Abstract
We use a simple methodology to test whether a set of atmospheric climate models with prescribed radiative forcings and ocean surface conditions can reproduce twentieth century climate variability. Globally, rapid land surface warming since the 1970s is reproduced by some models but others warm too slowly. In the tropics, air-sea coupling allows models to reproduce the Southern Oscillation but its strength varies between models. We find a strong relationship between the Southern Oscillation in global temperature and the rate of global warming, which could in principle be used to identify models with realistic climate sensitivity. This relationship and a weak response to ENSO suggests weak sensitivity to changes in sea surface temperature in some of the models used here. In the tropics, most models reproduce part of the observed Sahel drought. In the extratropics, models do not reproduce the observed increase in the North Atlantic Oscillation in response to forcings, through internal variability, or as a combination of both.
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References
Alexander MA, Bladé I, Newman M, Lanzante J, Lau N-C, Scott J (2002) The atmospheric bridge: The influence of ENSO teleconnections on air-sea interaction over the global oceans. J Climate 15:2205–2231
Bacmeister JT, Pegion PJ, Schubert SD, Suarez MJ (2000) An atlas of seasonal means simulated by the NSIPP 1 atmospheric GCM. NASA Tech. Memo. 104606, Vol. 17, 194 pp. Available from Goddard Space Flight Center, Greenbelt, MD 20771
Bader J, Latif M (2005) North Atlantic response to anomalous Indian Ocean SST in a coupled GCM. J Clim 18:5382–5389
Biasutti M, Giannini A (2006) Robust Sahel drying in reponse to late 20th century forcings. Geophys Res Lett 33:L11706
Bretherton CS and Battisti DS (2000) An interpretation of the results from atmospheric general circulation models forced by the time history of the observed sea surface temperature distribution. Geophys Res Lett 27:767–770
Brohan P, Kennedy JJ, Harris I, Tett SFB, Jones PD (2006) Uncertainty estimates in regional and global observed temperature changes: a new dataset from 1850. J Geophys Res 111:D12106., doi:10.1029/2005JD006548
Bronnimann S (2007) The impact of El Nino/Southen Oscillation on European climate. Rev Geophys 45:RG3003
Cash BA, Rodó X, Kinter JL III (2008) Links between tropical Pacific SST and cholera incidence in Bangladesh: role of the eastern and central tropical Pacific. J Climate (in press)
Cohen J, Frei A, Rosen RD (2005) The role of boundary conditions in AMIP-II simulations of the NAO. J Clim 18:973–981
Colman R, Deschamps L, Naughton M, Rikus L, Sulaiman A, Puri K, Roff G, Sun Z, Embery G (2005) BMRC Atmospheric Model (BAM) version 3.0: comparison with mean climatology. BMRC Research Report 108, 56pp
Delworth TL (2006) GFDL’s CM2 Global Coupled Climate Models. Part 1: Formulation and simulation characteristics. J Clim 19(5):643–674
Dong B, Sutton RT, Scaife AA (2006) Multidecadal Modulation of El Nino-Southern Oscillation (ENSO) variance by Atlantic Ocean sea surface temperatures. Geophys Res Let 33:L08705
Egorova T, Rozanov E, Zubov V, Manzini E, Schmutz W, Peter T (2005) Chemistry-climate model SOCOL: a validation of the present-day climatology. Atmos Chem Phys 5:1557–1576
Folland CK, Parker DE, Palmer TN (1986) Sahel rainfall and worldwide sea surface temperature 1901–85. Nature 320:602–607
Folland CK, Shukla J, Kinter J, Rodwell MJ (2002) The climate of the twentieth century project. CLIVAR Exchanges 7(2):37–39
Frankignoul C, Hasselmann K (1977) Stochastic climate models. Part II: Application to sea-surface temperature anomalies and thermocline variability. Tellus 29:289–305
Giannini A, Saravanan R, Chang P (2003) Oceanic forcing of Sahel rainfall on interannual to interdecadal time scales. Science 302:1027–1030
Gordon HB, Rotstayn LD, McGregor JL, Dix MR, Kowalczyk AE, O’Farrell SP, Waterman AC, Hirst AC, Wilson MA, Collier IG, Watterson IG, Elliot TI (2002) The CSIRO Mk3 Climate System Model. Technical 60. CSIRO, Melbourne
Hoerling MP, Hurrell JW, Xu T (2001) Tropical origins for recent North Atlantic Climate Change. Science 292: 90–92
Hoerling MP, Hurrell JW, Xu T, Bates GT, Phillips AS (2004) Twentieth century North Atlantic climate change. Part II: Understanding the effect of Indian Ocean warming. Clim Dyn 23:391–405
Huffman J et al. (1997) The Global Precipitation Climatology Project (GPCP) combined precipitation dataset. Bull Am Met Soc 78:5–20
Hulme M (1994) Validation of large-scale precipitation fields in General Circulation Models. In: Debois M, Desalmand F (eds) Global Precipitation and Climate Change. NATO ASI series, vol 126. Springer, Heidelberg, pp 387–405
Hurrell JW, Hoerling MP, Phillips AS, Xu T (2004) Twentieth centuty North Atlantic climate change. Part I: Assessing determinism. Clim Dyn 23(3–4):371–389
Jones GS, Stott PA, Christidis N (2007) Human contribution to rapidly increasing frequency of very warm Northern Hemisphere summers. J Geophys Res (accepted)
Knight JR, Folland CK, Scaife AA (2006) Climate impacts of the Atlantic Multidecadal oscillation. Geophys Res Lett 33:L17706
Knutti R, Meehl GA, Allen MR, Stainforth DA (2006) Constraining climate sensitivity from the seasonal cycle in surface temperarture. J Clim 19:4224–4233
Kucharski F et al (2008) The CLIVAR C20C Project: Skill of simulating Indian monsoon rainfall on interannual to decadal timescales. Does GHG forcing play a role? Clim Dyn (in preparation)
Kucharski F, Molteni F, Bracco A (2006) Decadal interactions between the Western Tropical Pacific and the North Atlantic Oscillation. Clim Dyn 26:79–91. doi:10.1007/s00382-005-0085-5
Lau N-C, Nath MJ (2003) Atmosphere-ocean variations in the Indo-Pacific sector during ENSO episodes. J Clim 16:3–20
Lee M-I, Kang I-S, Kim J-K, Mapes BE (2001) Influence of cloud-radiation interaction on simulating tropical intraseasonal oscillation with an atmospheric general circulation model. J Geophys Rev 106:14219–14233
Lee M-I, Kang I-S, Kim J-K, Mapes BE (2003) Impacts of cumulus convection parametrization on aqua-planet AGCM simulations of tropical intraseasonal variability. J Meteor Soc Jap 81:963–992
Lorenz EN (1963) Deterministic nonperiodic flow. J Atm Sci 20:130–141
Maloney ED, Chelton D (2006) An assessment of the sea surface temperature influence on surface wind stress in numerical weather prediction and climate models. J Clim 19:2743–2762
Mehta VM, Suarez MJ, Manganello JV, Delworth TL (2000) Oceanic influence on the North Atlantic Oscillation and associated northern hemisphere climate vaiations:1959–1993. Geophys Res Lett 27:121–124
Minobe S, Kuwano-Yoshida A, Komori N, Xie S-P, Small RJ (2008) Influence of the gulf stream on the troposphere. Nature 452:206–210
Murphy JM, Booth BBB, Collins M, Harris GR, Sexton DMH, Webb MJ (2007) A methodology for probabilistic predictions of regional climate change from perturbed physics ensembles. Phil Trans Roy Soc A 365: 1993–2028
Nakamura M, Enomoto T, Yamane S (2005) A simulation study of the 2003 heatwave in Europe. J Earth Sim 2:55–69
Namias J (1964) Seasonal persistence and recurrence of European blocking during 1958–60. Tellus XVI:394–407
Palmer TN, Sun Z (1985) A modelling and observational study of the relationship between sea surface temperature in the north-west Atlantic and the atmospheric general circulation. Quart J Roy Met Soc 111: 947–975
Pope VD, Gallani ML, Rowntree PR, Stratton RA, (2000) The impact of new physical parametrizations in the Hadley Centre climate model: HadAM3. Clin Dyn 16:123–146
Ratcliffe RAS, Murray R (1970) New lag associations between North Atlantic sea temperatures and European pressure, applied to long range weather forecasting. Quart J Roy Met Soc 96:226–246
Rayner NA, Parker DE, Horton EB, Folland CK, Alexander LV, Rowell DP, Kent EC, Kaplan A (2003) Global analyses of SST, sea ice, and night marine air temperature since the late nineteenth century. J Geoph Res 108(D14):4407. doi:10.1029/2002JD002670
Rodwell MJ, Folland CK (2002) Atlantic air–sea interaction and seasonal predictability. Q J R Met Soc 128:1413–1443
Rodwell MJ, Rowell DP, Folland CK (1999) Oceanic forcing of the winter North Atlantic Oscillation and European climate. Nature 398: 320–323
Rodwell MJ, Drevillon M, gnoul C, Hurrell JW, Pohlmann H, Stendel M, Sutton RT (2004) North Atlantic forcing of climate. Quart J R Meteorol Soc 130:2013–2032
Rowell DP (2003) The impact of Mediterranean SSTs on the Sahelian rainfall season. J Clim 16:849–862
Rowell DP, Folland CK, Maskell K, Ward MN (1945) Variability of summer rainfall over tropical north Africa (1906–92): Observations and modelling. Q J R Meterol Soc 121:669–704
Saha S, Nadiga S, Thiaw C, Wang J, Wang W, Zhang Q, Van den Dool HM, Pan HL, Moorthi S, Bebringer D, Stokes D, Pena M, Lord S, White G, Ebisuzaki W, Peng P, Xie P (2006) The NCEP climate forecast system. J Clim 19:3483–3517
Scaife AA, Knight JR, Vallis GK, Folland CK (2005) A stratospheric influence on the winter NAO and North Atlantic surface climate. Geophys Res Lett 32:L18715
Schneider EK, Bengtsson L, Hu Z-Z (2003) Forcing of Northern Hemisphere climate trends. J Atm Sci 60:1504–1521
Schraner M, Rozanov E, Schnadt C, Kenzelmann P, Fischer AM, Zubov V, Luo BP, Hoyle C, Füglistaler S, Egorova T, Brönnimann S, Peter T (2008) Chemistry-climate model SOCOL: version 2.0 with improved transport and chemistry/micro-physics schemes. Atmos Chem Phys 8:11103–11147
Schubert SD, Suarez MJ, Pegion PJ, Koster RD, Bacmeister JT (2004) On the cause of the 1930s Dust Bowl. Science 303:1855
Sexton DMH, Rowell DP, Folland CK, Karoly DJ (2001) Detection of anthropogenic climate change using an atmospheric GCM. Clim Dyn 7:669–685
Shibata K, Yoshimura H, Ohizumi M, Hosaka M, Sugi M (1999) A simulation of troposhpere, stratosphere and mesosphere with an MRI/JMA98 GCM. Papers Meteorl Geophys 50:15–53
Shneerov B.Ye., Meleshko VP, Matyugin VA, Sporyshev PV, Pavlova TV, Vavulin SV, Shkol’nik IM Zubov VA, Gavrilina VM, Govorkova VA (2001) The up-to-date version of the MGO global model of general circulation of the atmosphere (version MGO-2). MGO Proceedings, No.550, pp 3–43
Shukla J, DelSole T, Fennessy M, Kinter J, Paolino D (2006) Climate model fidelity and projections of climate change. Geophys Res Lett 33:L07702. doi:10.1029/2005GL025579
Solomon S, Qin D, Manning M, Marquis M, Averyt K, Tignor MMB, Miller HL, Chen Z (eds) (2007) Climate change 2007: the physical science basis. Contribution of Working Group 1 to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, pp 589–662
Stenchikov G, Hamilton K, Stouffer RJ, Robock A, Ramaswamy V, Santer B, Graf H-F (2006) Arctic Oscillation response to volcanic eruptions in the IPCC AR4 climate models. J Geophys Res 111:D07107
Stott PA, Kettleborough JA (2002) Origins and estimates of uncertainty in predictions of twenty-first century temperature rise. Nature 416: 723–726
Thompson DWJ, Wallace JM, Hegerl GC (2000) Annular modes in the extratropical circulation. Part II. Trends J Clim 13:1018–1036
Toniazzo T, Scaife AA (2006) The influence of ENSO on winter North Atlantic climate. Geophys Res Lett 33:L2704
Trenberth KE, Caron JM, Stepanial DP, Worley S (2002) Evolution of El Nino-Southern Oscillation and global atmospheric surface temperatures. J Geophys Res 107. doi:10.1029/2000JD000298
Wang B, Wan H, Ji Z Z, Zhang X, Yu R C, Yu Y Q, Liu H L (2004) Design of a new dynamical core for global atmospheric models based on some efficient numerical methods. Sci China (Ser A) 47:4–21
Zeng N, Neelin JD, Lau K-M, Tucker CJ (1999) Enhancement of interdecadal climate variability in the Sahel by vegetation interaction. Science 286: 1537–1540
Zhang R, Delworth TL (2006) Impact of Atlantic multidecadal oscillations on India/Sahel rainfall and Atlantic hurricanes. Geophys Res Lett 33:L17702
Zhou T et al (2008) The CLIVAR C20C Project: Which components of the Asian-Australian monsoon variability are forced and reproducible? Clim Dyn (in preparation)
Acknowledgments
This work contributes to the CLIVAR Climate of the twentieth Century project: http://www.iges.org/c20c/home.html and was carried out with support from the UK Met Office’s Hadley Centre climate research program: joint Defra and MoD Programme, (Defra) GA01101 (MoD) CBC/2B/0417 Annex C5. We thank Dr J. Murphy for useful comments and Drs B. Booth, M. Collins and G. Harris for coupled ocean atmosphere data from the Hadley Centre model and Dr D. Rowell for the Sahel rainfall data. J. Kinter and K. Jin were supported by research grants from NSF (0332910), NOAA (NA04OAR4310034) and NASA (NNG04GG46G). P.Sporyshev was supported by the Russian Foundation for Basic Research. S. Grainger was supported by the Australian Climate Change Science Program of the Australian Greenhouse Office. The development and maintenance of CCM SOCOL was funded by ETH Zurich grant PP-1/04-1.
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Scaife, A.A., Kucharski, F., Folland, C.K. et al. The CLIVAR C20C project: selected twentieth century climate events. Clim Dyn 33, 603–614 (2009). https://doi.org/10.1007/s00382-008-0451-1
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DOI: https://doi.org/10.1007/s00382-008-0451-1