Litcius/Paper detail

Analysis of ice-sheet temperature profiles from low-frequency airborne remote sensing

Kenneth C. Jezek, Caglar Yardim, Joel T. Johnson, Giovanni Macelloni, Marco Brogioni

2022Journal of Glaciology18 citationsDOIOpen Access PDF

Abstract

Abstract Ice internal temperature and basal geothermal heat flux (GHF) are analyzed along a study line in northwestern Greenland. The temperatures were obtained from a previously reported inversion of airborne microwave brightness-temperature spectra. The temperatures vary slowly through the upper ice sheet and more rapidly near the base increasing from ~259 K near Camp Century to values near the melting point near NorthGRIP. The flow-law rate factor is computed from temperature data and analytic expressions. The rate factor increases from ~1 × 10 −8 to 8 × 10 −8 kPa −3 a −1 along the line. A laminar flow model combined with the depth-dependent rate factor is used to estimate horizontal velocity. The modeled surface velocities are about a factor of 10 less than interferometric synthetic aperture radar (InSAR) surface velocities. The laminar velocities are fitted to the InSAR velocities through a factor of 8 enhancement of the rate factor for the lower 25% of the column. GHF values retrieved from the brightness temperature spectra increase from ~55 to 84 mW m −2 from Camp Century to NorthGRIP. A strain heating correction improves agreement with other geophysical datasets near Camp Century and NEEM but differ by ~15 mW m −2 in the central portion of the profile.

Topics & Concepts

GeologyBrightness temperatureLapse rateIce sheetIce streamInterferometric synthetic aperture radarLaminar flowGeodesySynthetic aperture radarGeophysicsAtmospheric sciencesRemote sensingSea iceBrightnessCryosphereGeomorphologyClimatologyOpticsMechanicsPhysicsCryospheric studies and observationsArctic and Antarctic ice dynamicsClimate change and permafrost