Downscaling GRACE-derived ocean bottom pressure anomalies using self-supervised data fusion
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Date
2025-02
Publication Type
Journal Article
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Abstract
The gravimetry measurements from the Gravity Recovery and Climate Experiment (GRACE) and its follow-on (GRACEFO) mission provide an essential way to monitor changes in ocean bottom pressure (pb), which is a critical variable in understanding ocean circulation. However, the coarse spatial resolution of the GRACE(-FO) fields blurs important spatial details, such as pb gradients. In this study, we employ a self-supervised deep learning algorithm to downscale global monthly pb anomalies derived from GRACE(-FO) observations to an equal-angle 0.25◦ grid in the absence of high-resolution ground truth. The optimization process is realized by constraining the outputs to follow the large-scale mass conservation contained in the gravity field estimates while learning the spatial details from two ocean reanalysis products. The downscaled product agrees with GRACE(-FO) solutions over large ocean basins at the millimeter level in terms of equivalent water height and shows signs of outperforming them when evaluating short spatial scale variability. In particular, the downscaled pb product has more realistic signal content near the coast and exhibits better agreement with tide gauge measurements at around 80% of 465 globally distributed stations. Our method presents a novel way of combining the advantages of satellite measurements and ocean models at the product level, with potential downstream applications for studies of the large-scale ocean circulation, coastal sea level variability, and changes in global geodetic parameters.
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published
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Volume
99 (2)
Pages / Article No.
19
Publisher
Springer
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Subject
Downscaling; Ocean bottom pressure; GRACE(-FO); Ocean dynamics; Deep learning
Organisational unit
09707 - Soja, Benedikt / Soja, Benedikt