Title :
Polarimetric emissivity of vegetation-covered soils: simulation results
Author :
Lopez-Sanchez, J.M. ; Camps, A. ; Vall-Ilossera, M. ; Duffo, N. ; Martínez, A.
Author_Institution :
Dept. of Phys., Alicante Univ., Spain
Abstract :
Soil moisture can be determined by L-band radiometry. Because of the long electromagnetic wavelength -21 cm- surface roughness effects are small. In principle, vegetation effects are also small, but they cannot be neglected if the observation angle is large and/or the vegetation cover is thick or dense. In addition, coherent effects may appear because the distance between scatterers becomes comparable to the electromagnetic wavelength. In this paper we investigate the effect on the four Stokes elements (Tv, Th, U and V) of a vegetation cover consisting of individual trunks over a tilted rough surface. Simulated results show the known trends for Tv and T h: higher brightness temperatures for dry soils than for moist soils, and lower difference Tv-Th for vegetation covered soils than for bare soils. The third and fourth Stokes parameters (U, V) show a more erratic behavior highly dependent on the vegetation geometry (orientation of scatterers), increasing at large observation angles and with peak amplitudes of a fraction of a Kelvin
Keywords :
hydrological techniques; moisture measurement; radiometry; remote sensing; soil; terrain mapping; 21 cm; L-band; UHF; emissivity; hydrology; measurement technique; microwave emission; microwave polarimetry; microwave radiometry; model; polarization; remote sensing; simulation; soil moisture; surface roughness effects; terrain mapping; vegetation cover; vegetation covered soil; Brightness temperature; Electromagnetic scattering; L-band; Radiometry; Rough surfaces; Soil moisture; Stokes parameters; Surface roughness; Surface waves; Vegetation;
Conference_Titel :
Geoscience and Remote Sensing Symposium, 2001. IGARSS '01. IEEE 2001 International
Conference_Location :
Sydney, NSW
Print_ISBN :
0-7803-7031-7
DOI :
10.1109/IGARSS.2001.978028
