Overestimated eddy kinetic energy in the eddy‐rich regions simulated by eddy-resolving global ocean–sea ice models

The performance of eddy-resolving global ocean-sea ice models in simulating mesoscale eddies is evaluated using six eddy-resolving experiments forced by different atmospheric reanalysis products. Interestingly, eddy-resolving ocean general circulation models (OGCMs) tend to simulate more (less) ener...

Full description

Bibliographic Details
Published in:Geophysical Research Letters
Other Authors: Ding, Mengrong (author), Liu, Hailong (author), Lin, Pengfei (author), Hu, Aixue (author), Meng, Yao (author), Li, Yiwen (author), Liu, Kexiu (author)
Format: Article in Journal/Newspaper
Language:English
Published: 2022
Subjects:
Antarctic
Oyashio
The Antarctic
Antarc*
Sea ice
Online Access:https://doi.org/10.1029/2022GL098370
Description
Summary:The performance of eddy-resolving global ocean-sea ice models in simulating mesoscale eddies is evaluated using six eddy-resolving experiments forced by different atmospheric reanalysis products. Interestingly, eddy-resolving ocean general circulation models (OGCMs) tend to simulate more (less) energetic eddy-rich (eddy-poor) regions with a smaller (larger) spatial extent than satellite observation, which finally shows that larger (smaller) mesoscale energy intensity (EI) is simulated in the eddy-rich (eddy-poor) regions. Quantitatively, there is an approximately 27%-60% overestimation of EI in the eddy-rich regions, which are mainly located in the Kuroshio-Oyashio Extension, the Gulf Stream, and the Antarctic Circumpolar Currents regions, although the global mean EI is underestimated by 25%-45%. Apparently, the eddy kinetic energy in the eddy-poor region is underestimated. Further analyses based on coherent mesoscale eddy properties show that the overestimation in the eddy-rich regions is mainly attributed to mesoscale eddies' intensity and is more prominent when mesoscale eddies are in their growth stage. 1852977 1947282 DE-SC0022070

Similar Items