Remote Sensing (Apr 2020)

Evolution of Backscattering Coefficients of Drifting Multi-Year Sea Ice during End of Melting and Onset of Freeze-up in the Western Beaufort Sea

  • Seung Hee Kim,
  • Hyun-Cheol Kim,
  • Chang-Uk Hyun,
  • Sungjae Lee,
  • Jung-Seok Ha,
  • Joo-Hong Kim,
  • Young-Joo Kwon,
  • Jeong-Won Park,
  • Hyangsun Han,
  • Seong-Yeob Jeong,
  • Duk-jin Kim

DOI
https://doi.org/10.3390/rs12091378
Journal volume & issue
Vol. 12, no. 9
p. 1378

Abstract

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Backscattering coefficients of Sentinel-1 synthetic aperture radar (SAR) data of drifting multi-year sea ice in the western Beaufort Sea during the transition period between the end of melting and onset of freeze-up are analyzed, in terms of the incidence angle dependence and temporal variation. The mobile sea ice surface is tracked down in a 1 km by 1 km region centered at a GPS tracker, which was installed during a field campaign in August 2019. A total of 24 Sentinel-1 images spanning 17 days are used and the incidence angle dependence in HH- and HV-polarization are −0.24 dB/deg and −0.10 dB/deg, respectively. Hummocks and recently frozen melt ponds seem to cause the mixture behavior of surface and volume scattering. The normalized backscattering coefficients in HH polarization gradually increased in time at a rate of 0.15 dB/day, whereas the HV-polarization was relatively flat. The air temperature from the ERA5 hourly reanalysis data has a strong negative relation with the increasing trend of the normalized backscattering coefficients in HH-polarization. The result of this study is expected to complement other previous studies which focused on winter or summer seasons in other regions of the Arctic Ocean.

Keywords