This collection of contributions from a diverse group of prominent international scientists and policy makers brings together their in-depth analyses and innovative ideas about how to resolve the 'energy for development' predicament. It includes studies quantifying the role of energy in socioeconomic development, analysis of the interplay between supranational and national institutions in policy implementation, the energy implications of demographic trends such as urbanisation, and exploration of supply-side issues such as the potential role of nuclear energy and 'cleaning' fossil fuel energy generation through carbon capture.

"Fair Weather"s a unique, cross-disciplinary assessment of fairness and equity issues in the context of global climate change--a crucial dimension in current international negotiations--written by a collection of leading scientists in economics, sociology and social psychology, ethics, international law and political science.How should responsibility for adapting to climate change be distributed? Who should bear the costs of mitigating its impacts and how should these costs be measured? Answers to these questions differ, often according to the vulnerability, wealth and level of industrial development of the country.Finding a fair solution is controversial, but crucial to the complex and vital negotiations over global warming. This illuminating and accessible volume explores the policy dimensions and analytical needs of the negotiation process. It is essential reading for policy makers and students and teachers of economics, sociology and social psychology, ethics, international relations, law and political science.CONTRIBUTORSH Asbjorn AaheimFrank BiermannSamuel FankhauserCarsten HelmJuliane KokottJoanne Linnerooth-BayerVolker LinneweberElizabeth L MaloneShuzo NishiokaDavid W PearceSteve RaynerP R ShuklaDominik ThiemeMichael ThompsonRichard S J Tol David G Victor

Fossil fuels will remain the backbone of the global energy economy for the foreseeable future. The contribution of nuclear energy to the global energy supply is also expected to increase. With the pressing need to mitigate climate change and reduce greenhouse gas emissions, the fossil energy industry is exploring the possibility of carbon dioxide disposal in geological media. Geological disposal has been studied for decades by the nuclear industry with a view to ensuring the safe containment of its wastes. Geological disposal of carbon dioxide and that of radioactive waste gives rise to many common concerns in domains ranging from geology to public acceptance. In this respect, comparative assessments reveal many similarities, ranging from the transformation of the geological environment and safety and monitoring concerns to regulatory, liability and public acceptance issues. However, there are profound differences on a broad range of issues as well, such as the quantities and hazardous features of the materials to be disposed of, the characteristics of the targeted geological media, the site engineering technologies involved and the timescales required for safe containment at the disposal location. There are ample opportunities to learn from comparisons and to derive insights that will assist policymakers responsible for national energy strategies and international climate policies.

This book focuses on different items in integrated cost-benefit models of climate change in three major areas: modeling regional climate sensitivity, impacts, and adaptation; emissions reduction targets, associated costs, and possible instruments for implementation; and finally, the broader national and international policy contexts for using these models and their results. Topics cover a broad range from the implications of including sulphate aerosols in target-based scenarios of climate change to impacts of global warming on the insurance industry. On the policy side, the contributions refer to costs and expected results of various greenhouse-gas stabilization strategies, as well as to the dynamics of policy instruments, and to the role of advanced energy technologies in those stabilization targets and strategies. In all these areas, possible research directions are discussed that might help to alleviate current shortcomings in global cost-benefit analyses and, more broadly, in integrated climate-economy assessment models. The book is intended for researchers in various areas of global environmental change as well as for a broader but informed general audience interested in the scientific complexity and the policy dilemma associated with the climate change problem.

Is a unique, cross-disciplinary assessment of fairness and equity issues in the context of global climate change - a crucial dimension in current international negotiations - written by a collection of leading scientists in economics, sociology and social psychology, ethics, international law and political science. How should responsibility for adapting to climate change be distributed? Who should bear the costs of mitigating its impacts and how should these costs be measured? Answers to these questions differ, often according to the vulnerability, wealth and level of industrial development of the country. Finding a fair solution is controversial, but crucial to the complex and vital negotiations over global warming. This illuminating and accessible volume explores the policy dimensions and analytical needs of the negotiation process. It is essential reading for policy makers and students and teachers of economics, sociology and social psychology, ethics, international relations, law and political science. FERENC L TOTH is project leader at the Department of Global Change and Social Systems at the Potsdam Institute for Climate Impact Research (PIK), Germany. CONTRIBUTORS H Asbjorn Aaheim Frank Biermann Samuel Fankhauser Carsten Helm Juliane Kokott Joanne Linnerooth-Bayer Volker Linneweber Elizabeth L Malone Shuzo Nishioka Originally published in 1999 David W Pearce Steve Rayner P R Shukla Dominik Thieme Michael Thompson Richard S J Tol David G Victor

Fossil fuels will remain the backbone of the global energy economy for the foreseeable future. The contribution of nuclear energy to the global energy supply is also expected to increase. With the pressing need to mitigate climate change and reduce greenhouse gas emissions, the fossil energy industry is exploring the possibility of carbon dioxide disposal in geological media. Geological disposal has been studied for decades by the nuclear industry with a view to ensuring the safe containment of its wastes. Geological disposal of carbon dioxide and that of radioactive waste gives rise to many common concerns in domains ranging from geology to public acceptance. In this respect, comparative assessments reveal many similarities, ranging from the transformation of the geological environment and safety and monitoring concerns to regulatory, liability and public acceptance issues. However, there are profound differences on a broad range of issues as well, such as the quantities and hazardous features of the materials to be disposed of, the characteristics of the targeted geological media, the site engineering technologies involved and the timescales required for safe containment at the disposal location. There are ample opportunities to learn from comparisons and to derive insights that will assist policymakers responsible for national energy strategies and international climate policies.