Abstract
The extent of agreement amongst current global climate models (GCMs) on the global pattern of rainfall change simulated under enhanced greenhouse conditions is assessed. We consider the results of five experiments which use a simple mixed layer ocean formulation and five which use a fully dynamic ocean model (‘coupled experiments’). For many regions of the northern hemisphere there is strong agreement amongst both mixed layer and coupled experiments on the sign of simulated rainfall change. However, in the southern hemisphere there are large, and apparently systematic, differences between the coupled and mixed layer experiments. In particular, whereas the mixed layer experiments agree on simulated rainfall increase in summer in the tropics and subtropics of the Australian sector, the coupled experiments agree (although more weakly) on rainfall decreases. These differences appear to relate to the much reduced warming simulated by the coupled experiments in the high latitudes of the southern hemisphere. However, recent oceanographie evidence suggests that this suppressed warming may be considerably overestimated. We conclude therefore that despite the in-principle advantages of coupled models, it may be too soon to base some regionally specific climate change scenarios solely on the results of coupled experiments.
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Burgos, J. J., Ponce, H. F., and Molion, L. C. B.: 1991, ‘Climate Change Predictions for South America’, Clim. Change 18, 223–239.
Charlson, R. J., Langner, J., Rodhe, H., Leovy, C. B., and Warren, S. G.: 1991,‘Perturbation of the Northern Hemisphere Radiative Balance by Backscattering from Anthropogenic Sulfate Aerosols’, Tellus 43AB, 152–163.
Chiew, F. H., Whetton, P. H., McMahon T. A., and Pittock A. B.: 1995, ‘Simulation of the Impacts of Climate Change on Runoff and Soil Moisture in Australian Catchments’, J. Hydrology 167, 121–147.
CIG: 1992, Climate Change Scenarios for the Australian Region, Climate Impact Group, CSIRO Division of Atmospheric Research, Melbourne, 6 pp.
CLIVAR, 1995: First Session of the CLIVAR Dec-Cen Numerical Experimentation Group (CLIVAR NEG-2), Hamburg, Germany, 11–13 September 1995, ICPO Publ. Ser. No. 1, International CLIVAR Project Office, Hamburg, Germany.
Cohen, S. J.: 1990, ‘Bringing the Global Warming Issue Closer to Home: The Challenge of Regional Impact Studies’, Bull. Am. Meteorol. Soc. 71, 520–526.
Colman, R. A., McAvaney, B. J., Fraser, J. R., and Power S. B.: 1994, ‘Annual Mean Meridional Energy Transport Modelled by a General Circulation Model for Present and 2 × CO2 Equilibrium Climates’, Clim. Dynamics 10, 221–229.
Cubasch, U., Hasselmann, K., Hock, H., Maier-Reimer, E., Mikolajewicz, U., Santer, B. D., and Sausen, R.: 1992, ‘Time Dependent Greenhouse Warming Computations with a Coupled Ocean Atmosphere Model’, Clim. Dynamics 8, 55–69.
Drosdowsky, W.: 1993, ‘An Analysis of Australian Seasonal Rainfall Anomalies: 1950–1987, II. Temporal Variability and Teleconnection Patterns’, Int. J. Climatol. 13, 111–149.
England, M. H., Garcon, V., and Minster, J.: 1994, ‘Chlorofluorocarbon Uptake in a World Ocean Model, 1. Sensitivity to the Surface Gas Forcing’, J. Geophys. Res. 99, 25, 215–225, 233.
England, M. H.: 1995, ‘Using Chlorofluorocarbons to Assess Ocean Models’, Geophys. Res. Letts. 22, 3051–3054.
Gordon, H. G. and O'Farrell, S. P.: 1996, ‘Transient Climate Change in the CSIRO Coupled Model and Dynamic Sea Ice’, Monthly Weather Review in press.
Gregory, J. M. and Mitchell, J. F. B.: 1995, ‘Simulation of Daily Variability of Surface Temperature and Precipitation over Europe in the Current and 2 × CO2 Climates using the UKMO High-Resolution Climate Model’, Q. J. Roy. Meterolog. Soc. 121, 1451–1476.
Grotch, S. L. and MacCracken, M. C.: 1991, ‘The Use of General Circulation Models to Predict Regional Climate Change’, J. Climate 4, 286–303.
IPCC: 1990, Houghton, J. T., Jenkins, G. J., and Ephraums, J. J. (eds.), Climate Change: The IPCC Scientific Assessment, Cambridge Unversity Press, Cambridge, 365 pp.
IPCC: 1992, Houghton, J. T., Callander, B. A., and Varney, S. K. (eds.), Climate Change 1992: The Supplementary Report to the IPCC Scientific Assessment, Working Group 1, Cambridge University Press, Cambridge, 200 pp.
Kellogg, W. W. and Zhao, Z.-C.: 1988, ‘Sensitivity of Soil Moisture to Doubling of Carbon Dioxide in Climate Model Experiments, Part I: North America’, J. Climate 1, 348–366.
Kowalczyk, E. A., Garratt, J. R., and Krummel, P. B.: 1991, ‘A Soil-Canopy Scheme for Use in a Numerical Model of the Atmosphere - 1D Stand-Alone Model’, CSIRO Div. Atmos. Res. Tech. Pap. No. 23, CSIRO, Melbourne, 56 pp.
Legates, D. R. and Willmott, C. J.: 1990, ‘Mean Seasonal and Spatial Variability in Gauge-Corrected, Global Precipitation’, Int. J. Climatol. 10, 111–127.
Levitus, S.: 1982, Climatological Atlas of the World Ocean, NOAA Prof. Paper No. 13, U.S. Dept. of Commerce, Washington, DC, 173 pp.
Lunkeit, F., Sausen, R., and Oberhuber, J. M.: 1994, ‘Climate Simulations with the Global Coupled Atmosphere-Ocean Model ECHAM/OPYC, Part I: Present-Day Climate and ENSO Events’, MPI Report No. 132, Max-Planck-Institute, Hamburg.
McFarlane, N. A., Boer, G. J., Blancet, J.-P, and Lazare, M.: 1992, ‘The Canadian Climate Centre Second-Generation General Circulation Model and its Equilibrium Climate’, J. Climate 5, 1013–1044.
Manabe, S., Stouffer, R. J., Spelman, M. J., and Bryan, K.: 1991, ‘Transient Responses of a Coupled Ocean Atmosphere Model to Gradual Changes of Atmospheric CO2, Part I: Annual Mean Response’, J. Climate 4, 785–818.
Mitchell, J. F. B., Johns, T. C., Gregory, J. M., and Tett, S. F. B.: 1995, ‘Climate Responses to Increasing Levels of Greenhouse Gases and Sulphate Aerosols’, Nature 376, 501–504.
Murphy, J. M.: 1995, ‘Transient Response of the Hadley Centre Coupled Ocean-Atmosphere Model to Increasing Carbon Dioxide, Part I: Control Climate and Flux Adjustment’, J. Climate 8, 36–56.
Murphy, J. M. and Mitchell, J. F. B.: 1995, ‘Transient Response of the Hadley Centre Coupled Ocean-Atmosphere Model to Increasing Carbon Dioxide, Part II: Spatial and Temporal Structure of Response’, J. Climate 8, 57–80.
O'Farrell, S. P.: 1996, ‘Sensitivity Study of a Dynamical Ice Model; the Effect of the External Stresses and Land Boundary Conditions on Ice Thickness Distribution’, J. Geophys. Res. in press.
Parry, M. L., Kenny, G. J., and Harrison, P. A.: 1993, ‘Aims and Methods’, in Kenny, G. J., Harrison, P. A., and Parry, M. L. (eds.), The Effect of Climate Change on Agricultural and Horticultural Potential in Europe, Research Report No. 2, Environmental Change Unit, University of Oxford, Oxford, pp. 1–11.
Rowntree, P. R.: 1990, ‘Estimates of Future Climatic Change over Britain’, Weather 45, 79–89.
Taylor, K. E. and Penner, J. E.: 1994, ‘Response of the Climate System to Atmospheric Aerosols and Greenhouse Gases, Nature 369, 734–737.
Washington, W. M. and Meehl, G. A.: 1989, ‘Climate Sensitivity due to Increased CO2: Experiments with a Coupled Atmosphere and Ocean General Circulation Model’, Clim. Dynamics 4, 1–38.
Watterson, I. G., Dix, M. R., Gordon, H. B., and McGregor, J. L.: 1995, ‘The CSIRO 9-level Atmospheric General Circulation Model and Its Equilibrium Present and Doubled CO2 Climates’, Aust. Met. Mag. 44, 111–125.
Whetton, P. H.: 1996, Comment on ‘Global and Terrestrial Precipitation: A Comparative Assessment of Existing Climatologies’ by D. R. Legates, Int. J. Climatol. in press.
Whetton, P. H., Fowler, A. M., Haylock, M. R., and Pittock, A. B.: 1993, ‘Implications of Climate Change due to the Enhanced Greenhouse Effect on Floods and Droughts in Australia’, Clim. Change 25, 289–317.
Whetton, P. H., Haylock, M. R., and Galloway, R.: 1996a, ‘Climate Change and Snow Cover Duration in the Australian Alps, Clim. Change 32, 447–479.
Whetton, P. H., Pittock, A. B., Labraga, J. C., Mullan, A. B., and Joubert, A., 1996b, in Henderson-Sellers, A. and Giambelluca, T. (eds.), Climate Change, People and Policy: Developing Southern Hemisphere Perspectives, Wiley, Chichester, pp. 89–130.
Wigley, T. M. L. and Raper, S. C. B.: 1992, ‘Implications for Climate and Sea-Level of Revised IPCC Emissions Scenarios’, Nature 357, 293–300.
Zhao, Z.-C., and Kellogg, W. W.: 1988, ‘Sensitivity of Soil Moisture to Doubling of Carbon Dioxide in Climate Model Experiments, Part II: The Asian Monsoon Region’, J. Climate 1, 367–378.
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Whetton, P.H., England, M.H., O'Farrell, S.P. et al. Global comparison of the regional rainfall results of enhanced greenhouse coupled and mixed layer ocean experiments: Implications for climate change scenario development. Climatic Change 33, 497–519 (1996). https://doi.org/10.1007/BF00141702
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DOI: https://doi.org/10.1007/BF00141702