Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1

Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1

Abstract The Alfred Wegener Institute Climate Model (AWI‐CM) participates for the first time in the Coupled Model Intercomparison Project (CMIP), CMIP6. The sea ice‐ocean component, FESOM, runs on an unstructured mesh with horizontal resolutions ranging from 8 to 80 km. FESOM is coupled to the Max P...

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Main Authors: Tido Semmler, Sergey Danilov, Paul Gierz, Helge F. Goessling, Jan Hegewald, Claudia Hinrichs, Nikolay Koldunov, Narges Khosravi, Longjiang Mu, Thomas Rackow, Dmitry V. Sein, Dmitry Sidorenko, Qiang Wang, Thomas Jung
Format: Article
Language:English
Published: American Geophysical Union (AGU) 2020-09-01
Series:Journal of Advances in Modeling Earth Systems
Subjects:
global climate model
AWI climate model
Coupled Model Intercomparison Project
climate change
unstructured mesh
Online Access:https://doi.org/10.1029/2019MS002009
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spelling doaj-3735bf3495294d16b6296635b3a5d8e82021-06-29T12:52:36ZengAmerican Geophysical Union (AGU)Journal of Advances in Modeling Earth Systems1942-24662020-09-01129n/an/a10.1029/2019MS002009Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1Tido Semmler0Sergey Danilov1Paul Gierz2Helge F. Goessling3Jan Hegewald4Claudia Hinrichs5Nikolay Koldunov6Narges Khosravi7Longjiang Mu8Thomas Rackow9Dmitry V. Sein10Dmitry Sidorenko11Qiang Wang12Thomas Jung13Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAlfred Wegener Institute, Helmholtz Centre for Polar and Marine Research Bremerhaven GermanyAbstract The Alfred Wegener Institute Climate Model (AWI‐CM) participates for the first time in the Coupled Model Intercomparison Project (CMIP), CMIP6. The sea ice‐ocean component, FESOM, runs on an unstructured mesh with horizontal resolutions ranging from 8 to 80 km. FESOM is coupled to the Max Planck Institute atmospheric model ECHAM 6.3 at a horizontal resolution of about 100 km. Using objective performance indices, it is shown that AWI‐CM performs better than the average of CMIP5 models. AWI‐CM shows an equilibrium climate sensitivity of 3.2°C, which is similar to the CMIP5 average, and a transient climate response of 2.1°C which is slightly higher than the CMIP5 average. The negative trend of Arctic sea‐ice extent in September over the past 30 years is 20–30% weaker in our simulations compared to observations. With the strongest emission scenario, the AMOC decreases by 25% until the end of the century which is less than the CMIP5 average of 40%. Patterns and even magnitude of simulated temperature and precipitation changes at the end of this century compared to present‐day climate under the strong emission scenario SSP585 are similar to the multi‐model CMIP5 mean. The simulations show a 11°C warming north of the Barents Sea and around 2°C to 3°C over most parts of the ocean as well as a wetting of the Arctic, subpolar, tropical, and Southern Ocean. Furthermore, in the northern middle latitudes in boreal summer and autumn as well as in the southern middle latitudes, a more zonal atmospheric flow is projected throughout the year.https://doi.org/10.1029/2019MS002009global climate modelAWI climate modelCoupled Model Intercomparison Projectclimate changeunstructured mesh
collection DOAJ
language English
format Article
sources DOAJ
author Tido Semmler
Sergey Danilov
Paul Gierz
Helge F. Goessling
Jan Hegewald
Claudia Hinrichs
Nikolay Koldunov
Narges Khosravi
Longjiang Mu
Thomas Rackow
Dmitry V. Sein
Dmitry Sidorenko
Qiang Wang
Thomas Jung
spellingShingle Tido Semmler
Sergey Danilov
Paul Gierz
Helge F. Goessling
Jan Hegewald
Claudia Hinrichs
Nikolay Koldunov
Narges Khosravi
Longjiang Mu
Thomas Rackow
Dmitry V. Sein
Dmitry Sidorenko
Qiang Wang
Thomas Jung
Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1
Journal of Advances in Modeling Earth Systems
global climate model
AWI climate model
Coupled Model Intercomparison Project
climate change
unstructured mesh
author_facet Tido Semmler
Sergey Danilov
Paul Gierz
Helge F. Goessling
Jan Hegewald
Claudia Hinrichs
Nikolay Koldunov
Narges Khosravi
Longjiang Mu
Thomas Rackow
Dmitry V. Sein
Dmitry Sidorenko
Qiang Wang
Thomas Jung
author_sort Tido Semmler
title Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1
title_short Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1
title_full Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1
title_fullStr Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1
title_full_unstemmed Simulations for CMIP6 With the AWI Climate Model AWI‐CM‐1‐1
title_sort simulations for cmip6 with the awi climate model awi‐cm‐1‐1
publisher American Geophysical Union (AGU)
series Journal of Advances in Modeling Earth Systems
issn 1942-2466
publishDate 2020-09-01
description Abstract The Alfred Wegener Institute Climate Model (AWI‐CM) participates for the first time in the Coupled Model Intercomparison Project (CMIP), CMIP6. The sea ice‐ocean component, FESOM, runs on an unstructured mesh with horizontal resolutions ranging from 8 to 80 km. FESOM is coupled to the Max Planck Institute atmospheric model ECHAM 6.3 at a horizontal resolution of about 100 km. Using objective performance indices, it is shown that AWI‐CM performs better than the average of CMIP5 models. AWI‐CM shows an equilibrium climate sensitivity of 3.2°C, which is similar to the CMIP5 average, and a transient climate response of 2.1°C which is slightly higher than the CMIP5 average. The negative trend of Arctic sea‐ice extent in September over the past 30 years is 20–30% weaker in our simulations compared to observations. With the strongest emission scenario, the AMOC decreases by 25% until the end of the century which is less than the CMIP5 average of 40%. Patterns and even magnitude of simulated temperature and precipitation changes at the end of this century compared to present‐day climate under the strong emission scenario SSP585 are similar to the multi‐model CMIP5 mean. The simulations show a 11°C warming north of the Barents Sea and around 2°C to 3°C over most parts of the ocean as well as a wetting of the Arctic, subpolar, tropical, and Southern Ocean. Furthermore, in the northern middle latitudes in boreal summer and autumn as well as in the southern middle latitudes, a more zonal atmospheric flow is projected throughout the year.
topic global climate model
AWI climate model
Coupled Model Intercomparison Project
climate change
unstructured mesh
url https://doi.org/10.1029/2019MS002009
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