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Research/review articles

Quantifying polynya ice production in the Laptev Sea with the COSMO model

Martin BauerEnvironmental MeteorologyUniversity of Trier, Behringstr. 21, DE-54296Trier, GermanyCorrespondence[email protected]
,
David SchröderDepartment of MeteorologyUniversity of Reading, P.O. Box 243, RG6 6BB Reading, UK
,
Günther HeinemannEnvironmental MeteorologyUniversity of Trier, Behringstr. 21, DE-54296Trier, Germany
,
Sascha WillmesEnvironmental MeteorologyUniversity of Trier, Behringstr. 21, DE-54296Trier, Germany
&
Lars EbnerEnvironmental MeteorologyUniversity of Trier, Behringstr. 21, DE-54296Trier, Germany
Article: 20922 | Published online: 17 Oct 2013

References

  • Adams S, Willmes S, Heinemann G, Rozman P, Timmermann R, Schröder D. Evaluation of simulated sea-ice concentrations from sea-ice/ocean models using satellite data and polynya classification methods. Polar Research. 2011; 30: 7124.
  • Adams S, Willmes S, Schröder D, Heinemann G, Bauer M, Krumpen T. Improvement and sensitivity analysis of thermal thin-ice thickness retrievals. IEEE Transactions on Geoscience and Remote Sensing. 2013; 51: 3306–3318.
  • Barber D.G, Massom R.A, Smith W.O, Barber D.G. The role of sea ice in Arctic and Antarctic polynyas. Polynyas. Windows to the world. 2007; Amsterdam: Elsevier. 1–54.
  • Bromwich D.H, Cassano J.J, Klein T, Heinemann G, Hines K.M, Steffen K, Box J.E. Mesoscale modeling of katabatic winds over Greenland with Polar MM5. Monthly Weather Review. 2001; 129: 2290–2309.
  • Bromwich D.H, Monaghan A.J, Manning K.W, Powers J.G. Real-time forecasting for the Antarctic: an evaluation of the Antarctic Mesoscale Prediction System (AMPS). Monthly Weather Review. 2005; 133: 579–603.
  • Cavalieri D.J, Martin S. The contribution of Alaskan, Siberian, and Canadian coastal polynyas to the cold halocline layer of the Arctic Ocean. Journal of Geophysical Research—Oceans. 1994; 99: 18343–18362.
  • Dethleff D, Loewe P, Kleine E. Laptev Sea flaw lead: detailed investigation on ice formation and export during 1991/1992 winter season. Cold Regions Science and Technology. 1998; 27: 225–243.
  • Dmitrenko I.A, Kirillov S.A, Tremblay L.B, Bauch D, Willmes S. Sea-ice production over the Laptev Sea shelf inferred from historical summer-to-winter hydrographic observations of 1960s–1990s. Geophysical Research Letters. 2009; 36: 13605.
  • Doms G, Förstner J, Heise E, Herzog H.-J, Mironov D, Raschendorfer M, Reinhardt T, Ritter B, Schrodin R, Schulz J.-P, Vogel G. A description of the nonhydrostatic regional COSMO model. Part ii: physical parameterization. 2011; Offenbach am Main: German Meteorological Service.
  • Ebner L, Schröder D, Heinemann G. Impact of Laptev Sea flaw polynyas on the atmospheric boundary layer and ice production using idealized mesoscale simulations. Polar Research. 2011; 30: 7210.
  • Ernsdorf T, Schröder D, Adams S, Heinemann G, Timmermann R, Danilov S. Impact of atmospheric forcing data on simulations of the Laptev Sea polynya dynamics using the sea-ice ocean model FESOM. Journal of Geophysical Research—Oceans. 2011; 116: 12038.
  • Gutjahr O, Heinemann G. Comparing precipitation bias correction methods for high-resolution regional climate simulations using COSMO-CLM—effects on extreme values and climate change signal. Theoretical and Applied Climatology. 2013
  • Heinemann G, Helbig A, Ernsdorf T, Kassens H. System Laptev-See: Eurasische Schelfmeere im Umbruch: Ozeanische Fronten und Polynjasysteme in der Laptev-See. Schlussbericht FKZ 03G0639. (Laptev Sea system: the Eurasian shelf seas in the Arctic's changing environment: frontal zones and polynya systems in the Laptev Sea. Final report 03G0639.). 2010; Kiel, Germany: Secretariat of the Laptev Sea System, IFM-GEOMAR. I11–I12.
  • Helbig A, Adams S, Heinemann G, Kassens H. Meteorological measurements at the ice edge of the West New Siberian Polynya. System Laptev-See: Eurasische Schelfmeere im Umbruch: Ozeanische Fronten und Polynjasysteme in der Laptev-See. Schlussbericht FKZ 03G0639. (Laptev Sea system: the Eurasian shelf seas in the Arctic's changing environment: frontal zones and polynya systems in the Laptev Sea. Final report 03G0639.). 2010; Kiel, Germany: Secretariat of the Laptev Sea System, IFM-GEOMAR. J21–J26.
  • Kanamitsu M, Ebisuzaki W, Woollen J, Yang S.-K, Hnilo J.J, Fiorino M, Potter G.L. NCEP-DOE AMIP-II Reanalysis 2 (R-2). Bulletin of the American Meteorological Society. 2002; 83: 1631–1643.
  • Louis J.-F. A parametric model of vertical eddy fluxes in the atmosphere. Boundary-Layer Meteorology. 1979; 17: 187–202.
  • Majewski D, Liermann D, Prohl P, Ritter B, Buchhold M, Hanisch T, Paul G, Wergen W, Baumgardner J. The operational global icosahedral–hexagonal gridpoint model GME: description and high-resolution tests. Monthly Weather Review. 2002; 130: 319–338.
  • Markus T, Burns B.A. A method to estimate subpixel-scale coastal polynyas with satellite passive microwave data. Journal of Geophysical Research—Oceans. 1995; 100: 4473–4487.
  • Martin S, Cavalieri D.J. Contributions of the Siberian shelf polynyas to the Arctic Ocean intermediate and deep water. Journal of Geophysical Research—Oceans. 1989; 94: 12725–12738.
  • Martin S, Drucker R, Kwok R, Holt B. Estimation of the thin ice thickness and heat flux for the Chukchi Sea Alaskan coast polynya from Special Sensor Microwave/Imager data, 1990–2001. Journal of Geophysical Research—Oceans. 2004; 109: 10012.
  • Massom R.A, Harris P.T, Michel K.J, Potter M.J. The distribution and formative processes of latent-heat polynyas in East Antarctica. Annals of Glaciology. 1998; 27: 420–426.
  • Rabenstein L, Krumpen T, Hendricks S, Koeberle C, Haas C, Hoelemann J.A. A combined approach of remote sensing and airborne electromagnetics to determine the volume of polynya sea ice in the Laptev Sea. Cryosphere. 2013; 7: 947–959.
  • Rigor I, Colony R. Sea-ice production and transport of pollutants in the Laptev Sea, 1979–1993. Science of the Total Environment. 1997; 202: 89–110.
  • Ritter B, Geleyn J.-F. A comprehensive radiation scheme for numerical weather prediction models with potential applications in climate simulations. Monthly Weather Review. 1992; 120: 303–325.
  • Schättler U, Doms G, Schraff C. A description of the nonhydrostatic regional COSMO-model. Part vii: user's guide. 2012; Offenbach am Main: German Meteorological Service.
  • Schröder D, Heinemann G, Willmes S. The impact of a thermodynamic sea-ice module in the COSMO numerical weather prediction model on simulations for the Laptev Sea, Siberian Arctic. Polar Research. 2011; 30 article no. 6334.
  • Smith S.D, Muench R.D, Pease C.H. Polynyas and leads: an overview of physical processes and environment. Journal of Geophysical Research—Oceans. 1990; 95: 9461–9479.
  • Spreen G, Kaleschke L, Heygster G. Sea ice remote sensing using AMSR-E 89-GHz channels. Journal of Geophysical Research—Oceans. 2008; 113: 02S03.
  • Steppeler J, Doms G, Schättler U, Bitzer H.W, Gassmann A, Damrath U, Gregoric G. Meso-gamma scale forecasts using the nonhydrostatic model LM. Meteorology and Atmospheric Physics. 2003; 82: 75–96.
  • Stringer W.J, Groves J.E. Location and areal extent of polynyas in the Bering and Chukchi seas. Arctic. 1991; 44: 164–171.
  • Tamura T, Ohshima K.I. Mapping of sea ice production in the Arctic coastal polynyas. Journal of Geophysical Research—Oceans. 2011; 116: 07030.
  • Willmes S, Adams S, Schröder D, Heinemann G. Spatio-temporal variability of polynya dynamics and ice production in the Laptev Sea between the winters of 1979/80 and 2007/08. Polar Research. 2011; 30 article no. 5971.
  • Winsor P, Björk G. Polynya activity in the Arctic Ocean from 1958 to 1997. Journal of Geophysical Research—Oceans. 2000; 105: 8789–8803.
  • Yu Y, Lindsay R.W. Comparison of thin ice thickness distributions derived from RADARSAT Geophysical Processor System and advanced very high resolution radiometer data sets. Journal of Geophysical Research—Oceans. 2003; 108 article no. 3387.

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