1. Overview of the Norwegian Earth System Model (NorESM2) and key climate response of CMIP6 DECK, historical, and scenario simulations
- Author
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Mats Bentsen, Jens Boldingh Debernard, Jan Griesfeller, Yanchun He, Yuanchao Fan, Kine Onsum Moseid, Lise Seland Graff, Alok Kumar Gupta, Ingo Bethke, Ada Gjermundsen, Thomas Toniazzo, Hui Tang, Oskar Landgren, Jerry Tjiputra, Michael Schulz, Trond Iversen, Dirk Jan Leo Oliviè, Zhongshi Zhang, Øyvind Seland, Kjetil Schanke Aas, Aleksi Nummelin, Johan Liakka, Alf Kirkevåg, Chuncheng Guo, Mehmet Ilicak, Clemens Spensberger, Jörg Schwinger, Inger Helene Hafsahl Karset, Alf Grini, and Christoph Heinze
- Subjects
Physics ,Coupled model intercomparison project ,010504 meteorology & atmospheric sciences ,lcsh:QE1-996.5 ,Forcing (mathematics) ,Albedo ,010502 geochemistry & geophysics ,7. Clean energy ,01 natural sciences ,lcsh:Geology ,Atmosphere ,Energy conservation ,Arctic ,13. Climate action ,Greenhouse gas ,Climatology ,Climate sensitivity ,14. Life underwater ,0105 earth and related environmental sciences - Abstract
The second version of the coupled Norwegian Earth System Model (NorESM2) is presented and evaluated. NorESM2 is based on the second version of the Community Earth System Model (CESM2) and shares with CESM2 the computer code infrastructure and many Earth system model components. However, NorESM2 employs entirely different ocean and ocean biogeochemistry models. The atmosphere component of NorESM2 (CAM-Nor) includes a different module for aerosol physics and chemistry, including interactions with cloud and radiation; additionally, CAM-Nor includes improvements in the formulation of local dry and moist energy conservation, in local and global angular momentum conservation, and in the computations for deep convection and air–sea fluxes. The surface components of NorESM2 have minor changes in the albedo calculations and to land and sea-ice models. We present results from simulations with NorESM2 that were carried out for the sixth phase of the Coupled Model Intercomparison Project (CMIP6). Two versions of the model are used: one with lower (∼ 2∘) atmosphere–land resolution and one with medium (∼ 1∘) atmosphere–land resolution. The stability of the pre-industrial climate and the sensitivity of the model to abrupt and gradual quadrupling of CO2 are assessed, along with the ability of the model to simulate the historical climate under the CMIP6 forcings. Compared to observations and reanalyses, NorESM2 represents an improvement over previous versions of NorESM in most aspects. NorESM2 appears less sensitive to greenhouse gas forcing than its predecessors, with an estimated equilibrium climate sensitivity of 2.5 K in both resolutions on a 150-year time frame; however, this estimate increases with the time window and the climate sensitivity at equilibration is much higher. We also consider the model response to future scenarios as defined by selected Shared Socioeconomic Pathways (SSPs) from the Scenario Model Intercomparison Project defined under CMIP6. Under the four scenarios (SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5), the warming in the period 2090–2099 compared to 1850–1879 reaches 1.3, 2.2, 3.0, and 3.9 K in NorESM2-LM, and 1.3, 2.1, 3.1, and 3.9 K in NorESM-MM, robustly similar in both resolutions. NorESM2-LM shows a rather satisfactory evolution of recent sea-ice area. In NorESM2-LM, an ice-free Arctic Ocean is only avoided in the SSP1-2.6 scenario.
- Published
- 2020