@Article{HuntingfordHaGeCoBeMaGa:2004:UsGCAn,
               author = "Huntingford, C. and Harris, P. P. and Gedney, N. and Cox, P. M. 
                         and Betts, R. A. and Marengo, Jose Antonio and Gash, J. H. C.",
          affiliation = "{CPTEC-INPE-Cachoeira Paulista-12630-000-SP-Brasil}",
                title = "Using a GCM analogue model to investigate the potential for 
                         Amazonian forest dieback",
              journal = "Theoretical and Applied Climatology",
                 year = "2004",
               volume = "78",
               number = "1-3",
                pages = "177--185",
                month = "Jun.",
             keywords = "climate model, impact.",
             abstract = "A combined GCM analogue model and GCM land surface representation 
                         is used to investigate the influences of climatology and land 
                         surface parameterisation on modelled Amazonian vegetation change. 
                         This modelling structure (called IMOGEN) captures the main 
                         features of the changes in surface climate as estimated by a GCM 
                         with enhanced atmospheric greenhouse gas concentrations. Advantage 
                         is taken of IMOGEN's computational speed which allows multiple 
                         simulations to be carried out to assess the robustness of the GCM 
                         results. The timing of forest dieback is found to be sensitive to 
                         the initial",
           copyholder = "SID/SCD",
                 issn = "0177-798X",
             language = "en",
           targetfile = "Huntingford_Using a GCM.pdf",
        urlaccessdate = "11 maio 2024"
}