Evaluation of high-resolution snowpack simulations from global datasets and comparison with Sentinel-1 snow depth retrievals in the Sierra Nevada, USA
<p>The spatial distribution of mountain snow water equivalent (SWE) is key information for water management. We implement a tool to simulate snowpack properties at high resolution (100 m) by using only global datasets of meteorology, land cover and elevation. The meteorological data are obtain...
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| Format: | Article |
| Language: | English |
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Copernicus Publications
2025-02-01
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| Series: | Hydrology and Earth System Sciences |
| Online Access: | https://hess.copernicus.org/articles/29/597/2025/hess-29-597-2025.pdf |
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| author | L. Sourp L. Sourp S. Gascoin L. Jarlan V. Pedinotti K. J. Bormann M. W. Baba |
| author_facet | L. Sourp L. Sourp S. Gascoin L. Jarlan V. Pedinotti K. J. Bormann M. W. Baba |
| author_sort | L. Sourp |
| collection | DOAJ |
| description | <p>The spatial distribution of mountain snow water equivalent (SWE) is key information for water management. We implement a tool to simulate snowpack properties at high resolution (100 m) by using only global datasets of meteorology, land cover and elevation. The meteorological data are obtained from ERA5, which makes the method applicable in near real time (5 d latency). We evaluate the output using 49 SWE maps derived from airborne lidar surveys in the Sierra Nevada. We find very good agreement at the catchment scale using uncalibrated lapse rates. Larger biases at the model grid scale are especially evident at high elevation but do not alter the catchment-scale snow mass accuracy. We additionally compare the simulated snow depth to Sentinel-1 retrievals and find a similar accuracy with respect to synchronous airborne lidar surveys. However, Sentinel-1 snow depth products are sparse and often masked during the melt season, whereas ERA5–SnowModel provides a spatially and temporally continuous SWE.</p> |
| format | Article |
| id | doaj-art-c2624f42e37f49478e2fa1ad63e48842 |
| institution | Kabale University |
| issn | 1027-5606 1607-7938 |
| language | English |
| publishDate | 2025-02-01 |
| publisher | Copernicus Publications |
| record_format | Article |
| series | Hydrology and Earth System Sciences |
| spelling | doaj-art-c2624f42e37f49478e2fa1ad63e488422025-02-03T08:00:28ZengCopernicus PublicationsHydrology and Earth System Sciences1027-56061607-79382025-02-012959761110.5194/hess-29-597-2025Evaluation of high-resolution snowpack simulations from global datasets and comparison with Sentinel-1 snow depth retrievals in the Sierra Nevada, USAL. Sourp0L. Sourp1S. Gascoin2L. Jarlan3V. Pedinotti4K. J. Bormann5M. W. Baba6Centre d'Etudes Spatiales de la Biosphère, CESBIO, CNES/CNRS/INRAE/IRD/Université Toulouse 3 Paul Sabatier, 31401 Toulouse, FranceMAGELLIUM, 31520 Ramonville Saint-Agne, FranceCentre d'Etudes Spatiales de la Biosphère, CESBIO, CNES/CNRS/INRAE/IRD/Université Toulouse 3 Paul Sabatier, 31401 Toulouse, FranceCentre d'Etudes Spatiales de la Biosphère, CESBIO, CNES/CNRS/INRAE/IRD/Université Toulouse 3 Paul Sabatier, 31401 Toulouse, FranceMAGELLIUM, 31520 Ramonville Saint-Agne, FranceAirborne Snow Observatories, Inc., Mammoth Lakes, CA, USAScience, Applications & Climate Department, European Space Agency, 00044 Frascati, Italy<p>The spatial distribution of mountain snow water equivalent (SWE) is key information for water management. We implement a tool to simulate snowpack properties at high resolution (100 m) by using only global datasets of meteorology, land cover and elevation. The meteorological data are obtained from ERA5, which makes the method applicable in near real time (5 d latency). We evaluate the output using 49 SWE maps derived from airborne lidar surveys in the Sierra Nevada. We find very good agreement at the catchment scale using uncalibrated lapse rates. Larger biases at the model grid scale are especially evident at high elevation but do not alter the catchment-scale snow mass accuracy. We additionally compare the simulated snow depth to Sentinel-1 retrievals and find a similar accuracy with respect to synchronous airborne lidar surveys. However, Sentinel-1 snow depth products are sparse and often masked during the melt season, whereas ERA5–SnowModel provides a spatially and temporally continuous SWE.</p>https://hess.copernicus.org/articles/29/597/2025/hess-29-597-2025.pdf |
| spellingShingle | L. Sourp L. Sourp S. Gascoin L. Jarlan V. Pedinotti K. J. Bormann M. W. Baba Evaluation of high-resolution snowpack simulations from global datasets and comparison with Sentinel-1 snow depth retrievals in the Sierra Nevada, USA Hydrology and Earth System Sciences |
| title | Evaluation of high-resolution snowpack simulations from global datasets and comparison with Sentinel-1 snow depth retrievals in the Sierra Nevada, USA |
| title_full | Evaluation of high-resolution snowpack simulations from global datasets and comparison with Sentinel-1 snow depth retrievals in the Sierra Nevada, USA |
| title_fullStr | Evaluation of high-resolution snowpack simulations from global datasets and comparison with Sentinel-1 snow depth retrievals in the Sierra Nevada, USA |
| title_full_unstemmed | Evaluation of high-resolution snowpack simulations from global datasets and comparison with Sentinel-1 snow depth retrievals in the Sierra Nevada, USA |
| title_short | Evaluation of high-resolution snowpack simulations from global datasets and comparison with Sentinel-1 snow depth retrievals in the Sierra Nevada, USA |
| title_sort | evaluation of high resolution snowpack simulations from global datasets and comparison with sentinel 1 snow depth retrievals in the sierra nevada usa |
| url | https://hess.copernicus.org/articles/29/597/2025/hess-29-597-2025.pdf |
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