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Tellus A: Dynamic Meteorology and Oceanography Volume 51, 1999 - Issue 4
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Original Articles

Sensitivity of atmosphere–ocean heat exchange and heat content in the North Sea and the Baltic Sea

Corinna SchrumZentrum fÓr Meeresund Klimaforschung, Universität Hamburg, Troplowitzstr. 7, 22529Hamburg, Germany
&
Jan O. BackhausZentrum fÓr Meeresund Klimaforschung, Universität Hamburg, Troplowitzstr. 7, 22529Hamburg, Germany
Pages 526-549 | Received 18 Sep 1997, Accepted 05 Mar 1999, Published online: 15 Dec 2016

References

  • BALTEX, Baltic Sea Experiment. 1995. Initial Implementation Plan. International BALTEX Secretariat, 2, 84 pp.
  • Backhaus, J. O. 1985. A three-dimensional model for the simulation of shelf sea dynamics. Deutsche Hydrographische Zeitschrift 38, 165–187.
  • Backhaus, J. O. 1996. Climate sensitivity of European coastal seas. J. Marine Systems 7, 361–382.
  • Backhaus, J. O. and Hainbucher, D. 1987. A finite difference general circulation model for shelf seas and its application to low frequency variability on the North European Shelf. Three-dimensional models of marine and estuarine dynamics (eds. Nihoul, J. C. J. and Jamart, B. M.). Elsevier Oceanography Series 45, 221–244.
  • Backhaus, J. O. and Wehde, H. 1997. Convection in the Baltic Sea. A numerical process study. In: Sensitivity of North Sea, Baltic Sea and Black Sea to ant hropogenic and climatic changes (eds. Ozsoy, E. and Mikaelyna, A.). Nato ASI Ser., Kluwer Academic Publishers, pp. 295-309.
  • Becker, G. A. 1981. Beitrége zur Hydrographie und Warmebilanz der Nordsee. Deutsche Hydrographische Zeitschrift 34, 167–262.
  • Bergström, S. and Carlsson, B. 1994. River runoff to the Baltic Sea: 1950-1990. Ambio 23, 280–287.
  • Cubasch, U., Hasselmann, K., Hock, H., Maier-Reimer, E., Mikolajewicz, U., Santer, D. and Sausen, R. 1992. Time-dependent greenhouse warming computations with a coupled ocean-atmosphere model. Clim. Dyn. 8, 55–69.
  • Cubasch, U., Hegerl, G., Hellbach, A., Hock, H., Mikola-jewicz, U., Santer, D. and Voss, R. 1995. A climate change simulation starting 1935. Clim. Dyn. 11, 71–84.
  • Daji, H. 1995. Modelling studies of barotropic and baro-clinic dynamics in the Bohai Sea. Berichte aus dem Zentrum ffir Meeres-und Klimaforschung der Universitét Hamburg, Germany. Reihe B. Ozeanographie 17, 126 pp.
  • Damm, P. 1997. Die saisonale Salzgehalts-und Frisch-wasserverteilung in der Nordsee und ihre Bilanzierung. Berichte aus dem Zentrum ffir Meeres-und Klimafor-schung der Universitét Hamburg, Germany. Reihe B. Ozeanographie 28, 259 pp.
  • Dobson, F. W. and Smith, S. D. 1988. Bulk models of solar radiation at sea. Q. J. R. Meteorol. Soc. 114, 165–182.
  • Eilola, K. 1997. Development of a spring thermocline at temperatures below the temperature of maximum denity with application to the Baltic Sea, Journal of Geophysical Research 102, no. C4,8657–8662.
  • Fofonoff, N. P. 1962. Physical properties of sea-water. The Sea (ed. Hill, M. N.), ch. 1, pp. 3–30.
  • Fofonoff, N. P. and Millard Jr, R. C. 1983. Algorithms for computation of fundamental properties of sea water. UNESCO Technical Papers in Marine Science, 44.
  • Gibson, R., Kallberg, P. and Uppala, S. 1996. The ECMWF Re-Analysis (ERA) project. ECMWF News-letter 73,7–17.
  • Haapala, J., Alenius, P., Dubra, J., Klyachkin, S. V., Kouts, T., Lepparanta, M., Omstedt, A., Pakstys, L., Schmelzer, N., Schrum, C., Seina, A., Strfibing, K., Sztobryn, M. and Zaharchenko, E. 1996. Ice data bank for Baltic Sea climate studies. Report Series in Geophysics (University of Helsink i) 35,45 pp.
  • Haapala, J., Leppéranta, M. and Omstedt, A. 1993. Data programme for Baltic Sea ice climate modelling. Proc. 1st Workshop on the Baltic Sea Ice Climate, Tvarminne, Finland, 24-26 August 1993. Report Series in Geophysics (University of Helsink i) 27, 95–107.
  • Haapala, J. and Lepparanta, M. 1997. The Baltic Sea Ice season in changing climate. Boreal. Env. Res. 2, 1–16.
  • Harms, I. 1994. Numerische Modellstudie zur winterlichen Wassermassenformation in der Barentssee. Berichte aus dem Zentrum ffir Meeres-und Klimaforschung der Universitét Hamburg, Germany, Reihe B, 7,97 pp.
  • HELCOM. 1986. Water balance of the Baltic Sea. A regional Cooperation Project of the Baltic Sea States. International Summary Report. Baltic Sea Environment Proceedings 16, 174 S.
  • Heyen, H., Zorita, E. and von Storch, H. 1996. Statistical downscaling of monthly mean North Atlantic air-pressure to sea-level anomalies in the Baltic Sea. Tellus 48A, 312–323.
  • Hibler, W. D. 1979. A dynamic thermodynamic sea ice model. J. Phys. Oceanogr. 9, 815–846.
  • Janssen, F., Schrum, C. and Backhaus, J. 1999. A climatological dataset of temperature and salinity for the North Sea and the Baltic Sea. Deutsche Hydrographische Zeitschrift, in press.
  • Johns, T. C., Carnell, R. E., Crossley, J. F., Gregory, J. M., Mitchell, J. F. B., Senior, C. A., Tett, S. F. B. and Wood, R. A. 1997. The second Hadley Centre coupled ocean-atmosphere GCM: model description, spinup, validation. Clim. Dyn. 13, 103–134.
  • Kochergin, V. P. 1987. Three-dimensinal prognostic models. In: Three-dimensional coastal ocean models (ed. Heaps, N. S.). Coastal and Estuarine Sciences, 4, 201–208.
  • Kondo, J. 1975. Air-sea bulk transfer coefficients in diabatic conditions. Boundary-layer Meteorology 9, 91–112.
  • Launiainen, J. and Vihma, T. 1990. Meteorological, ice and water exchange conditions. Second periodic assessment of the state of the marine environment of the Baltic Sea, 1984-1988; Background document. Baltic Sea Environment Proc. 35B, 22–33.
  • Lee, R. B. et al. 1988. Earth radiation budget satellite extra-terrestrial solar constant measurements: 1986-1987 increasing trend. Adv. Space Res. 8 (7), 11-13.
  • Leppärranta, M. 1981. An ice drift model for the Baltic Sea. Tellus 33,583–596.
  • Luthardt, H. 1987. Analyse der wassernahen Druck-und Windfelder fiber der Nordsee aus Routinebeobach-tungen. Hamburger Geophysikalische Einzelschriften. 83.
  • Matthäus, W. 1995. Natural variability and human impacts reflected in long-term changes in the Baltic Deep Water Conditions. A Brief Review. Deutsche Hydrographische Zeitschrift 47, 47–65.
  • Maykut, G. A. 1986. The surface heat and mass balance. The geophysics of sea ice. Plenum Press, New York. Mellor, G. L. and Durbin, P. A. 1975. The structure and dynamics of the ocean surface mixed layer. Journal of Physical Oceanography 5, 718–728.
  • Millero, F. J. 1978. Freezing point of seawater. In: Eighth Report of the Joint Panel on Oceanographic tables and standards. Unesco Techn. Pap. Mar. Sci., No. 28, Annex 6.
  • Omstedt, A. and Nyberg, L. 1996. Response of Baltic Sea ice to seasonal interannual forcing and climate change. Tellus 48A, 644–662.
  • Omstedt, A., Nyberg, L. and Leppäranta, M. 1994. A coupled ice-ocean model supporting winter navigation in the Baltic Sea. Part 1: Ice dynamics and water levels. SMHI Reports 17, 17 pp.
  • Omstedt, A. and Nyberg, L. 1995. A coupled ice-ocean model supporting winter navigation in the Baltic Sea. Part 2: Thermodynamics and meteorological coupling. SMHI Reports 21, 30 pp.
  • Omstedt, A., Meueller, L. and Nyberg, L. 1997. Interannual, seasonal and regional variations of precipitation and evaporation over the Baltic Sea. Ambio, in press.
  • Paulson, A. and Simpson, J. 1977. Irradiance measurements in the upper ocean. Journal of Physical Oceano-graphy 7, 952–956.
  • Pohlmann, T. 1996a. Predicting the thermocline in a circulation model of the North Sea. Part I: Model description, calibration and verification. Cont. Shelf Res. 16, 131–146.
  • Pohlmann, T. 1996b. Simulating the heat storage in the North Sea with a three-dimensional circulation model. Cont. Shelf Res. 16, 195–213.
  • Rodi, W. 1980. Turbulence models and their application in hydraulics. A state of the art review. International Association for Hydraulics, Delft.
  • Roeckner, E., Arpe, K., Bengsson, L., Brinkop, S. Due-menil, L., Esch, M. Kirk, E., Lunkheit, F., Ponater, M., Rockel, B., Sausen, R., Schlese, U., Schubert, S. and Windelband, M. 1992. Simulation of the present day climate with the ECHAM model: impact of model physics and resolution. Report 93, Max-Planck Institut fur Meteorologie, Hamburg, Germany.
  • Schrum, C. 1997a. A coupled ice-ocean model for the North Sea and the Baltic Sea. Sensitivity of North Sea, Baltic Sea and Black Sea to anthropogenic and climatic changes. In: Sensitivity of North Sea, Baltic
  • Seaand Black Sea to ant hropogenic and climatic changes (eds. Ozsoy, E. and Mikaelyna, A.. Nato ASI Ser., Kluwer Academic Publishers, pp. 311-325.
  • Schrum, C. 1997b. Thermocline development and instabilities at tidal mixing fronts. Results of an eddy resolving model for the German Bight. Cont. Shelf Res. 17, 689–716.
  • Stigebrand, A. 1983. A model for the exchange of water and salt between the Baltic and the Skagerrak. J. Phys., Oceanogr. 13, 411–427.
  • Von Storch, H. 1994. Inconsistencies at the interface of climate impact studies and global climate research. Report No. 122, Max-Planck-Institut fur Meteorologie, Hamburg, Germany.
  • Stronach, J. A., Backhaus, J. O. and Murty, T. S. 1993. An update on the numerical simulation of oceano-graphic processes in the waters between Vancouver Island and the Mainland: the GF8 model. Oceanogr. Mar. Biol. Annu. Rev. 31 ( UCL Press), 1-87.
  • Tinz, B. 1996. On the relation between annual maximum extent of ice cover in the Baltic Sea and sea level pressure as well as air temperature field. Geophysica 32, 319–341.

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