Understanding uncertainties in the satellite altimeter measurement of coastal sea level: insights from a round-robin analysis
<p>The satellite radar altimetry record of sea level has now surpassed 30 years in length. These observations have greatly improved our knowledge of the open ocean and are now an essential component of many operational marine systems and climate studies. But the use of altimetry close to the c...
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Copernicus Publications
2025-01-01
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| Series: | Ocean Science |
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| author | F. Birol F. Bignalet-Cazalet M. Cancet M. Cancet J.-A. Daguze W. Fkaier E. Fouchet E. Fouchet F. Léger C. Maraldi F. Niño M.-I. Pujol N. Tran |
| author_facet | F. Birol F. Bignalet-Cazalet M. Cancet M. Cancet J.-A. Daguze W. Fkaier E. Fouchet E. Fouchet F. Léger C. Maraldi F. Niño M.-I. Pujol N. Tran |
| author_sort | F. Birol |
| collection | DOAJ |
| description | <p>The satellite radar altimetry record of sea level has now surpassed 30 years in length. These observations have greatly improved our knowledge of the open ocean and are now an essential component of many operational marine systems and climate studies. But the use of altimetry close to the coast remains a challenge from both a technical and scientific point of view. Here, we take advantage of the recent availability of many new algorithms developed for altimetry sea level computation to quantify and analyze the uncertainties associated with the choice of algorithms when approaching the coast. To achieve this objective, we did a round-robin analysis of radar altimetry data, testing a total of 21 solutions for waveform retracking, correcting sea surface heights and finally deriving sea level variations. Uncertainties associated with each of the components used to calculate the altimeter sea surface heights are estimated by measuring the spread of sea level values obtained using the various algorithms considered in the round-robin for this component. We intercompare these uncertainty estimates and analyze how they evolve when we go from the open ocean to the coast. At regional scale, complementary analyses are performed through comparisons with independent tide gauge observations. The results show that tidal corrections and uncertainties in the mean sea surface can be significant contributors to uncertainties in sea level estimates in many coastal regions. However, improving the quality and robustness of the retracking algorithm used to derive both the range and the sea state bias correction is today the main factor to bring accurate altimetry sea level data closer to the shore than ever before.</p> |
| format | Article |
| id | doaj-art-3ff3a0b89e414bb9b8a630fefe072698 |
| institution | Kabale University |
| issn | 1812-0784 1812-0792 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | Copernicus Publications |
| record_format | Article |
| series | Ocean Science |
| spelling | doaj-art-3ff3a0b89e414bb9b8a630fefe0726982025-01-24T15:10:14ZengCopernicus PublicationsOcean Science1812-07841812-07922025-01-012113315010.5194/os-21-133-2025Understanding uncertainties in the satellite altimeter measurement of coastal sea level: insights from a round-robin analysisF. Birol0F. Bignalet-Cazalet1M. Cancet2M. Cancet3J.-A. Daguze4W. Fkaier5E. Fouchet6E. Fouchet7F. Léger8C. Maraldi9F. Niño10M.-I. Pujol11N. Tran12LEGOS, University of Toulouse, IRD, CNES, CNRS, UPS, Toulouse, FranceCentre National d'Études Spatiales, Toulouse, FranceLEGOS, University of Toulouse, IRD, CNES, CNRS, UPS, Toulouse, FranceNOVELTIS, Toulouse, FranceCollecte Localisation Satellites, Ramonville-Saint-Agne, FranceLEGOS, University of Toulouse, IRD, CNES, CNRS, UPS, Toulouse, FranceNOVELTIS, Toulouse, FranceMercator Ocean International, Toulouse, FranceLEGOS, University of Toulouse, IRD, CNES, CNRS, UPS, Toulouse, FranceCentre National d'Études Spatiales, Toulouse, FranceLEGOS, University of Toulouse, IRD, CNES, CNRS, UPS, Toulouse, FranceCollecte Localisation Satellites, Ramonville-Saint-Agne, FranceCollecte Localisation Satellites, Ramonville-Saint-Agne, France<p>The satellite radar altimetry record of sea level has now surpassed 30 years in length. These observations have greatly improved our knowledge of the open ocean and are now an essential component of many operational marine systems and climate studies. But the use of altimetry close to the coast remains a challenge from both a technical and scientific point of view. Here, we take advantage of the recent availability of many new algorithms developed for altimetry sea level computation to quantify and analyze the uncertainties associated with the choice of algorithms when approaching the coast. To achieve this objective, we did a round-robin analysis of radar altimetry data, testing a total of 21 solutions for waveform retracking, correcting sea surface heights and finally deriving sea level variations. Uncertainties associated with each of the components used to calculate the altimeter sea surface heights are estimated by measuring the spread of sea level values obtained using the various algorithms considered in the round-robin for this component. We intercompare these uncertainty estimates and analyze how they evolve when we go from the open ocean to the coast. At regional scale, complementary analyses are performed through comparisons with independent tide gauge observations. The results show that tidal corrections and uncertainties in the mean sea surface can be significant contributors to uncertainties in sea level estimates in many coastal regions. However, improving the quality and robustness of the retracking algorithm used to derive both the range and the sea state bias correction is today the main factor to bring accurate altimetry sea level data closer to the shore than ever before.</p>https://os.copernicus.org/articles/21/133/2025/os-21-133-2025.pdf |
| spellingShingle | F. Birol F. Bignalet-Cazalet M. Cancet M. Cancet J.-A. Daguze W. Fkaier E. Fouchet E. Fouchet F. Léger C. Maraldi F. Niño M.-I. Pujol N. Tran Understanding uncertainties in the satellite altimeter measurement of coastal sea level: insights from a round-robin analysis Ocean Science |
| title | Understanding uncertainties in the satellite altimeter measurement of coastal sea level: insights from a round-robin analysis |
| title_full | Understanding uncertainties in the satellite altimeter measurement of coastal sea level: insights from a round-robin analysis |
| title_fullStr | Understanding uncertainties in the satellite altimeter measurement of coastal sea level: insights from a round-robin analysis |
| title_full_unstemmed | Understanding uncertainties in the satellite altimeter measurement of coastal sea level: insights from a round-robin analysis |
| title_short | Understanding uncertainties in the satellite altimeter measurement of coastal sea level: insights from a round-robin analysis |
| title_sort | understanding uncertainties in the satellite altimeter measurement of coastal sea level insights from a round robin analysis |
| url | https://os.copernicus.org/articles/21/133/2025/os-21-133-2025.pdf |
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