Litcius/Paper detail

Submesoscale Eddies Detected by SWOT and Moored Observations in the Northwestern Pacific

Zhiwei Zhang, Mingfang Miao, Bo Qiu, Jiwei Tian, Zhao Jing, Ge Chen, Zhaohui Chen, Wei Zhao

2024Geophysical Research Letters41 citationsDOIOpen Access PDF

Abstract

Abstract The Surface Water and Ocean Topography (SWOT) mission provides a good opportunity to study fine‐scale processes in the global ocean but whether it can detect balanced submesoscale eddies is uncertain due to the “contamination” by unbalanced inertial gravity waves. Here, based on concurrent observations from SWOT and a mooring array in the northwestern Pacific, we successfully captured two submesoscale cyclonic eddies with negative sea level anomalies (SLAs) in spring 2023. We find that the SLA amplitude and equivalent radius of the first (second) eddy are 2.5 cm and 16.0 km (2.0 cm and 18.8 km), respectively. For both eddies, their vertical scales are around 150 m and their horizontal velocities and Rossby numbers exceed 15.0 cm/s and 0.4, respectively. Further analysis suggests that similar submesoscale eddies can commonly occur in the northwestern Pacific and that SWOT is capable to detect larger submesoscale eddies with scales greater than ∼10 km.

Topics & Concepts

EddyOceanographySWOT analysisGeologyClimatologyMeteorologyGeographyTurbulenceBusinessMarketingOceanographic and Atmospheric ProcessesGeology and Paleoclimatology ResearchMethane Hydrates and Related Phenomena
Submesoscale Eddies Detected by SWOT and Moored Observations in the Northwestern Pacific | Litcius