subject>Climate variability</subject><subject>Climatology</subject><subject>Components</subject><subject>Earth</subject><subject>Earth and Environmental Science</subject><subject>Environment</subject><subject>Future climates</subject><subject>General circulation models</subject><subject>Heat</subject><subject>Mesoscale phenomena</subject><subject>Ocean circulation</subject><subject>Ocean 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Summary Although the choice of ocean resolution in Earth System models will always be limited by computational considerations, for the foreseeable future, this choice is likely to affect projections of climate variability and change as well as other aspects of the Earth System. Future Earth System models will be able to choose increased ocean resolution and/or improved parameterisation of processes to capture physical processes with greater fidelity.</abstract><cop>Cham</cop><pub>Springer International Publishing</pub><doi>10.1007/s40641-020-00164-w</doi><tpages>16</tpages><orcidid>https://orcid.org/0000-0001-7432-6001</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Advances and Future Directions in Earth System Modelling (I Simpson Atlantic Meridional Overturning Circulation (AMOC) Atmospheric Sciences Climate Climate Change Climate Change Management and Policy Climate variability Climatology Components Earth Earth and Environmental Science Environment Future climates General circulation models Heat Mesoscale phenomena Ocean circulation Ocean currents Oceanography Oceans Parameterization Sea level Section Editor Simulation Topical Collection on Advances and Future Directions in Earth System Modelling Variability Vortices
title	Resolving and Parameterising the Ocean Mesoscale in Earth System Models
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