212 / 2024-09-11 16:28:46
Distribution and characteristics of the subsurface eddies in the Aleutian Basin, Bering Sea
Seismic Oceanography,Subarctic,Subsurface Eddies
Session 2 - Arctic Ocean: Physical Processes and their Effects on Climate and the Ecosystem
Abstract Accepted
Subsurface eddies, characterized by their cores located within or below the pycnocline, can transport materials over long distances in the ocean's interior. Observations of these eddies are sparse, limiting our understanding of their regional distribution and detailed horizontal structures, particularly in high-latitude areas. The Bering Sea, situated in the subarctic region, is among the world's most productive areas and significantly influences the Arctic Ocean's state, thereby impacting climate change. In this study, we use an ultrahigh-resolution (about 10 meters) technology, i.e., seismic oceanography, utilize concurrent temperature and current velocity measurements, to investigate the distribution and characteristics of subsurface eddies in the Aleutian Basin, Bering Sea. We detected 44 subsurface eddies and analyzed their morphological and hydrographic characteristics, spatial distribution, propagation, and transport combined with ocean physics reanalysis product dataset. The results shows that the average core radius of the subsurface eddies is about 11.62 km and they exhibit complex structures in both the core and flank regions. The Dichothermal Layer cold-core eddies are prevalent in the deep-water region of the Bering Sea, and contribute approximately 1.76 Sv poleward and westward transport in the subsurface layer. This is the first three-dimensional depiction of subsurface eddies in the Bering Sea, revealing that their numbers are unconsciously large, with significant implications for the hydrographic and biogeochemical properties of both the Bering Sea and the Arctic Ocean. More detailed comprehensive observations should be made to assess the global impact of subsurface eddies in the future.