• Cox, P. M., Description of the TRIFFID dynamic global vegetation model, Technical Note 24, Hadley Centre, Met Office, 2001.
  • Cox, P. M., C. Huntingford, and R. J. Harding, A canopy conductance and photosynthesis model for use in a GCM land surface scheme, J. Hydrol., 212–213, 7994, 1998.
  • Cox, P. M., R. A. Betts, C. D. Jones, S. A. Spall, and I. J. Totterdell, Acceleration of global warming due to carbon-cycle feedbacks in a coupled climate model, Nature, 408, 184187, 2000.
  • Cox, P. M., R. A. Betts, C. D. Jones, S. A. Spall, and I. J. Totterdell, Modelling vegetation and the carbon cycle as interactive elements of the climate system, in Meteorology at the Millennium, edited by R. Pearce, Academic, San Diego, Calif., 2001.
  • Cramer, W., et al., Global response of terrestrial ecosystem structure and function to CO2 and climate change: Results from six dynamic global vegetation models, Global Change Biol., 7, 357374, 2001.
  • Fearnside, P. M., Global warming and tropical land-use change: Greenhouse gas emissions from biomass burning, decomposition and soils in forest conversion, shifting cultivation and secondary vegetation, Clim. Change, 46, 115158, 2000.
  • Friedlingstein, P., L. Bopp, P. Ciais, J.-L. Dufresne, L. Fairhead, H. LeTreut, P. Monfray, and J. Orr, Positive feedback between future climate change and the carbon cycle, Geophys. Res. Lett., 28, 15431546, 2001.
  • Gordon, C., C. Cooper, C. A. Senior, H. Banks, J. M. Gregory, T. C. Johns, J. F. B. Mitchell, and R. A. Wood, The simulation of SST, sea ice extents and ocean heat transports in a version of the Hadley Centre coupled model without flux adjustments, Clim. Dyn., 16, 147168, 2000.
  • Gurney, K. R., et al., Towards robust regional estimates of CO2 sources and sinks using atmospheric transport models, Nature, 415, 626630, 2002.
  • Johns, T. C., R. E. Carnell, J. F. Crossley, J. M. Gregory, J. F. B. Mitchell, C. A. Senior, S. F. B. Tett, and R. A. Wood, The second Hadley Centre coupled ocean-atmosphere GCM: Model description, spinup and validation, Clim. Dyn., 13, 103134, 1997.
  • Johns, T. C., et al., Anthropogenic climate change for 1860 to 2100 simulated with the HadCM3 model under updated emissions scenarios, Clim. Dyn., doi:10.1007/s00382-002-0296-y, 2003.
  • Jones, C., and P. Cox, Constraints on the temperature sensitivity of global soil respiration from the observed interannual variability in atmospheric CO2, in Atmospheric Science Letters, 2001a.
  • Jones, C. D., and P. M. Cox, Modelling the volcanic signal in the atmospheric CO2 record, Global Biogeochem. Cycles, 15, 453466, 2001b.
  • Jones, A., D. L. Roberts, M. J. Woodage, and C. E. Johnson, Indirect sulphate aerosol forcing in a climate model with an interactive sulphur cycle, J. Geophys. Res., 106, 20,29320,310, 2001a.
  • Jones, C. D., M. Collins, P. M. Cox, and S. A. Spall, The carbon cycle response to ENSO: A coupled climate-Carbon cycle model study, J. Clim., 14, 41134129, 2001b.
  • Jones, C., P. Cox, and C. Huntingford, Uncertainty in climate-carbon cycle projections associated with the sensitivity of soil respiration to temperature, Tellus, Ser. B, in press, 2003.
  • Lean, J., J. Beer, and R. Bradley, Reconstruction of solar irradiance since 1610: Implications for climate change, Geophys. Res. Lett., 22, 31953198, 1995.
  • Lucht, W., I. C. Prentice, R. B. Myneni, S. Sitch, P. Friedlingstein, W. Cramer, P. Bousquet, W. Buermann, and B. Smith, Climatic control of the high-latitude vegetation greening trend and Pinatubo effect, Science, 296, 16871689, 2002.
  • Nakićenović, al., Special Report on Emissions Scenarios, 599 pp., Cambridge Univ. Press, New York, 2000.
  • Palmer, J. R., and I. J. Totterdell, Production and export in a global ocean ecosystem model, Deep Sea Res., Part X, 48, 11691198, 2001.
  • Parker, D. E., C. K. Folland, and M. Jackson, Marine surface temperature: Observed variations and data requirements, Clim. Change, 31, 559600, 1995.
  • Read, D., et al., The Role of Land Carbon Sinks in Mitigating Global Climate Change, Roy. Soc., London, 2001.
  • Sato, M., J. E. Hansen, M. P. McCormick, and J. B. Pollack, Stratospheric aerosol optical depths (1850–1990), J. Geophys. Res., 98, 22,98722,994, 1993.
  • Schimel, D., et al., Radiative forcing of climate change, in Climate Change 1995: The Science of Climate Change, edited by J. T. Houghton et al., chap. 2, pp. 65131, Cambridge Univ. Press, New York, 1996.
  • Stevenson, D. S., C. E. Johnson, W. J. Collins, R. G. Derwent, and J. M. Edwards, Future estimates of tropospheric ozone radiative forcing and methane turnover: The impact of climate change, Geophys. Res. Lett., 27, 20732076, 2000.
  • Stott, P. A., S. F. B. Tett, G. S. Jones, M. R. Allen, J. F. B. Mitchell, and G. J. Jenkins, External control of 20th century temperature by natural and anthropogenic forcings, Science, 290, 21332137, 2000.
  • Stott, P. A., S. F. B. Tett, G. S. Jones, M. R. Allen, W. J. Ingram, and J. F. B. Mitchell, Attribution of twentieth century temperature change to natural and anthropogenic causes, Clim. Dyn., 17, 121, 2001.