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Polar Research Volume 30, 2011 - Issue 1
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Thematic cluster. Climate drivers of the North: the Laptev Sea System

The impact of a thermodynamic sea-ice module in the COSMO numerical weather prediction model on simulations for the Laptev Sea, Siberian Arctic

David SchröderDepartment of Environmental Meteorology, University of Trier, Behringstr. 21, DE-54286Trier, Germany;Centre for Polar Observation and Modelling, University College London, Gower Street, WC1E 6BTLondon, UKCorrespondence[email protected]
,
Günther HeinemannDepartment of Environmental Meteorology, University of Trier, Behringstr. 21, DE-54286Trier, Germany
&
Sascha WillmesDepartment of Environmental Meteorology, University of Trier, Behringstr. 21, DE-54286Trier, Germany
Article: 6334 | Published online: 12 May 2011

References

  • Alexandrov V.Y., Martin T., Kolatschek J., Eicken H., Kreyscher M. & Makshtas A.P. 2000. Sea ice circulation in the Laptev Sea and ice export to the Arctic Ocean: results from satellite remote sensing and numerical modeling. Journal of Geophysical Research—Oceans 105, 143–159.
  • Barber D.G. & Massom R.A. 2007. The role of sea ice in Arctic and Antarctic polynyas. In W.O. Smith Jr. & D.G. Barber (eds.): Polynyas: windows to the world. Pp. 1–43. Amsterdam: Elsevier.
  • Bareiss J. & Görgen K. 2005. Spatial and temporal variability of sea ice in the Laptev Sea: analyses and review of satellite passive-microwave data and model results, 1979 to 2002. Global and Planetary Change 48, 28–54.
  • Bentamy A., Croize-Fillon D., Queffeulou P., Liu C. & Roquet H. 2009. Evaluation of high-resolution surface wind products at global and regional scales. Journal of Operational Oceanography 2(2), 15–27.
  • Bromwich D.H. & Wang S.-H. 2005. Evaluation of the NCEP-NCAR and ECMWF 15- and 40-yr reanalyses using raw-insonde data from two independent Arctic field experiments. Monthly Weather Review 133, 3562–3578.
  • Brummer B., Schroder D., Launiainen J., Vihma T., Smedman A.-S. & Magnusson M. 2002. Temporal and spatial variability of surface fluxes over the ice edge zone in the northern Baltic Sea. Journal of Geophysical Research—Oceans 107, article no. 3096, doi: 10.1029/2001JC000884.
  • Charnock H. 1955. Wind stress over a water surface. The Quarterly Journal of the Royal Meteorological Society 81, 639–640.
  • Dethleff D., Loewe P. & Kleine E. 1998. The Laptev Sea flaw lead—detailed investigations on ice formation and export during 1991/1992 winter season. Cold Regions Science and Technology 27, 225–243.
  • Dmitrenko I.A., Kirillov S.A., Tremblay B., Bauch D. & Willmes S. 2009. Sea-ice production over the Laptev Sea shelf inferred from historical summer to winter hydro-graphic observations of 1960s-1990s. Geophysical Research Letters 36, L13605, doi: 10.1029/2009GL038775.
  • Ebner L., Schröder D. & Heinemann G. 2011. Impact of Laptev Sea polynyas on the atmospheric boundary layer and ice production using idealized mesoscale simulations. Polar Research 30, 6334, doi: 10.3402/polar.v30i0.6334 (this volume).
  • Elementi M., Marsigh C. & Paccagnella T. 2005. High resolution forecast of heavy precipitation with Lokal Modell: analysis of two case studies in the alpine area. Natural Hazards and Earth System Sciences 5,593–602.
  • Grutzun V., Knoth O. & Simmel M. 2008. Simulation of the influence of aerosol particle characteristics on clouds and precipitation with LM-SPECS: model description and first results. Atmospheric Research 90, 233–242.
  • Hall D.K., Key J.R., Casey K.A., Riggs G.A. & Calavieri D.J. 2004. Sea ice surface temperature product from MODIS. IEEE Transactions on Geoscience and Remote Sensing 42, 1076–1087.
  • Hebbinghaus H. & Heinemann G. 2006. LM simulations of the Greenland boundary layer, comparison with local measurements and SNOWPACK simulations of drifting snow. Cold Regions Science and Technology 46, 36–51.
  • Heinemann G., Helbig A. & Ernsdorf T. 2009. Meteorological measurements at the ice edge of the West New Siberian Polynya. In: Russisch—Deutsche Zusammenarbeit: System Laptev-See, Zwischenbericht 2008, Fahrtbericht der Expedition Transdrift XHL (Russian—German Cooperation: System Laptev Sea, report 2008, the cruise report of the Transdrift XIII expedition.) Pp. 8–19. Kiel, Germany: Secretariat of the Laptev Sea System, IFM-GEOMAR.
  • Heise E., Ritter B. & Schrodin R. 2006. Operational implementation of the multilayer soil model. COSMO Technical Reports No. 9. Offenbach om Main, Germany: Consortium for Small-scale Modelling.
  • Key J., Collins J., Fowler C. & Stone R. 1997. High-latitude surface temperature estimates from thermal satellite data. Remote Sensing of Environment 61, 302–309.
  • Klein T., Heinemann G. & Gross P. 2001. Simulation of the katabatic flow near the Greenland ice margin using a high-resolution nonhydrostatic model. Meteorologische Zeitschrift 10, 331–339.
  • Klemp J.B. & Wilhelmson R. 1978. The simulation of three-dimensional convective storm dynamics. Journal of the Atmospheric Sciences 35,1070–1096.
  • Kolstad E.W. 2008. A QuikSCAT climatology of ocean surface winds in the Nordic seas: identification of features and comparison with the NCEP/NCAR reanalysis. Journal of Geophysical Research—Atmospheres 113, D11106, doi: 10.1029/2007JD008918.
  • Louis J.-F. 1979. A parametric model of vertical eddy fluxes in the atmosphere. Boundary-Layer Meteorology 17, 187–202.
  • Majewski D., Liermann D., Prohl P., Ritter B., Buchhold M., Hanisch T., Paul G., Wergen W. & Baumgardner J. 2002. The Operational Global Icosahedral—Hexagonal Gridpoint Model GME: description and high-resolution tests. Monthly Weather Review 130, 319–338.
  • Male D.H. 1980. The seasonal snowcover. In S.C. Colbeck (ed.): Dynamics of snow and ice masses. Pp. 305–395. San Francisco, CA: Academic Press.
  • Martin S., Drucker R.S. & Kwok R. 2007. The areas and ice production of the western and central Ross Sea polynyas, 1992–2002, and their relation to the B-15 and C-19 iceberg events of 2000 and 2002. Journal of Marine Systems 68, 201–214.
  • Massom R.A., Harris P.T., Michael K. & Potter M.J. 1998. The distribution and formative processes of latent heat polynyas in East Antarctica. Annals of Glaciology 27, 420–426.
  • Mironov D. & Ritter B. 2004. A new sea ice model for GME. Technical note. Offenbacham Main, Germany: Deutscher Wetterdienst.
  • Morales Maqueda M.A., Willmott A.J. & Biggs N.R.T. 2004. Polynya dynamics: a review of observations and modeling. Reviews of Geophysics 42, RG1004, doi: 10.1029/2002RG000116.
  • Muhlbauer A. & Lohmann U. 2008. Sensitivity studies of the role of aerosols in warm-phase orographic precipitation in different dynamical flow regimes. Journal of the Atmospheric Sciences 65,2522–2542.
  • Parmiggiani F. 2006. Fluctuations of Terra Nova Bay polynya as observed by active (ASAR) and passive (AMSR-E) microwave radiometers. International Journal of Remote Sensing 27, 2459–2469.
  • Rigor I.G. & Colony R. 1997. Sea ice production and transport of pollutants in the Laptev Sea, 1979–2003. Science of the Total Environment 202, 90–110.
  • Rinke A. & Dethloff K. 2001. On the sensitivity of a regional Arctic climate model to initial and boundary conditions. Journal of Climate Research 14, 101–113.
  • Ritter B. & Geleyn J.-F. 1992. A comprehensive radiation scheme for numerical weather prediction models with potential applications in climate simulations. Monthly Weather Review 120, 303–325.
  • Schättler U., Doms G. & Schraff C. 2008. A description of the nonhydrostatic regional COSMO-model. Part vii: user’s guide. Offenbacham Main, Germany: Deutscher Wetterdienst.
  • Spreen G., Kaleschke L. & Heygster G. 2008. Sea ice remote sensing using AMSR-E 89 GHz channels. Journal of Geophysical Research—Oceans 113, CO2503, doi: 10.1029/2005JC003384.
  • Stephan K., Klink S. & Schraff C. 2008. Assimilation of radar-derived rain rates into the convective-scale model COSMO-DE at DWD. Quarterly Journal of the Royal Meteorological Society 134, 1315–1326.
  • Steppeler J., Doms G., Schättler U., Bitzer H.W., Gassmann A., Damrath U. & Gregoric G. 2003. Meso-gamma scale forecasts using the nonhydrostatic model LM. Meteorology and Atmospheric Physics 82, 75–96.
  • Tamura T., Ohshima K.I. & Nihashi S. 2008. Mapping of sea ice production for Antarctic coastal polynyas. Geophysical Research Letters 35, L07606, doi: 10.1029/2007GL032903.
  • Tiedtke M. 1989. A comprehensive mass flux scheme for cumulus parameterization in largescale models. Monthly Weather Review 117, 1779–1800.
  • Timmermann R., Bechmann A. & Helmer H.H. 2002. Simulations of ice—ocean dynamics in the Weddell Sea 1. Model configuration and validation. Journal of Geophysical Research—Oceans 107, article no. 3024, doi: 10.1029/2000Jc000741.
  • Wacker U., Potty K.V.J., Ltipkes C., Hartmann J. & Raschen-dorfer M. 2005. A case study on a polar cold air outbreak over Fram Strait using a mesoscale weather prediction model. Boundary-Layer Meteorology 117, 301–336.
  • Wicker L. & Skamarock W. 2002. Time splitting methods for elastic models using forward time schemes. Monthly Weather Review 130, 2088–2097.
  • Willmes S., Adams S., Schroder D. & Heinemann G. 2011. Spatiotemporal variability of sea-ice coverage, polynya dynamics and ice production in the Laptev Sea between the winters of 1979/80 and 2007/08. Polar Research 30, article no. 5971, doi: 10.3402/polar.v30i0.5971 (this volume).
  • Zakharov V.F. 1996. The role of flaw leads off the edge of fast ice in the hydrological and ice regime of the Laptev Sea. Oceanology 6, 815–821.

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