Title :
Grass: AN experiment on the capability of airborne GNSS-R sensors in sensing soil moisture and vegetation biomass
Author :
Paloscia, S. ; Santi, Enrico ; Fontanelli, G. ; Pettinato, S. ; Egido, Alejandro ; Caparrini, Marco ; Motte, Erwan ; Guerriero, Leila ; Pierdicca, N. ; Floury, Nicola
Author_Institution :
IFAC, Florence, Italy
Abstract :
In this paper an experiment concerning the capabilities of GNSS-R sensors for land applications was described. An airborne campaign was performed in summer and fall 2011 over two areas close to Florence (Italy): an agricultural zone and a forest plot of poplars. A detailed comparison of the GNSS-R signals with ground truth data was performed. Both LR and RR reflection coefficients have been found to be sensitive to changes in the surface soil moisture, with a total variation of about 6 dB between dry and wet conditions. Regarding the sensitivity to vegetation, it was observed that the measured LR coefficients have a moderate power variation due to the presence of woody vegetation. It was observed that the LR coefficient experienced a monotonic decrease with increasing biomass, up to an estimated forest dry biomass of more than 150 t/ha.
Keywords :
moisture; soil; terrain mapping; vegetation; AD 2011; Florence; GNSS-R signals; Italy; LR reflection coefficient; RR reflection coefficient; agricultural zone; airborne GNSS-R sensors; airborne campaign; dry condition; forest dry biomass; forest plot; ground truth data; land applications; poplars; power variation; surface soil moisture; vegetation biomass; wet condition; woody vegetation; Biomass; Global Positioning System; Reflectivity; Soil measurements; Soil moisture; Vegetation mapping; GNSS-R; airborne campaign; forest biomass; soil moisture;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2013 IEEE International
Conference_Location :
Melbourne, VIC
Print_ISBN :
978-1-4799-1114-1
DOI :
10.1109/IGARSS.2013.6723229
