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Journal of Applied Remote Sensing • Open Access

Soil moisture assessments for brown locust Locustana pardalina breeding potential using synthetic aperture radar
Author(s): William T. Crooks; Robert A. Cheke

Paper Abstract

Synthetic aperture radar (SAR) imagery was collected over a brown locust Locustana pardalina outbreak area to estimate soil moisture relevant to egg development. ERS-2/RadarSat overpasses and field studies enabled parameterization of surface roughness, volumetric soil moisture, soil texture, and vegetation cover. Data were analyzed both when the target area was assessed as nonvegetated and when treated as vegetated. For the former, using the integral equation model (IEM) and soil surface data combined with the sensitivity of the IEM to changes in surface roughness introduced an error of ∼±0.06  cm 3  cm −3 in volumetric soil moisture. Comparison of the IEM modeling results with backscatter responses from the ERS-2/RadarSat imagery revealed errors as high as ±0.14  cm 3  cm −3 , mostly due to IEM calibration problems and the impact of vegetation. Two modified versions of the water cloud model (WCM) were parameterized, one based on measurements of vegetation moisture and the other on vegetation biomass. A sensitivity analysis of the resulting model revealed a positive relationship between increases in both vegetation biomass and vegetation moisture and the backscatter responses from the ERS-2 and RadarSat sensors. The WCM was able to explain up to 80% of the variability found when the IEM was used alone.

Paper Details

Date Published: 18 March 2014
PDF: 23 pages
J. Appl. Rem. Sens. 8(1) 084898 doi: 10.1117/1.JRS.8.084898
Published in: Journal of Applied Remote Sensing Volume 8, Issue 1
Show Author Affiliations
William T. Crooks, Univ. of Greenwich (United Kingdom)
Robert A. Cheke, Univ. of Greenwich (United Kingdom)

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