Title :
Dependence of radar backscatter on coniferous forest biomass
Author :
Dobson, M. Craig ; Ulaby, Fawwaz T. ; LeToan, Thuy ; Beaudoin, Andre ; Kasischke, Eric S. ; Christensen, Norm
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Michigan Univ., Ann Arbor, MI, USA
fDate :
3/1/1992 12:00:00 AM
Abstract :
Two independent experimental efforts have examined the dependence of radar backscatter on above-ground biomass of monospecie conifer forests using polarimetric airborne SAR data at P-, L- and C-bands. Plantations of maritime pines near Landes, France, range in age from 8 to 46 years with above-ground biomass between 5 and 105 tons/ha. Loblolly pine stands established on abandoned agricultural fields near Duke, NC, range in age from 4 to 90 years and extend the range of above-ground biomass to 560 tons/ha for the older stands. These two experimental forests are largely complementary with respect to biomass. Radar backscatter is found to increase approximately linearly with increasing biomass until it saturates at a biomass level that depends on the radar frequency. The biomass saturation level is about 200 tons/ha at P-band and 100 tons/ha at L-band, and the C-band backscattering coefficient shows much less sensitivity to total above-ground biomass
Keywords :
backscatter; ecology; forestry; remote sensing by radar; 4 to 90 y; C-band; Duke; France; L-band; Landes; North Carolina; P-band; SAR data; United States; age; coniferous forest biomass; maritime pines; plantations; radar backscatter; remote sensing; Airborne radar; Backscatter; Biomass; Frequency estimation; L-band; Optical scattering; Radar polarimetry; Radar scattering; Remote sensing; Synthetic aperture radar;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
