1450 / 2024-09-27 13:12:17
Ocean dynamical processes underlying ocean bottom pressure variability in the Southern Ocean
Ocean bottom pressure,,Atlantic Southern Ocean,ocean dynamics,topography effect
Session 23 - Sea level rise: understanding, observing, and modelling
Abstract Accepted
旭华 程 / 河海大学
The Southern Ocean (SO) plays a crucial role in the global climate system by absorbing heat and carbon dioxide from the atmosphere. Understanding sea level changes and associated physical processes in the SO can provide valuable insights into how the ocean contributes to regulating Earth’s climate. Ocean dynamical processes are crucial for redistributing ocean heat and mass, thereby significantly influencing sea level change in the SO and globally. Here we revealed the features of multi-scale variations of ocean mass (ocean bottom pressure, OBP) in the SO, and investigated the related mechanisms. In the SO, OBP variations explain most of large-scale sea level variations at seasonal-to-decadal time scales. Regional OBP variations are mainly driven by surface wind and regulated by the bottom topography. Strong OBP signals are located in the deep basins where closed planetary vorticity isolines present. At interannual time scales, OBP patterns in the SO are closely associated with El Niño-Southern Oscillation and Southern Annular Mode, which can indicate interannual variability of Antarctic Circumpolar Current transport to a great extent.