Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment
Accurate snow information at high spatial and temporal resolution is needed to support climate services, water resource management, and environmental prediction services. However, snow remains the only element of the water cycle without a dedicated Earth observation mission. The snow scientific comm...
| Published in: | The Cryosphere |
|---|---|
| Main Authors: | , , , , , , , , , , |
| Format: | Article in Journal/Newspaper |
| Language: | unknown |
| Published: |
Copernicus Publications
2024
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| Subjects: | |
| Online Access: | https://elib.dlr.de/206175/ https://tc.copernicus.org/articles/18/3857/2024/ |
| _version_ | 1835018962710036480 |
|---|---|
| author | Montpetit, Benoit King, Joshua Meloche, Julien Derksen, Chris Siqueira, Paul Adam, J.Max Toose, Peter Brady, Mike Wendleder, Anna Vionnet, Vincent Leroux, Nicholas |
| author_facet | Montpetit, Benoit King, Joshua Meloche, Julien Derksen, Chris Siqueira, Paul Adam, J.Max Toose, Peter Brady, Mike Wendleder, Anna Vionnet, Vincent Leroux, Nicholas |
| author_sort | Montpetit, Benoit |
| collection | Unknown |
| container_issue | 8 |
| container_start_page | 3857 |
| container_title | The Cryosphere |
| container_volume | 18 |
| description | Accurate snow information at high spatial and temporal resolution is needed to support climate services, water resource management, and environmental prediction services. However, snow remains the only element of the water cycle without a dedicated Earth observation mission. The snow scientific community has shown that Ku-band radar measurements provide quality snow information with its sensitivity to snow water equivalent and the wet/dry state of snow. With recent developments of tools like the snow micropenetrometer (SMP) to retrieve snow microstructure data in the field and radiative transfer models like the Snow Microwave Radiative Transfer (SMRT) model, it becomes possible to properly characterize the snow and how it translates into radar backscatter measurements. An experiment at Trail Valley Creek (TVC), Northwest Territories, Canada, was conducted during the winter of 2018/19 in order to characterize the impacts of varying snow geophysical properties on Ku-band radar backscatter at a 100 m scale. Airborne Ku-band data were acquired using the University of Massachusetts radar instrument. This study shows that it is possible to calibrate SMP data to retrieve statistical information on snow geophysical properties and properly characterize a representative snowpack at the experiment scale. The tundra snowpack measured during the campaign can be characterize by two layers corresponding to a rounded snow grain layer and a depth hoar layer. Using RADARSAT-2 and TerraSAR-X data, soil background roughness properties were retrieved (), and it was shown that a single value could be used for the entire domain. Microwave snow grain size polydispersity values of 0.74 and 1.11 for rounded and depth hoar snow grains, respectively, were retrieved. Using the geometrical optics surface backscatter model, the retrieved effective soil permittivity increased from C-band (εsoil=2.47) to X-band (εsoil=2.61) and to Ku-band (εsoil=2.77) for the TVC domain. Using the SMRT and the retrieved soil and snow parameterizations, an RMSE ... |
| format | Article in Journal/Newspaper |
| genre | Northwest Territories The Cryosphere Tundra |
| genre_facet | Northwest Territories The Cryosphere Tundra |
| geographic | Canada Northwest Territories Trail Valley Creek Valley Creek |
| geographic_facet | Canada Northwest Territories Trail Valley Creek Valley Creek |
| id | ftdlr:oai:elib.dlr.de:206175 |
| institution | Open Polar |
| language | unknown |
| long_lat | ENVELOPE(-133.415,-133.415,68.772,68.772) ENVELOPE(-138.324,-138.324,63.326,63.326) |
| op_collection_id | ftdlr |
| op_container_end_page | 3874 |
| op_doi | https://doi.org/10.5194/tc-18-3857-2024 |
| op_relation | Montpetit, Benoit und King, Joshua und Meloche, Julien und Derksen, Chris und Siqueira, Paul und Adam, J.Max und Toose, Peter und Brady, Mike und Wendleder, Anna und Vionnet, Vincent und Leroux, Nicholas (2024) Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment. The Cryosphere, 18 (8), Seiten 3857-3874. Copernicus Publications. doi:10.5194/tc-18-3857-2024 <https://doi.org/10.5194/tc-18-3857-2024>. ISSN 1994-0416. |
| publishDate | 2024 |
| publisher | Copernicus Publications |
| record_format | openpolar |
| spelling | ftdlr:oai:elib.dlr.de:206175 2025-06-15T14:44:45+00:00 Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment Montpetit, Benoit King, Joshua Meloche, Julien Derksen, Chris Siqueira, Paul Adam, J.Max Toose, Peter Brady, Mike Wendleder, Anna Vionnet, Vincent Leroux, Nicholas 2024-08-28 https://elib.dlr.de/206175/ https://tc.copernicus.org/articles/18/3857/2024/ unknown Copernicus Publications Montpetit, Benoit und King, Joshua und Meloche, Julien und Derksen, Chris und Siqueira, Paul und Adam, J.Max und Toose, Peter und Brady, Mike und Wendleder, Anna und Vionnet, Vincent und Leroux, Nicholas (2024) Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment. The Cryosphere, 18 (8), Seiten 3857-3874. Copernicus Publications. doi:10.5194/tc-18-3857-2024 <https://doi.org/10.5194/tc-18-3857-2024>. ISSN 1994-0416. Internationales Bodensegment Zeitschriftenbeitrag PeerReviewed 2024 ftdlr https://doi.org/10.5194/tc-18-3857-2024 2025-06-04T04:58:05Z Accurate snow information at high spatial and temporal resolution is needed to support climate services, water resource management, and environmental prediction services. However, snow remains the only element of the water cycle without a dedicated Earth observation mission. The snow scientific community has shown that Ku-band radar measurements provide quality snow information with its sensitivity to snow water equivalent and the wet/dry state of snow. With recent developments of tools like the snow micropenetrometer (SMP) to retrieve snow microstructure data in the field and radiative transfer models like the Snow Microwave Radiative Transfer (SMRT) model, it becomes possible to properly characterize the snow and how it translates into radar backscatter measurements. An experiment at Trail Valley Creek (TVC), Northwest Territories, Canada, was conducted during the winter of 2018/19 in order to characterize the impacts of varying snow geophysical properties on Ku-band radar backscatter at a 100 m scale. Airborne Ku-band data were acquired using the University of Massachusetts radar instrument. This study shows that it is possible to calibrate SMP data to retrieve statistical information on snow geophysical properties and properly characterize a representative snowpack at the experiment scale. The tundra snowpack measured during the campaign can be characterize by two layers corresponding to a rounded snow grain layer and a depth hoar layer. Using RADARSAT-2 and TerraSAR-X data, soil background roughness properties were retrieved (), and it was shown that a single value could be used for the entire domain. Microwave snow grain size polydispersity values of 0.74 and 1.11 for rounded and depth hoar snow grains, respectively, were retrieved. Using the geometrical optics surface backscatter model, the retrieved effective soil permittivity increased from C-band (εsoil=2.47) to X-band (εsoil=2.61) and to Ku-band (εsoil=2.77) for the TVC domain. Using the SMRT and the retrieved soil and snow parameterizations, an RMSE ... Article in Journal/Newspaper Northwest Territories The Cryosphere Tundra Unknown Canada Northwest Territories Trail Valley Creek ENVELOPE(-133.415,-133.415,68.772,68.772) Valley Creek ENVELOPE(-138.324,-138.324,63.326,63.326) The Cryosphere 18 8 3857 3874 |
| spellingShingle | Internationales Bodensegment Montpetit, Benoit King, Joshua Meloche, Julien Derksen, Chris Siqueira, Paul Adam, J.Max Toose, Peter Brady, Mike Wendleder, Anna Vionnet, Vincent Leroux, Nicholas Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment |
| title | Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment |
| title_full | Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment |
| title_fullStr | Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment |
| title_full_unstemmed | Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment |
| title_short | Retrieval of snow and soil properties for forward radiative transfer modeling of airborne Ku-band SAR to estimate snow water equivalent: the Trail Valley Creek 2018/19 snow experiment |
| title_sort | retrieval of snow and soil properties for forward radiative transfer modeling of airborne ku-band sar to estimate snow water equivalent: the trail valley creek 2018/19 snow experiment |
| topic | Internationales Bodensegment |
| topic_facet | Internationales Bodensegment |
| url | https://elib.dlr.de/206175/ https://tc.copernicus.org/articles/18/3857/2024/ |