Title :
Ground-based scatterometer observations of snow-covered freshwater lake ice using UW-SCAT (9.6/17.2 GHz)
Author :
Gunn, Grant ; Duguay, Claude ; Macelloni, Giovanni ; Brogioni, Marco
Author_Institution :
Interdiscipl. Centre on Climate Change, Univ. of Waterloo - Waterloo, Waterloo, ON, Canada
Abstract :
Winter season backscatter (σ°) evolution of snow covered lake ice was observed by ground-based University of Waterloo X-(9.6 GHz) and Ku-band (17.2 GHz) scatterometers (UW-SCAT) during the winter of 2010-11. The UW-SCAT post-processing procedure allowed for the observation of σ° at the surface (snow/ice interface, ice types) and the ice volume. Observations indicated that: (1) σ° associated with the development of tubular bubbles within the ice volume causes double-bounce of the signal and high returns at X- and Ku-bands; (2) ice types at the surface (grey ice) composed of high density spherical micro-bubbles result in σ° increases at both X- and Ku-bands; and (3) the removal of snow overlying ice results in a drop in Ku-band σ° up to 5.5 dB, exhibiting sensitivity to snow water equivalent.
Keywords :
lakes; remote sensing; snow; AD 2010 to 2011; UW-SCAT post-processing procedure; University of Waterloo; frequency 17.2 GHz; frequency 9.6 GHz; ground-based Ku-band scatterometer; ground-based X-band scatterometer; ground-based scatterometer observations; ice volume; snow removal; snow water equivalent; snow-covered freshwater lake ice; spherical microbubbles; tubular bubble development; winter season backscatter evolution; Backscatter; Ice; Lakes; Microwave FET integrated circuits; Microwave integrated circuits; Radar measurements; Snow; Ku-band; X-band; active microwave; lake ice; snow;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2014 IEEE International
Conference_Location :
Quebec City, QC
DOI :
10.1109/IGARSS.2014.6947278
