GRACE and GRACE-FO Related Publications (no abstracts)

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Changes in the Water Surface Level of the Baltic Sea from Satellite Altimetry and Gravity Missions

Bialas, Jakub and Sosnica, Krzysztof, 2024. Changes in the Water Surface Level of the Baltic Sea from Satellite Altimetry and Gravity Missions. Artificial Satellites, 59(3):100–126, doi:10.2478/arsa-2024-0008.

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@ARTICLE{2024ArtSa..59..100B,
       author = {{Bia{\l}as}, Jakub and {So{\'s}nica}, Krzysztof},
        title = "{Changes in the Water Surface Level of the Baltic Sea from Satellite Altimetry and Gravity Missions}",
      journal = {Artificial Satellites},
     keywords = {satellite altimetry, sea level changes, Jason-1/2/3, GRACE, Baltic Sea},
         year = 2024,
        month = oct,
       volume = {59},
       number = {3},
        pages = {100-126},
     abstract = "{Satellite altimetry provides high-accuracy geometrical measurements of
        sea level changes. We analyze altimetry time series representing
        sea surface height anomalies over the mean sea surface provided
        by the TOPEX/Poseidon, Jason-1, Jason-2, and Jason-3 satellite
        missions to estimate the annual rate of sea level rise. Then, we
        compare the results with satellite gravimetric data from GRACE
        and GRACE Follow-On missions and surface water temperature data,
        employing statistical analyses to examine the interrelationships
        and correlations between them. We carry out the main analyses
        for the period 2001{\textendash}2021 with a division into 5-year
        periods for six different areas of the Baltic Sea. The
        altimetric results show that between 2001 and 2021, the water
        level of the Baltic Sea rose by 5.8 mm/year on average. About
        72\% of the changes detected by altimetry missions can be
        explained by satellite gravimetry from GRACE and GRACE Follow-
        On, which means that the mass component is responsible for most
        of the observed sea level change, whereas the remaining 28\% can
        be greatly explained by thermal expansion due to the water
        temperature rise.}",
          doi = {10.2478/arsa-2024-0008},
       adsurl = {https://ui.adsabs.harvard.edu/abs/2024ArtSa..59..100B},
      adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}

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