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The Cryosphere An interactive open-access journal of the European Geosciences Union
© Author(s) 2017. This work is distributed
under the Creative Commons Attribution 3.0 License.
Research article
13 Mar 2017
Review status
This discussion paper is under review for the journal The Cryosphere (TC).
Modelling radiative transfer through ponded first-year Arctic sea ice with a plane parallel model
Torbjørn Taskjelle1, Stephen R. Hudson2, Mats A. Granskog2, and Børge Hamre1 1Department of Physics and Technology, University of Bergen, Allégaten 55, Bergen, Norway
2Norwegian Polar Institute, Fram Centre, Tromsø, Norway
Abstract. Under-ice irradiance measurements were done on ponded first-year pack ice along three transects during the ICE12 expedition north of Svalbard. Bulk transmittances (400–900 nm) were found to be on average 0.15–0.20 under bare ice, and 0.39–0.46 under ponded ice. Radiative transfer modelling was done with a plane parallel model. While simulated transmittances deviate significantly from measured transmittances close to the edge of ponds, spatially averaged bulk transmittances agree well. That is, transect-average bulk transmittances, calculated using typical simulated transmittances for ponded and bare ice weighted by the fractional coverage of the two surface types, is in good agreement with the measured values. Radiative heating rates calculated from model output indicates that about 20 % of the incident solar energy is absorbed in bare ice, and 50 % in ponded ice (35 % in pond itself, 15 % in the underlying ice). This large difference is due to the highly scattering surface scattering layer (SSL) increasing the albedo of the bare ice.

Citation: Taskjelle, T., Hudson, S. R., Granskog, M. A., and Hamre, B.: Modelling radiative transfer through ponded first-year Arctic sea ice with a plane parallel model, The Cryosphere Discuss., doi:10.5194/tc-2017-36, in review, 2017.
Torbjørn Taskjelle et al.
Torbjørn Taskjelle et al.

Data sets

Spectral solar transmittance measurements below ponded Arctic sea ice during the ICE12 drift
T. Taskjelle, S. R. Hudson, M. A. Granskog, J. K. Ehn, H. Hop, R. Krapp, P. Leopold, M. Tessmann, and J. Wallenschus
Torbjørn Taskjelle et al.


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