Verfügbarkeit: Remote Sensing of Regional Soil Moisture

Remote Sensing of Regional Soil Moisture:

Requests for regional soil moisture observations are increasing to parameterize complex hydrological models, to assess the impact of land-use changes, and to develop climate adaption strategies in the agricultural sector. Spatial land-use patterns have an impact on the soil water balance and groundw...

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Weitere Verfasser:	Pause, Marion 1979- (HerausgeberIn), Wöhling, Thomas (HerausgeberIn), Schulz, Karsten 1964- (HerausgeberIn), Jagdhuber, Thomas 1979- (HerausgeberIn), Schrön, Martin (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Basel MDPI 2022
Online-Zugang:	Volltext Volltext
Zusammenfassung:	Requests for regional soil moisture observations are increasing to parameterize complex hydrological models, to assess the impact of land-use changes, and to develop climate adaption strategies in the agricultural sector. Spatial land-use patterns have an impact on the soil water balance and groundwater recharge. Soil moisture is therefore a key parameter for the long-term monitoring and development of sustainable land-management and landscape design strategies that mitigate regional water scarcity and droughts. For example, the spatial organization of hedges or tree rows related to open land and wind direction avoids soil erosion, limits local evaporation, and increases local soil water storage. Since the early 1980s, satellite missions have been designed to monitor proxies for soil moisture, mainly at the national and global scale, with a relatively coarse pixel resolution and low accuracy. The local effects of weather and climate are very dynamic in space and time. Thus, a strong need exists for more accurate, regional-scale remote sensing products for soil moisture. The transfer of existing, proof-of-concept algorithms to region-specific monitoring frameworks is urgent. This Special Issue provides an overview of current developments on remote sensing-based soil moisture observations that are applicable at a regional scale. The compendium of research papers demonstrates the benefits of concurrently utilizing multi-source remote sensing data and in situ measurements through: - Using additional data and site-specific knowledge; - Combining empirical and physical approaches; - Developing concepts to deal with mixed pixels.
Beschreibung:	1 Online-Ressource
ISBN:	9783036529578

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520			\|a Requests for regional soil moisture observations are increasing to parameterize complex hydrological models, to assess the impact of land-use changes, and to develop climate adaption strategies in the agricultural sector. Spatial land-use patterns have an impact on the soil water balance and groundwater recharge. Soil moisture is therefore a key parameter for the long-term monitoring and development of sustainable land-management and landscape design strategies that mitigate regional water scarcity and droughts. For example, the spatial organization of hedges or tree rows related to open land and wind direction avoids soil erosion, limits local evaporation, and increases local soil water storage. Since the early 1980s, satellite missions have been designed to monitor proxies for soil moisture, mainly at the national and global scale, with a relatively coarse pixel resolution and low accuracy. The local effects of weather and climate are very dynamic in space and time. Thus, a strong need exists for more accurate, regional-scale remote sensing products for soil moisture. The transfer of existing, proof-of-concept algorithms to region-specific monitoring frameworks is urgent. This Special Issue provides an overview of current developments on remote sensing-based soil moisture observations that are applicable at a regional scale. The compendium of research papers demonstrates the benefits of concurrently utilizing multi-source remote sensing data and in situ measurements through: - Using additional data and site-specific knowledge; - Combining empirical and physical approaches; - Developing concepts to deal with mixed pixels.
700	1		\|a Pause, Marion \|d 1979- \|0 (DE-588)1015066216 \|4 edt
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Datensatz im Suchindex

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spelling	Remote Sensing of Regional Soil Moisture Editors: Marion Pause, Thomas Wöhling, Karsten Schulz, Thomas Jagdhuber, Martin Schrön Basel MDPI 2022 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier Requests for regional soil moisture observations are increasing to parameterize complex hydrological models, to assess the impact of land-use changes, and to develop climate adaption strategies in the agricultural sector. Spatial land-use patterns have an impact on the soil water balance and groundwater recharge. Soil moisture is therefore a key parameter for the long-term monitoring and development of sustainable land-management and landscape design strategies that mitigate regional water scarcity and droughts. For example, the spatial organization of hedges or tree rows related to open land and wind direction avoids soil erosion, limits local evaporation, and increases local soil water storage. Since the early 1980s, satellite missions have been designed to monitor proxies for soil moisture, mainly at the national and global scale, with a relatively coarse pixel resolution and low accuracy. The local effects of weather and climate are very dynamic in space and time. Thus, a strong need exists for more accurate, regional-scale remote sensing products for soil moisture. The transfer of existing, proof-of-concept algorithms to region-specific monitoring frameworks is urgent. This Special Issue provides an overview of current developments on remote sensing-based soil moisture observations that are applicable at a regional scale. The compendium of research papers demonstrates the benefits of concurrently utilizing multi-source remote sensing data and in situ measurements through: - Using additional data and site-specific knowledge; - Combining empirical and physical approaches; - Developing concepts to deal with mixed pixels. Pause, Marion 1979- (DE-588)1015066216 edt Wöhling, Thomas (DE-588)130429562 edt Schulz, Karsten 1964- (DE-588)115821783 edt Jagdhuber, Thomas 1979- (DE-588)1030494908 edt Schrön, Martin (DE-588)1058892304 edt Erscheint auch als Druck-Ausgabe, Hardcover 978-3-0365-2956-1 https://directory.doabooks.org/handle/20.500.12854/78840 Verlag kostenfrei Volltext 10.3390/books978-3-0365-2957-8 Verlag kostenfrei Volltext
spellingShingle	Remote Sensing of Regional Soil Moisture
title	Remote Sensing of Regional Soil Moisture
title_auth	Remote Sensing of Regional Soil Moisture
title_exact_search	Remote Sensing of Regional Soil Moisture
title_exact_search_txtP	Remote Sensing of Regional Soil Moisture
title_full	Remote Sensing of Regional Soil Moisture Editors: Marion Pause, Thomas Wöhling, Karsten Schulz, Thomas Jagdhuber, Martin Schrön
title_fullStr	Remote Sensing of Regional Soil Moisture Editors: Marion Pause, Thomas Wöhling, Karsten Schulz, Thomas Jagdhuber, Martin Schrön
title_full_unstemmed	Remote Sensing of Regional Soil Moisture Editors: Marion Pause, Thomas Wöhling, Karsten Schulz, Thomas Jagdhuber, Martin Schrön
title_short	Remote Sensing of Regional Soil Moisture
title_sort	remote sensing of regional soil moisture
url	https://directory.doabooks.org/handle/20.500.12854/78840 10.3390/books978-3-0365-2957-8
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