Influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems

The aim of this paper is to assess the use of RADARSAT SAR data for wetland ecosystem identification considering the influence of target features (vegetation type, flood conditions, phenology, and fires), as well as sensor parameters (varying incidence angles). The Lower Delta islands of the Paraná...

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Detalles Bibliográficos
Publicado: 2001
Materias:
Biology
Ecosystems
Electromagnetic wave attenuation
Electromagnetic wave backscattering
Fires
Flood damage
Forestry
Radar imaging
Synthetic aperture radar
Vegetation
Wetlands
Flood conditions
Incidence angle effect
Radar backscatter
Wetland ecosystems
Remote sensing
Electromagnetic Radiation
Floods
Forests
Phenology
Plants
Radar
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_07038992_v27_n6_p651_Kandus
http://hdl.handle.net/20.500.12110/paper_07038992_v27_n6_p651_Kandus
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_07038992_v27_n6_p651_Kandus
record_format dspace
spelling paper:paper_07038992_v27_n6_p651_Kandus2023-06-08T15:42:48Z Influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems Biology Ecosystems Electromagnetic wave attenuation Electromagnetic wave backscattering Fires Flood damage Forestry Radar imaging Synthetic aperture radar Vegetation Wetlands Flood conditions Incidence angle effect Radar backscatter Wetland ecosystems Remote sensing Ecosystems Electromagnetic Radiation Fires Floods Forests Phenology Plants Radar The aim of this paper is to assess the use of RADARSAT SAR data for wetland ecosystem identification considering the influence of target features (vegetation type, flood conditions, phenology, and fires), as well as sensor parameters (varying incidence angles). The Lower Delta islands of the Paraná River in Argentina were selected as the study area. Six SAR images acquired during the summer and winter of 1997 and 1998 were used. This set includes Standard Beams S1, S4 and S6 to account for the incidence angle effect. Radar backscatter of samples taken at known sites was analyzed. The forest backscatter signal shows temporal stability during summer and winter, either with leaf-on or leaf-off trees. On the contrary, backscattering from forest is strongly enhanced by underlying water. Radar returns were found to change from an attenuated signal to one dominated by double-bounce behaviour. In wetlands dominated by rushes, the dominant interaction mechanism may change from double-bounce to specular reflection due to flood. During normal water-level conditions, the ability to differentiate forest from herbaceous vegetation was found to decrease with increasing incidence angle. Under extreme flooding, radar backscattering decreases from steep to shallow incidence angles, about 3 dB for forest, and 4 dB for rushes. 2001 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_07038992_v27_n6_p651_Kandus http://hdl.handle.net/20.500.12110/paper_07038992_v27_n6_p651_Kandus
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Biology
Ecosystems
Electromagnetic wave attenuation
Electromagnetic wave backscattering
Fires
Flood damage
Forestry
Radar imaging
Synthetic aperture radar
Vegetation
Wetlands
Flood conditions
Incidence angle effect
Radar backscatter
Wetland ecosystems
Remote sensing
Ecosystems
Electromagnetic Radiation
Fires
Floods
Forests
Phenology
Plants
Radar
spellingShingle Biology
Ecosystems
Electromagnetic wave attenuation
Electromagnetic wave backscattering
Fires
Flood damage
Forestry
Radar imaging
Synthetic aperture radar
Vegetation
Wetlands
Flood conditions
Incidence angle effect
Radar backscatter
Wetland ecosystems
Remote sensing
Ecosystems
Electromagnetic Radiation
Fires
Floods
Forests
Phenology
Plants
Radar
Influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems
topic_facet Biology
Ecosystems
Electromagnetic wave attenuation
Electromagnetic wave backscattering
Fires
Flood damage
Forestry
Radar imaging
Synthetic aperture radar
Vegetation
Wetlands
Flood conditions
Incidence angle effect
Radar backscatter
Wetland ecosystems
Remote sensing
Ecosystems
Electromagnetic Radiation
Fires
Floods
Forests
Phenology
Plants
Radar
description The aim of this paper is to assess the use of RADARSAT SAR data for wetland ecosystem identification considering the influence of target features (vegetation type, flood conditions, phenology, and fires), as well as sensor parameters (varying incidence angles). The Lower Delta islands of the Paraná River in Argentina were selected as the study area. Six SAR images acquired during the summer and winter of 1997 and 1998 were used. This set includes Standard Beams S1, S4 and S6 to account for the incidence angle effect. Radar backscatter of samples taken at known sites was analyzed. The forest backscatter signal shows temporal stability during summer and winter, either with leaf-on or leaf-off trees. On the contrary, backscattering from forest is strongly enhanced by underlying water. Radar returns were found to change from an attenuated signal to one dominated by double-bounce behaviour. In wetlands dominated by rushes, the dominant interaction mechanism may change from double-bounce to specular reflection due to flood. During normal water-level conditions, the ability to differentiate forest from herbaceous vegetation was found to decrease with increasing incidence angle. Under extreme flooding, radar backscattering decreases from steep to shallow incidence angles, about 3 dB for forest, and 4 dB for rushes.
title Influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems
title_short Influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems
title_full Influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems
title_fullStr Influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems
title_full_unstemmed Influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems
title_sort influence of flood conditions and vegetation status on the radar backscatter of wetland ecosystems
publishDate 2001
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_07038992_v27_n6_p651_Kandus
http://hdl.handle.net/20.500.12110/paper_07038992_v27_n6_p651_Kandus
_version_ 1768541757313646592

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