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Climate model results for the Baltic Sea region from an ensemble of eight simulations using the Rossby Centre Atmosphere model version 3 (RCA3) driven with lateral boundary data from global climate models (GCMs) are compared with results from a downscaled ERA40 simulation and gridded observations from 1980-2006. The results showed that data from RCA3 scenario simulations should not be used as forcing for Baltic Sea models in climate change impact studies because biases of the control climate significantly affect the simulated changes of future projections. For instance, biases of the sea ice cover in RCA3 in the present climate affect the sensitivity of the model's response to changing climate due to the ice-albedo feedback. From the large ensemble of available RCA3 scenario simulations two GCMs with good performance in downscaling experiments during the control period 1980-2006 were selected. In this study, only the quality of atmospheric surface fields over the Baltic Sea was chosen as a selection criterion. For the greenhouse gas emission scenario A1B two transient simulations for 1961-2100 driven by these two GCMs were performed using the regional, fully coupled atmosphere-ice-ocean model RCAO. It was shown that RCAO has the potential to improve the results in downscaling experiments driven by GCMs considerably, because sea surface temperatures and sea ice concentrations are calculated more realistically with RCAO than when RCA3 has been forced with surface boundary data from GCMs. For instance, the seasonal 2 m air temperature cycle is closer to observations in RCAO than in RCA3 downscaling simulations. However, the parameterizations of air-sea fluxes in RCAO need to be improved.
Czasopismo
Rocznik
Tom
Strony
193--227
Opis fizyczny
Bibliogr. 36 poz., fot., tab., wykr.
Twórcy
autor
autor
autor
autor
autor
autor
- Swedish Meteorological and Hydrological Institute, Research Department, Norrköping 60176, Sweden, markus.meier@smhi.se
Bibliografia
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- 5.Döscher R., Willén U., Jones C., Rutgersson A., Meier H.E.M., Hansson U., Graham L.P., 2002, The development of the regional coupled ocean-atmosphere model RCAO, Boreal Environ. Res., 7, 183-192.
- 6.Döscher R., Wyser K., Meier H. E. M., Qian M., Redler R., 2010, Quantifying Arctic contributions to climate predictability in a regional coupled ocean-iceatmosphere model, Clim. Dynam., 34 (7-8), 1157-1176. doi:10.1007/s00382-009-0567-y
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- 9.Höglund A., Meier H.E.M., Broman B., Kriezi E., 2009, Validation and correction of regionalised ERA-40 wind fields over the Baltic Sea using the Rossby Centre Atmosphere model RCA3.0., Rap. Oceanogr. No. 97, SMHI, Norrköping, 29 pp.
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- 13.Kjellström E., Lind P., 2009, Changes in the water budget in the Baltic Sea drainage basin in future warmer climates as simulated by the regional climate model RCA3, Boreal Environ. Res., 14 (1), 114-124.
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- 18.Meier H.E.M., 2006, Baltic Sea climate in the late twenty-first century: a dynamical downscaling approach using two global models and two emission scenarios, Clim. Dynam., 27 (1), 39-68.doi:10.1007/s00382-006-0124-x
- 19.Meier H.E.M., Andréasson J., Broman B., Graham L.P., Kjellström E., Persson G., Viehhauser M., 2006, Climate change scenario simulations of wind, sea level, and river discharge in the Baltic Sea and Lake Mälaren region - a dynamical downscaling approach from global to local scales, Rep. Meteorol. Climat. No. 109, SMHI, Norrköping, 52 pp.
- 20.Meier H.E.M., Döscher R., 2002, Simulated water and heat cycles of the Baltic Sea using a 3D coupled atmosphere-ice-ocean model, Boreal Environ. Res., 7 (4), 327-334.
- 21.Meier H.E.M., Döscher R., Faxén T., 2003, A multiprocessor coupled ice-ocean model for the Baltic Sea: application to salt inflow, J. Geophys. Res., 108 (C8), 3273, doi: 10.1029/2000JC000521. doi:10.1029/2000JC000521
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- 30.Samuelsson P., Jones C., Willén U., Ullerstig A., Gollvik S., Hansson U., Jansson C., Kjellström E., Nikulin G., Wyser K., 2011, The Rossby Centre Regional Climate Model RCA3: model description and performance, Tellus A, 63 (1), 4-23. doi:10.1111/j.1600-0870.2010.00478.x
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- 35.Uppala S.M., Källberg P.W., Simmons A. J., Andrae U., Da Costa Bechtold V., Fiorino M., Gibson J.K., Haseler J., Hernandez A., Kelly G.A., Li X., Onogi K., Saarinen S., Sokka N., Allan R.P., Andersson E., Arpe K., Balmaseda M.A., Beljaars A.C.M., Van De Berg L., Bidlot J., Bormann N., Caires S., Chevallier F., Dethof A., Dragosavac M., Fisher M., Fuentes M., Hagemann S., Hólm E., Hoskins B. J., Isaksen L., Janssen P.A.E.M., Jenne R., Mcnally A.P., Mahfouf J.-F., Morcrette J.-J., Rayner N.A., Saunders R.W., Simon P., Ster A., Trenberth K.E., Untch A., Vasiljevic D., Viterbo P., Woollen J., 2005, The ERA-40 re-analysis, Q. J. Roy. Meteor. Soc., 131 (612), 2961-3012.doi:10.1256/qj.04.176
- 36.Wulff F., Bonsdorff E., Gren I.-M., Johansson S., Stigebrandt A., 2001, Giving advice on cost effective measures for a cleaner Baltic Sea: a challenge for science, AMBIO, 30 (4-5), 254-259. PMid:11697258
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0009-0017