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360 IPCC Special Report on Carbon dioxide Capture and Storage curves that take into account the interplay between large CO2 point sources and available storage capacity in various regions of the world should continue; these cost curves would help to show how CCS technologies will deploy in practice and would also help improve the economic modelling of CCS deployment in response to various modelled scenarios. Dooley, J.J., C.L. Davidson, M.A. Wise, R.T. Dahowski, 2004: Accelerated Adoption of Carbon Dioxide Capture and Storage within the United States Electric Utility Industry: the Impact of Stabilizing at 450 ppmv and 550 ppmv. In, E.S. Rubin, D.W. Keith and C.F. Gilboy (eds.), Proceedings of 7th International Conference on Greenhouse Gas Control Technologies. Volume 1: Peer-Reviewed Papers and Plenary Presentations, IEA Greenhouse Gas Programme, Cheltenham, UK, 2004. Dooley, J.J. and M.A. Wise, 2003: Potential leakage from geologic sequestration formations: Allowable levels, economic considerations, and the implications for sequestration R&D. In: J. Gale and Y. Kaya (eds.), Greenhouse Gas Control Technologies: Proceedings of the Sixth International Conference on Greenhouse Gas Control Technologies, Kyoto, Japan, Elsevier Science, Oxford, UK, ISBN 0080442765. Dooley, J.J., S.H. Kim, and P.J. Runci, 2000: The role of carbon capture, sequestration and emissions trading in achieving short-term carbon emissions reductions. Proceedings of the Fifth International Conference on Greenhouse Gas Control Technologies. Sponsored by the IEA Greenhouse Gas R&D Programme. Edmonds, J., and M. Wise, 1998: The economics of climate change: Building backstop technologies and policies to implement the Framework Convention on Climate Change. Energy & Environment, 9(4), 383–397. Edmonds, J.A., J. Clarke, J.J. Dooley, S.H. Kim, R. Izaurralde, N. Rosenberg, G.M. Stokes, 2003: The potential role of biotechnology in addressing the long-term problem of climate change in the context of global energy and economic systems. In: J. Gale and Y. Kaya (eds.), Greenhouse Gas Control Technologies: Proceedings of the Sixth International Conference on Greenhouse Gas Control Technologies, Kyoto, Japan, Elsevier Science, Oxford, UK, pp. 1427–1433, ISBN 0080442765. Edmonds, J., J. Clarke, J.J. Dooley, S.H. Kim, S.J. Smith, 2004: Stabilization of CO2 in a B2 world: insights on the roles of carbon capture and disposal, hydrogen, and transportation technologies. Energy Economics, 26(4), 501–755. Edmonds, J.A., P. Freund, and J.J. Dooley, 2000: The role of carbon management technologies in addressing atmospheric stabilization of greenhouse gases. Published in the proceedings of the Fifth International Conference on Greenhouse Gas Control Technologies. Sponsored by the IEA Greenhouse Gas R&D Programme. Fujii, Y. and K. Yamaji, 1998: Assessment of technological options in the global energy system for limiting the atmospheric CO2 concentration, Environmental Economics and Policy Studies, 1 pp.113–139. Fujii, Y., R. Fukushima, and K. Yamaji, 2002: Analysis of the optimal configuration of energy transportation infrastructure in Asia with a linear programming energy system model, Int. Journal Global Energy Issues, 18, No.1, pp.23–43. Gielen, D. and J. Podkanski. 2004: The Future Role of CO2 Capture in the Electricity Sector. In, E.S. Rubin, D.W. Keith and C.F. Gilboy (eds.), Proceedings of 7th International Conference on Greenhouse Gas Control Technologies. Volume 1: Peer-Reviewed Papers and Plenary Presentations, IEA Greenhouse Gas Programme, Cheltenham, UK, 2004. Recent changes in energy prices and changes in policy regimes related to climate change are not fully reflected in the literature available as this chapter was being written. This suggests a need for a continuous effort to update analyses and perhaps draft a range of scenarios with a wider range of assumptions (e.g., fuel prices, climate policies) in order to understand better the robustness and sensitivity of the current outcomes. References Akimoto, K., Kotsubo, H., Asami, T., Li, X., Uno, M., Tomoda, T., and T. Ohsumi, 2003: Evaluation of carbon sequestrations in Japan with a mathematical model. Greenhouse Gas Control Technologies: Proceedings of the Sixth International Conference on Greenhouse Gas Control Technologies, J. Gale and Y. Kaya (eds.), Kyoto, Japan, Elsevier Science, Oxford, UK. Audus, H. and P. Freund, 2004: Climate change mitigation by biomass gasification combined with CO2 capture and storage. In, E.S. Rubin, D.W. Keith, and C.F. Gilboy (eds.), Proceedings of 7th International Conference on Greenhouse Gas Control Technologies. Volume 1: Peer-Reviewed Papers and Plenary Presentations, IEA Greenhouse Gas Programme, Cheltenham, UK, 2004. Baer, P., 2003: An Issue of Scenarios: Carbon Sequestration as Investment and the Distribution of Risk. An Editorial Comment. Climate Change, 59, 283–291. Dooley, J.J., R.T. Dahowski, C.L. Davidson, S. Bachu, N. Gupta, and H. Gale, 2004a: A CO2 storage supply curve for North America and its implications for the deployment of carbon dioxide capture and storage systems. In, E.S. Rubin, D.W. Keith, and C.F. Gilboy (eds.), Proceedings of 7th International Conference on Greenhouse Gas Control Technologies. Volume 1: Peer-Reviewed Papers and Plenary Presentations, IEA Greenhouse Gas Programme, Cheltenham, UK, 2004. Dooley, J.J., S.K. Kim, J.A. Edmonds, S.J. Friedman, and M.A. Wise, 2004b: A First Order Global Geologic CO2 Storage Potential Supply Curve and Its Application in a Global Integrated Assessment Model. In, E.S. Rubin, D.W. Keith, and C.F. Gilboy (eds.), Proceedings of 7th International Conference on Greenhouse Gas Control Technologies. 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