Observation and modelling of snow and sea ice mass balance and its sensitivity to atmospheric forcing during spring and summer 2007 in the Central Arctic

Cheng, Bin and Vihma, Timo and Palo, Timo and Nicolaus, Marcel and Gerland, S. and Rontu, Laura and Haapala, Jari and Perovich, D. (2021) Observation and modelling of snow and sea ice mass balance and its sensitivity to atmospheric forcing during spring and summer 2007 in the Central Arctic. Advances in Polar Science, 32 (4). pp. 312-326.

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Abstract

Snow depth and sea ice thickness were observed applying an ice mass balance buoy (IMB) in the drifting ice station Tara during the International Polar Year in 2007. Detailed in situ observations on meteorological variables and surface fluxes were taken during May to August. For this study, the operational analyses and short-term forecasts from two numerical weather prediction (NWP) models (ECMWF and HIRLAM) were extracted for the Tara drift trajectory. We compared the IMB, meteorological and surface flux observations against the NWP products, also applying a one-dimensional thermodynamic sea ice model (HIGHTSI) to calculate the snow and ice mass balance and its sensitivity to atmospheric forcing. The modelled snow depth time series, controlled by NWP-based precipitation, was in line with the observed one. HIGHTSI reproduced well the snowmelt onset, the progress of the melt, and the first date of snow-free conditions. HIGHTSI performed well also in the late August freezing season. Challenges remain to model the “false bottom” observed during the melting season. The evolution of the vertical temperature profiles in snow and ice was better simulated when the model was forced by in situ observations instead of NWP results. During the melting period, the nonlinear ice temperature profile was successfully modelled with both forcing options. During spring and the melting season, total sea ice mass balance was most sensitive to uncertainties in NWP results for the downward longwave radiation, followed by the downward shortwave radiation, air temperature, and wind speed.

Item Type:	Article
Related URLs:
Uncontrolled Keywords:	Arctic, snow melt, sea ice mass balance, snow on sea ice, NWP models
Subjects:	Natural Environment > Atmosphere Natural Environment > Cryosphere Natural Environment > Oceans
Organizations:	Unspecified
Date Deposited:	15 Nov 2023 14:01
URI:	http://library.arcticportal.org/id/eprint/2765

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