An Overview of Air-Sea Heat Flux Products and CMIP6 HighResMIP Models in the Southern Ocean
2025
Regiane Moura | Fernanda Casagrande | Ronald Buss de Souza
The Southern Ocean (SO) is crucial for global climate regulation by absorbing excess heat and anthropogenic CO2. However, representing air-sea heat fluxes in climate models remains a challenge, particularly in regions characterised by strong ocean&ndash:atmosphere&ndash:sea ice interactions. This study analysed air&ndash:sea heat fluxes over the SO using four products and seven CMIP6 HighResMIP pairs, comparing the mean state and trends (1985&ndash:2014) of sensible and latent heat fluxes (SHF and LHF, respectively) and the impact of grid resolution refinement on their estimation. Our results revealed significant discrepancies across datasets and SO sectors, with LHF showing more consistent seasonal performance than SHF. High-resolution models better capture air&ndash:sea heat flux variability, particularly in eddy-rich regions, with climatological mean differences reaching ±:20 W.m&minus:2 and air&ndash:sea exchange variations spreading up to 30%. Most refined models exhibited enhanced spatial detail, amplifying trend magnitudes by 30&ndash:50%, with even higher values observed in some regions. Furthermore, the trend analysis showed significant regional differences, particularly in the Pacific sector, where air&ndash:sea heat fluxes showed heightened variability. Despite modelling advances, discrepancies between datasets revealed uncertainties in climate simulations, highlighting the critical need for continued improvements in climate modelling and observational strategies to accurately represent SO air&ndash:sea heat fluxes.
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