Journal cover Journal topic
The Cryosphere An interactive open-access journal of the European Geosciences Union
doi:10.5194/tc-2017-4
© Author(s) 2017. This work is distributed
under the Creative Commons Attribution 3.0 License.
Research article
24 Jan 2017
Review status
This discussion paper is under review for the journal The Cryosphere (TC).
A Weekly Arctic Sea-Ice Thickness Data Record from merged CryoSat-2 and SMOS Satellite Data
Robert Ricker1,2, Stefan Hendricks1, Lars Kaleschke3, Xiangshan Tian-Kunze3, Jennifer King4, and Christian Haas1,5 1Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven, Bussestrasse 24, 27570 Bremerhaven, Germany
2Univ. Brest, CNRS, IRD, Ifremer, Laboratoire d’Oceanographie Physique et Spatiale (LOPS), IUEM, 29280, Brest, France
3Institute of Oceanography, University of Hamburg, Bundesstrasse 53, 20146 Hamburg, Germany
4Norwegian Polar Institute, Tromsoe, Norway
5York University, Toronto, Canada
Abstract. Sea-ice thickness on global scale is derived from different satellite sensors using independent retrieval methods. Due to the sensor and orbit characteristics, such satellite retrievals differ in spatial and temporal resolution as well as in the sensitivity to certain sea-ice types and thickness ranges. Satellite altimeters, such as CryoSat-2 (CS2), sense the height of the ice surface above the sea level, which can be converted into sea-ice thickness. However, relative uncertainties associated with this method are large over thin ice regimes. Another retrieval strategy is realized by the evaluation of surface brightness temperature in L-Band microwave frequencies (1.4 GHz) with a thickness-dependent emission model, as measured by the Soil Moisture and Ocean Salinity (SMOS) satellite. While the radiometer based method looses sensitivity for thick sea ice (> 1 m), relative uncertainties over thin ice are significantly smaller than for the altimetry-based retrievals. In addition, the SMOS product provides global sea-ice coverage on a daily basis unlike the narrow-swath altimeter data. This study presents the first merged product of complementary weekly Arctic sea-ice thickness data records from the CS2 altimeter and SMOS radiometer. We use two merging approaches: a weighted mean and an optimal interpolation scheme (OI). While the weighted mean leaves gaps between CS2 orbits, OI is used to produce weekly Arctic-wide sea-ice thickness fields. The benefit of the data merging is shown by a comparison with airborne electromagnetic induction sounding measurements. When compared to airborne thickness data in the Barents Sea, the merged products reveal a reduced root mean square deviation of about 0.7 m compared to the CS2 retrieval and therefore demonstrate the capability to enhance the CS2 retrieval in thin ice regimes.

Citation: Ricker, R., Hendricks, S., Kaleschke, L., Tian-Kunze, X., King, J., and Haas, C.: A Weekly Arctic Sea-Ice Thickness Data Record from merged CryoSat-2 and SMOS Satellite Data, The Cryosphere Discuss., doi:10.5194/tc-2017-4, in review, 2017.
Robert Ricker et al.
Robert Ricker et al.
Robert Ricker et al.

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Short summary
We developed the first merging of CryoSat-2 and SMOS sea-ice thickness retrievals. ESA's Earth Explorer SMOS satellite can detect thin sea ice, where its companion CryoSat-2, designed to observe thicker perennial sea ice, lacks in sensitivity. Using these satellite missions together completes the picture of the changing Arctic sea-ice and provides a more accurate and comprehensive view on the actual state of Arctic sea-ice thickness.
We developed the first merging of CryoSat-2 and SMOS sea-ice thickness retrievals. ESA's Earth...
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