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A New Approach for the Estimation of Lake Ice Thickness From Conventional Radar Altimetry

A. Mangilli, Pierre Thibaut, Claude Duguay, Justin Murfitt

2022IEEE Transactions on Geoscience and Remote Sensing18 citationsDOI

Abstract

Lake ice thickness (LIT), a thematic product of Lakes as an Essential Climate Variable (ECV), is sensitive to changes in air temperature and on-ice snow mass. Here, a novel and efficient analytic method (retracking approach) is presented for the estimation of LIT from Ku-band (13.6 GHz) radar altimetry data. The new retracker, referred to as LRM_LIT, is based on the physical modeling of the conventional radar echoes (also called Low Resolution Mode or LRM) over ice-covered lakes that show a characteristic step-like feature in their leading edge attributed to the reflection of radar waves at the snow-ice and ice-water interfaces. The method is applied to Jason-2 and Jason-3 data acquired over Great Slave Lake, Canada, over three ice seasons (2013-2016). As expected, the agreement between the Jason-2 and Jason-3 LIT estimates over their overlapping period (2016 ice season) is excellent with a mean bias error of 0.013 m and root mean square error (RMSE) of 0.024 m. LIT estimates from LRM_LIT are in good agreement with simulations from a thermodynamic lake ice model and in situ measurements with RMSE values of the order of few centimeters for the three winter seasons. The retracker also provides a robust way to assess the accuracy of LIT estimates which is in the order of 0.10 m when the ice cover is well established and prior to melt onset. In addition, LRM_LIT captures the seasonal transitions during the freeze-up and breakup periods and ice growth over different winter seasons, making it a promising method for monitoring inter-annual variability and trends in LIT from past and current conventional radar altimetry missions.

Topics & Concepts

RadarSnowMean squared errorGeologyClimatologyArctic ice packAltimeterRadar altimeterMeteorologyRemote sensingSea iceGeomorphologyGeographyMathematicsComputer scienceStatisticsTelecommunicationsArctic and Antarctic ice dynamicsCryospheric studies and observationsClimate change and permafrost
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