Systems approaches have great potential for application in predictive ecology. In this paper, we present a range of examples, where systems approaches are being developed and applied at a range of scales in the field of global change and biogeochemical cycling. Systems approaches range from Bayesian calibration techniques at plot scale, through data assimilation methods at regional to continental scales, to multi-disciplinary numerical model applications at country to global scales. We provide examples from a range of studies and show how these approaches are being used to address current topics in global change and biogeochemical research, such as the interaction between carbon and nitrogen cycles, terrestrial carbon feedbacks to climate change and the attribution of observed global changes to various drivers of change. We examine how transferable the methods and techniques might be to other areas of ecosystem science and ecology.
Christopher J. Brown, David S. Schoeman, William J. Sydeman, Keith Brander, Lauren B. Buckley, Michael T. Burrows, Carlos M. Duarte, Pippa J. Moore, John M. Pandolfi, Elvira S. Poloczanska, W. N. Venables, Anthony J. Richardson
Pete Smith, Christian A. Davies, Stephen M. Ogle, Giuliana Zanchi, Jessica Bellarby, Neil Bird, Robert M. Boddey, Niall P. McNamara, D. S. Powlson, Annette Cowie, Meine van Noordwijk, Sarah C. Davis, Daniel de Boucherville Richter, L. Kryzanowski, Mark T. van Wijk, Judith Stuart, Akira Kirton, Duncan Eggar, Geraldine Newton‐Cross, Tapan Kumar Adhya, Ademola K. Braimoh
Stephen R. Carpenter, Carl Folke, Albert V. Norström, Olof Olsson, Lisen Schultz, Bina Agarwal, Patricia Balvanera, Bruce M. Campbell, Juan Carlos Castilla, Wolfgang Crämer, Ruth DeFries, P. B. Eyzaguirre, Terry P. Hughes, Stephen Polasky, Zainal Abidin Sanusi, Robert J. Scholes, Marja Spierenburg
Discussion(0)
No comments yet. Be the first to comment.