InSAR constraints on soil moisture evolution after the March 2015 extreme precipitation event in Chile

Abstarct Constraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource policies. Space-based interferometric synthetic aperture radar (InSAR) observations provide near-global coverage, even in the presence of clouds, o...

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Published inScientific reports Vol. 7; no. 1; pp. 4903 - 9
Main Authors Scott, C. P., Lohman, R. B., Jordan, T. E.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 07.07.2017
Nature Publishing Group
Nature Portfolio
Subjects
704/106/694/1108
704/2151/241
704/4111
Agricultural practices
Climate models
Clouds
Drying
Evolution
Extreme weather
Flooding
Humanities and Social Sciences
multidisciplinary
Precipitation
Radar
Rain
Science
Science (multidisciplinary)
Shallow water
Soil characteristics
Soil moisture
Water resources
Water storage
Chile
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Abstract Abstarct Constraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource policies. Space-based interferometric synthetic aperture radar (InSAR) observations provide near-global coverage, even in the presence of clouds, of proxies for soil moisture derived from the amplitude and phase content of radar imagery. We describe results from a 1.5 year-long InSAR time series spanning the March, 2015 extreme precipitation event in the hyperarid Atacama desert of Chile, constraining the immediate increase in soil moisture and drying out over the following months, as well as the response to a later, smaller precipitation event. The inferred temporal evolution of soil moisture is remarkably consistent between independent, overlapping SAR tracks covering a region ~100 km in extent. The unusually large rain event, combined with the extensive spatial and temporal coverage of the SAR dataset, present an unprecedented opportunity to image the time-evolution of soil characteristics over different surface types. Constraints on the timescale of shallow water storage after precipitation events are increasingly valuable as global water resources continue to be stretched to their limits and communities continue to develop in flood-prone areas.
AbstractList Abstarct Constraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource policies. Space-based interferometric synthetic aperture radar (InSAR) observations provide near-global coverage, even in the presence of clouds, of proxies for soil moisture derived from the amplitude and phase content of radar imagery. We describe results from a 1.5 year-long InSAR time series spanning the March, 2015 extreme precipitation event in the hyperarid Atacama desert of Chile, constraining the immediate increase in soil moisture and drying out over the following months, as well as the response to a later, smaller precipitation event. The inferred temporal evolution of soil moisture is remarkably consistent between independent, overlapping SAR tracks covering a region ~100 km in extent. The unusually large rain event, combined with the extensive spatial and temporal coverage of the SAR dataset, present an unprecedented opportunity to image the time-evolution of soil characteristics over different surface types. Constraints on the timescale of shallow water storage after precipitation events are increasingly valuable as global water resources continue to be stretched to their limits and communities continue to develop in flood-prone areas.
ABSTARCTConstraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource policies. Space-based interferometric synthetic aperture radar (InSAR) observations provide near-global coverage, even in the presence of clouds, of proxies for soil moisture derived from the amplitude and phase content of radar imagery. We describe results from a 1.5 year-long InSAR time series spanning the March, 2015 extreme precipitation event in the hyperarid Atacama desert of Chile, constraining the immediate increase in soil moisture and drying out over the following months, as well as the response to a later, smaller precipitation event. The inferred temporal evolution of soil moisture is remarkably consistent between independent, overlapping SAR tracks covering a region ~100 km in extent. The unusually large rain event, combined with the extensive spatial and temporal coverage of the SAR dataset, present an unprecedented opportunity to image the time-evolution of soil characteristics over different surface types. Constraints on the timescale of shallow water storage after precipitation events are increasingly valuable as global water resources continue to be stretched to their limits and communities continue to develop in flood-prone areas.
Constraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource policies. Space-based interferometric synthetic aperture radar (InSAR) observations provide near-global coverage, even in the presence of clouds, of proxies for soil moisture derived from the amplitude and phase content of radar imagery. We describe results from a 1.5 year-long InSAR time series spanning the March, 2015 extreme precipitation event in the hyperarid Atacama desert of Chile, constraining the immediate increase in soil moisture and drying out over the following months, as well as the response to a later, smaller precipitation event. The inferred temporal evolution of soil moisture is remarkably consistent between independent, overlapping SAR tracks covering a region ~100 km in extent. The unusually large rain event, combined with the extensive spatial and temporal coverage of the SAR dataset, present an unprecedented opportunity to image the time-evolution of soil characteristics over different surface types. Constraints on the timescale of shallow water storage after precipitation events are increasingly valuable as global water resources continue to be stretched to their limits and communities continue to develop in flood-prone areas.
Abstarct Constraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource policies. Space-based interferometric synthetic aperture radar (InSAR) observations provide near-global coverage, even in the presence of clouds, of proxies for soil moisture derived from the amplitude and phase content of radar imagery. We describe results from a 1.5 year-long InSAR time series spanning the March, 2015 extreme precipitation event in the hyperarid Atacama desert of Chile, constraining the immediate increase in soil moisture and drying out over the following months, as well as the response to a later, smaller precipitation event. The inferred temporal evolution of soil moisture is remarkably consistent between independent, overlapping SAR tracks covering a region ~100 km in extent. The unusually large rain event, combined with the extensive spatial and temporal coverage of the SAR dataset, present an unprecedented opportunity to image the time-evolution of soil characteristics over different surface types. Constraints on the timescale of shallow water storage after precipitation events are increasingly valuable as global water resources continue to be stretched to their limits and communities continue to develop in flood-prone areas.
ArticleNumber 4903
Author Lohman, R. B.
Jordan, T. E.
Scott, C. P.
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Snippet Abstarct Constraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource...
Constraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource policies....
AbstarctConstraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource...
ABSTARCTConstraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource...
Abstarct Constraints on soil moisture can guide agricultural practices, act as input into weather, flooding and climate models and inform water resource...
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SubjectTerms 704/106/694/1108
704/2151/241
704/4111
Agricultural practices
Climate models
Clouds
Drying
Evolution
Extreme weather
Flooding
Humanities and Social Sciences
multidisciplinary
Precipitation
Radar
Rain
Science
Science (multidisciplinary)
Shallow water
Soil characteristics
Soil moisture
Water resources
Water storage
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Title InSAR constraints on soil moisture evolution after the March 2015 extreme precipitation event in Chile
URI https://link.springer.com/article/10.1038/s41598-017-05123-4
https://www.ncbi.nlm.nih.gov/pubmed/28687741
https://www.proquest.com/docview/1956102083
https://search.proquest.com/docview/1917363173
https://pubmed.ncbi.nlm.nih.gov/PMC5501829
https://doaj.org/article/c6f80365c645459ca6d18cdab2c9600b
Volume 7
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