Deep-water formation and Arctic circulation under sea-ice retreat: a comparison between CMIP6 models
- university of Bergen, Earth Sciences, Bergen, Norway (anais.bretones@uib.no)
While a rapid sea-ice retreat in the Arctic has become ubiquitous, the potential weakening of the Atlantic Meridional Overturning circulation (AMOC), in response to rising greenhouse gases, is still under debate. Although climate models predict a weakening of the AMOC, observations are so far inconclusive. It has been suggested that the strength and vertical extent of the AMOC responds to sea-ice retreat, as deep mixing occurs in open-ocean areas close to the sea-ice edge. Here, we investigate this hypothesis by looking at the Arctic tidional Overturning Circulation (ArMOC) and mixed-layer depth in several CMIP6 models forced with the SSP5- 8.5 scenario. For every models we find a decoupling of the ArMOC with the AMOC: while the AMOC weakens during the 21st century, the ArMOC is enhanced.
How to cite: Bretones, A., Hestnes Nisancioglu, K., and Fjalstad Jensen, M.: Deep-water formation and Arctic circulation under sea-ice retreat: a comparison between CMIP6 models, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-12155, https://doi.org/10.5194/egusphere-egu21-12155, 2021.
