Perspective on Satellite-Based Land Data Assimilation to Estimate Water Cycle Components in an Era of Advanced Data Availability and Model Sophistication
The beginning of the 21st century is marked by a rapid growth of land surface satellite data and model sophistication. This offers new opportunities to estimate multiple components of the water cycle via satellite-based land data assimilation (DA) across multiple scales. By resolving more processes in land surface models and by coupling the land, the atmosphere, and other Earth system compartments, the observed information can be propagated to constrain additional unobserved variables. Furthermore, access to more satellite observations enables the direct constraint of more and more components of the water cycle that are of interest to end users. However, the finer level of detail in models and data is also often accompanied by an increase in dimensions, with more state variables, parameters, or boundary conditions to estimate, and more observations to assimilate. This requires advanced DA methods and efficient solutions. One solution is to target specific observations for assimilation based on a sensitivity study or coupling strength analysis, because not all observations are equally effective in improving subsequent forecasts of hydrological variables, weather, agricultural production, or hazards through DA. This paper offers a perspective on current and future land DA development, and suggestions to optimally exploit advances in observing and modeling systems.
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Frontiers Media
2022-09-16
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| Subjects: | Data assimilation, Soil moisture, Snow, Vegetation, Microwave remote sensing, Land surface modeling, Targeted observations, |
| Online Access: | http://hdl.handle.net/10261/277859 http://dx.doi.org/10.13039/501100000780 http://dx.doi.org/10.13039/501100000844 http://dx.doi.org/10.13039/501100003130 |
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dig-ias-es-10261-2778592023-01-25T13:43:39Z Perspective on Satellite-Based Land Data Assimilation to Estimate Water Cycle Components in an Era of Advanced Data Availability and Model Sophistication De Lannoy, Gabrielle Bechtold, Michel Albergel, Clément Brocca, Luca Calvet, Jean-Christophe Carrassi, Alberto Crow, Wade T. De Rosnay, Patricia Durand, Michael Forman, Bart Geppert, Gernot Girotto, Manuela Franssen, Harrie-Jan Hendricks Jonas, Tobias Kumar, Sujay V. Lievens, Hans Lu, Yang Massari, Christian Pauwels, Valentjn Reichle, Rolf Steele-Dunne, Susan European Commission Research Foundation - Flanders KU Leuven European Space Agency Data assimilation Soil moisture Snow Vegetation Microwave remote sensing Land surface modeling Targeted observations The beginning of the 21st century is marked by a rapid growth of land surface satellite data and model sophistication. This offers new opportunities to estimate multiple components of the water cycle via satellite-based land data assimilation (DA) across multiple scales. By resolving more processes in land surface models and by coupling the land, the atmosphere, and other Earth system compartments, the observed information can be propagated to constrain additional unobserved variables. Furthermore, access to more satellite observations enables the direct constraint of more and more components of the water cycle that are of interest to end users. However, the finer level of detail in models and data is also often accompanied by an increase in dimensions, with more state variables, parameters, or boundary conditions to estimate, and more observations to assimilate. This requires advanced DA methods and efficient solutions. One solution is to target specific observations for assimilation based on a sensitivity study or coupling strength analysis, because not all observations are equally effective in improving subsequent forecasts of hydrological variables, weather, agricultural production, or hazards through DA. This paper offers a perspective on current and future land DA development, and suggestions to optimally exploit advances in observing and modeling systems. This research is supported by Belspo EODAHR (SR/00/376), the European Commission, Horizon 2020 SHui (773903), FWO CONSOLIDATION (G0A7320N), ESA 4D-MED (4000136272/21/I-EF) and KU Leuven C1 (C14/21/057). Peer reviewed 2022-08-29T10:30:22Z 2022-08-29T10:30:22Z 2022-09-16 artículo de revisión Frontiers in Water 4: 981745 (2022) http://hdl.handle.net/10261/277859 10.3389/frwa.2022.981745 2624-9375 http://dx.doi.org/10.13039/501100000780 http://dx.doi.org/10.13039/501100000844 http://dx.doi.org/10.13039/501100003130 en #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/EC/H2020/773903 Publisher's version https://doi.org/10.3389/frwa.2022.981745 No open application/pdf Frontiers Media |
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Data assimilation Soil moisture Snow Vegetation Microwave remote sensing Land surface modeling Targeted observations Data assimilation Soil moisture Snow Vegetation Microwave remote sensing Land surface modeling Targeted observations |
| spellingShingle |
Data assimilation Soil moisture Snow Vegetation Microwave remote sensing Land surface modeling Targeted observations Data assimilation Soil moisture Snow Vegetation Microwave remote sensing Land surface modeling Targeted observations De Lannoy, Gabrielle Bechtold, Michel Albergel, Clément Brocca, Luca Calvet, Jean-Christophe Carrassi, Alberto Crow, Wade T. De Rosnay, Patricia Durand, Michael Forman, Bart Geppert, Gernot Girotto, Manuela Franssen, Harrie-Jan Hendricks Jonas, Tobias Kumar, Sujay V. Lievens, Hans Lu, Yang Massari, Christian Pauwels, Valentjn Reichle, Rolf Steele-Dunne, Susan Perspective on Satellite-Based Land Data Assimilation to Estimate Water Cycle Components in an Era of Advanced Data Availability and Model Sophistication |
| description |
The beginning of the 21st century is marked by a rapid growth of land surface satellite data and model sophistication. This offers new opportunities to estimate multiple components of the water cycle via satellite-based land data assimilation (DA) across multiple scales. By resolving more processes in land surface models and by coupling the land, the atmosphere, and other Earth system compartments, the observed information can be propagated to constrain additional unobserved variables. Furthermore, access to more satellite observations enables the direct constraint of more and more components of the water cycle that are of interest to end users. However, the finer level of detail in models and data is also often accompanied by an increase in dimensions, with more state variables, parameters, or boundary conditions to estimate, and more observations to assimilate. This requires advanced DA methods and efficient solutions. One solution is to target specific observations for assimilation based on a sensitivity study or coupling strength analysis, because not all observations are equally effective in improving subsequent forecasts of hydrological variables, weather, agricultural production, or hazards through DA. This paper offers a perspective on current and future land DA development, and suggestions to optimally exploit advances in observing and modeling systems. |
| author2 |
European Commission |
| author_facet |
European Commission De Lannoy, Gabrielle Bechtold, Michel Albergel, Clément Brocca, Luca Calvet, Jean-Christophe Carrassi, Alberto Crow, Wade T. De Rosnay, Patricia Durand, Michael Forman, Bart Geppert, Gernot Girotto, Manuela Franssen, Harrie-Jan Hendricks Jonas, Tobias Kumar, Sujay V. Lievens, Hans Lu, Yang Massari, Christian Pauwels, Valentjn Reichle, Rolf Steele-Dunne, Susan |
| format |
artículo de revisión |
| topic_facet |
Data assimilation Soil moisture Snow Vegetation Microwave remote sensing Land surface modeling Targeted observations |
| author |
De Lannoy, Gabrielle Bechtold, Michel Albergel, Clément Brocca, Luca Calvet, Jean-Christophe Carrassi, Alberto Crow, Wade T. De Rosnay, Patricia Durand, Michael Forman, Bart Geppert, Gernot Girotto, Manuela Franssen, Harrie-Jan Hendricks Jonas, Tobias Kumar, Sujay V. Lievens, Hans Lu, Yang Massari, Christian Pauwels, Valentjn Reichle, Rolf Steele-Dunne, Susan |
| author_sort |
De Lannoy, Gabrielle |
| title |
Perspective on Satellite-Based Land Data Assimilation to Estimate Water Cycle Components in an Era of Advanced Data Availability and Model Sophistication |
| title_short |
Perspective on Satellite-Based Land Data Assimilation to Estimate Water Cycle Components in an Era of Advanced Data Availability and Model Sophistication |
| title_full |
Perspective on Satellite-Based Land Data Assimilation to Estimate Water Cycle Components in an Era of Advanced Data Availability and Model Sophistication |
| title_fullStr |
Perspective on Satellite-Based Land Data Assimilation to Estimate Water Cycle Components in an Era of Advanced Data Availability and Model Sophistication |
| title_full_unstemmed |
Perspective on Satellite-Based Land Data Assimilation to Estimate Water Cycle Components in an Era of Advanced Data Availability and Model Sophistication |
| title_sort |
perspective on satellite-based land data assimilation to estimate water cycle components in an era of advanced data availability and model sophistication |
| publisher |
Frontiers Media |
| publishDate |
2022-09-16 |
| url |
http://hdl.handle.net/10261/277859 http://dx.doi.org/10.13039/501100000780 http://dx.doi.org/10.13039/501100000844 http://dx.doi.org/10.13039/501100003130 |
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