TY - JOUR
T1 - Configuration and spin-up of ACCESS-CM2, the new generation Australian Community Climate and Earth System Simulator Coupled Model
AU - Bi, Daohua
AU - Dix, Martin
AU - Marsland, Simon
AU - O'farrell, Siobhan
AU - Sullivan, Arnold
AU - Bodman, Roger
AU - Law, Rachel
AU - Harman, Ian
AU - Srbinovsky, Jhan
AU - Rashid, Harun A.
AU - Dobrohotoff, Peter
AU - Mackallah, Chloe
AU - Yan, Hailin
AU - Hirst, Anthony
AU - Savita, Abhishek
AU - Dias, Fabio Boeira
AU - Woodhouse, Matthew
AU - Fiedler, Russell
AU - Heerdegen, Aidan
N1 - Publisher Copyright:
© 2020 Journal Compilation BoM 2020 Open Access.
PY - 2020/12
Y1 - 2020/12
N2 - A new version of the Australian Community Climate and Earth System Simulator coupled model, ACCESS-CM2, has been developed for a wide range of climate modelling research and applications. In particular, ACCESS-CM2 is one of Australia's contributions to the World Climate Research Programme's Coupled Model Intercomparison Project Phase 6 (CMIP6). Compared with the ACCESS1.3 model used for our CMIP5 submission, all model components have been upgraded as well as the coupling framework (OASIS3-MCT) and experiment control system (Rose/Cylc). The component models are: UM10.6 GA7.1 for the atmosphere, CABLE2.5 for the land surface, MOM5 for the ocean, and CICE5.1.2 for the sea ice. This paper describes the model configuration of ACCESS-CM2, documents the experimental set up, and assesses the model performance for the preindustrial spin-up simulation in comparison against (reconstructed) observations and ACCESS1.3 results. While the performance of the two generations of the ACCESS coupled model is largely comparable, ACCESS-CM2 shows better global hydrological balance, more realistic ocean water properties (in terms of spatial distribution) and meridional overturning circulation in the Southern Ocean but a poorer simulation of the Antarctic sea ice and a larger energy imbalance at the top of atmosphere. This energy imbalance reflects a noticeable warming trend of the global ocean over the spin-up period.
AB - A new version of the Australian Community Climate and Earth System Simulator coupled model, ACCESS-CM2, has been developed for a wide range of climate modelling research and applications. In particular, ACCESS-CM2 is one of Australia's contributions to the World Climate Research Programme's Coupled Model Intercomparison Project Phase 6 (CMIP6). Compared with the ACCESS1.3 model used for our CMIP5 submission, all model components have been upgraded as well as the coupling framework (OASIS3-MCT) and experiment control system (Rose/Cylc). The component models are: UM10.6 GA7.1 for the atmosphere, CABLE2.5 for the land surface, MOM5 for the ocean, and CICE5.1.2 for the sea ice. This paper describes the model configuration of ACCESS-CM2, documents the experimental set up, and assesses the model performance for the preindustrial spin-up simulation in comparison against (reconstructed) observations and ACCESS1.3 results. While the performance of the two generations of the ACCESS coupled model is largely comparable, ACCESS-CM2 shows better global hydrological balance, more realistic ocean water properties (in terms of spatial distribution) and meridional overturning circulation in the Southern Ocean but a poorer simulation of the Antarctic sea ice and a larger energy imbalance at the top of atmosphere. This energy imbalance reflects a noticeable warming trend of the global ocean over the spin-up period.
KW - ACCESS-CM2
KW - CMIP6
KW - climate change
KW - climate simulation
KW - coupled climate model
KW - evaluation
KW - greenhouse gases
KW - physical configuration
KW - preindustrial spin-up
KW - tuning and debugging
UR - http://www.scopus.com/inward/record.url?scp=85090176225&partnerID=8YFLogxK
U2 - 10.1071/ES19040
DO - 10.1071/ES19040
M3 - Article
SN - 2206-5865
VL - 70
SP - 225
EP - 251
JO - Journal of Southern Hemisphere Earth Systems Science
JF - Journal of Southern Hemisphere Earth Systems Science
IS - 1
ER -