Soil surface parameters retrieving from TerraSAR-X SAR data

Zribi, M. ; Gorrab, A. ; Baghdadi, N. ; Lili Chabaane, Z.

Type de document
Communication scientifique sans actes
Langue
Anglais
Affiliation de l'auteur
IRD UNIVERSITE DE TOULOUSE III CNRS UMR 5126 CESBIO FRA ; IRD UNIVERSITE DE TOULOUSE III CNRS UMR 5126 CESBIO FRA ; IRSTEA MONTPELLIER UMR TETIS FRA ; INAT UNIVERSITE DE CARTHAGE TUNIS TUN
Année
2016
Résumé / Abstract
The goal of this study is to analyze the sensitivity of X-band SAR (TerraSAR-X) signals as a function of different physical bare soil parameters (soil moisture, soil roughness), and to demonstrate that it is possible to estimate of both soil moisture, roughness and texture from the same experimental campaign, using a single radar signal configuration (one incidence angle, one polarization). Discussions are based on experimental campaigns acquired on North Africa (Merguellil site, Tunisia) with ground measurements over more than fifteen test fields, simultaneously to seven TerraSAR-X images acquisitions at HH polarization and 36° incidence angle. Firstly, we analyzed statistically the relationships between X-band SAR (TerraSAR-X) backscattering signals function of soil moisture and different roughness parameters (the root mean square height Hrms, the Zs parameter and the Zg parameter) at HH polarization and for an incidence angle about 36°, over a semi-arid site in Tunisia (North Africa). Results have shown a high sensitivity of real radar data to the two soil parameters: roughness and moisture. A linear relationship is obtained between volumetric soil moisture and radar signal. A logarithmic correlation is observed between backscattering coefficient and all roughness parameters. The highest dynamic sensitivity is obtained with Zg parameter. Then, we proposed to retrieve of both soil moisture and texture using these multi-temporal X-band SAR images. Our approach is based on the change detection method and combines the seven radar images with different continuous thetaprobe measurements. To estimate soil moisture from X-band SAR data, we analyzed statistically the sensitivity between radar measurements and ground soil moisture derived from permanent thetaprobe stations. Our approaches are applied over bare soil class identified from an optical image SPOT / HRV acquired in the same period of measurements. Results have shown linear relationship for the radar signals as a function of volumetric soil moisture with high sensitivity about 0.21 dB/vol%. For estimation of change in soil moisture, we considered two options: (1) roughness variations during the three-month radar acquisition campaigns were not accounted for; (2) a simple correction for temporal variations in roughness was included. The results reveal a small improvement in the estimation of soil moisture when a correction for temporal variations in roughness is introduced. Finally, by considering the estimated temporal dynamics of soil moisture, a methodology is proposed for the retrieval of clay and sand content (expressed as percentages) in soil. Two empirical relationships were established between the mean moisture values retrieved from the seven acquired radar images and the two soil texture components over 36 test fields. Validation of the proposed approach was carried out over a second set of 34 fields, showing that highly accurate clay estimations can be achieved.
Congrès
TerraSAR/TanDEM-X Science Team Meeting, 17/10/2016 - 20/10/2016, Oberpfaffenhofen, DEU

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