Estimating global ocean heat content from tidal magnetic satellite observations

Irrgang, C.; Saynisch, J.; Thomas, M.

doi:10.1038/s41598-019-44397-8

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Estimating global ocean heat content from tidal magnetic satellite observations

Irrgang, C., Saynisch, J., Thomas, M. (2019): Estimating global ocean heat content from tidal magnetic satellite observations. - Scientific Reports, 9, 7893.
https://doi.org/10.1038/s41598-019-44397-8

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Irrgang, C.¹, ???ENUM_CREATORROLE_AUTHOR???
Saynisch, J.¹, ???ENUM_CREATORROLE_AUTHOR???
Thomas, M.¹, ???ENUM_CREATORROLE_AUTHOR???

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11.3 Earth System Modelling, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum, ou_146027

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???ViewItemFull_lblAbstract???: Ocean tides generate electromagnetic (EM) signals that are emitted into space and can be recorded with low-Earth-orbiting satellites. Observations of oceanic EM signals contain aggregated information about global transports of water, heat, and salinity. We utilize an artificial neural network (ANN) as a non-linear inversion scheme and demonstrate how to infer ocean heat content (OHC) estimates from magnetic signals of the lunar semi-diurnal (M2) tide. The ANN is trained using monthly OHC estimates based on oceanographic in-situ data from 1990–2015 and the corresponding computed tidal magnetic fields at satellite altitude. We show that the ANN can closely recover inter-annual and decadal OHC variations from simulated tidal magnetic signals. Using the trained ANN, we present the first OHC estimates from recently extracted tidal magnetic satellite observations. Such space-borne OHC estimates can complement the already existing in-situ measurements of upper ocean temperature and can also allow insights into abyssal OHC, where in-situ data are still very scarce.

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