Deep Learning Improves Reconstruction of Ocean Vertical Velocity

Ruichen Zhu; Yanqin Li; Zhaohui Chen; Tianshi Du; Yueqi Zhang; Zhuoran Li; Zhiyou Jing; Haiyuan Yang; Zhao Jing; Lixin Wu

doi:10.1029/2023GL104889

Geophysical Research Letters (Oct 2023)

Deep Learning Improves Reconstruction of Ocean Vertical Velocity

Ruichen Zhu,
Yanqin Li,
Zhaohui Chen,
Tianshi Du,
Yueqi Zhang,
Zhuoran Li,
Zhiyou Jing,
Haiyuan Yang,
Zhao Jing,
Lixin Wu

Affiliations

Ruichen Zhu: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China
Yanqin Li: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China
Zhaohui Chen: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China
Tianshi Du: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China
Yueqi Zhang: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China
Zhuoran Li: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China
Zhiyou Jing: State Key Laboratory of Tropical Oceanography South China Sea Institute of Oceanology Chinese Academy of Sciences Guangzhou China
Haiyuan Yang: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China
Zhao Jing: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China
Lixin Wu: Frontier Science Center for Deep Ocean Multi‐spheres and Earth System (FDOMES) Physical Oceanography Laboratory Ocean University of China Qingdao China

DOI: https://doi.org/10.1029/2023GL104889
Journal volume & issue: Vol. 50, no. 19
pp. n/a – n/a

Abstract

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Abstract Ocean vertical velocity (w) plays a key role in regulating the exchanges of mass, heat and nutrients between the surface and deep ocean. However, direct observation remains difficult due to its small magnitude and large spatiotemporal variability. Therefore, w fields are generally diagnosed using dynamic‐based methods. In this study, we developed a deep neural network (DNN) to reconstruct three‐dimensional fields of ocean vertical velocity based on sea surface height (SSH) fields. Compared to dynamic‐based methods, the DNN shows improved performance in the w reconstruction within upper 500 m in terms of higher correlation and less error. Remarkably, the DNN requires only a ∼45 × 45 km size SSH image as input to estimate w at the center. This suggests that the DNN has great potential for w reconstruction in the future combined with high‐resolution observations such as the Surface Water and Ocean Topography mission.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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