Note: Cover -- Half Title -- Series Title -- Title -- Copyright -- Contents -- Acknowledgements -- Series Preface -- Introduction -- PART I CLIMATE CHANGE AND ITS IMPACTS -- 1 John Houghton (2001), 'The Science of Global Warming', Interdisciplinary Science Reviews, 26, pp. 247-57. -- 2 Brent Sohngen and Robert Mendelsohn (1998), 'Valuing the Impact of Large-Scale Ecological Change in a Market: The Effect of Climate Change on U.S. Timber', American Economic Review, 88, pp. 686-710. -- 3 Kenneth D. Frederick and David C. Major (1997), 'Climate Change and Water Resources', Climatic Change, 37, pp. 7-23. -- 4 Gary Yohe and Michael Schlesinger (2002), 'The Economic Geography of the Impacts of Climate Change', Journal of Economic Geography, 2, pp. 311-41. -- 5 Allan D. Brunner (2002), 'El Nino and World Primary Commodity Prices: Warm Water or Hot Air?', Review of Economics and Statistics, 84, pp. 176-83. -- 6 Robert Mendelsohn, William D. Nordhaus and Daigee Shaw (1994), 'The Impact of Global Warming on Agriculture: A Ricardian Analysis', American Economic Review, 84, pp. 753-71. -- 7 John Quiggin and John K. Horowitz (1999), 'The Impact of Global Warming on Agriculture: A Ricardian Analysis: Comment', American Economic Review, 89, pp. 1044-45. -- 8 Robert Mendelsohn and William Nordhaus (1999), 'The Impact of Global Warming on Agriculture: A Ricardian Analysis: Reply', American Economic Review, 89, pp. 1046-48. -- 9 Roy Darwin (1999), 'The Impact of Global Warming on Agriculture: A Ricardian Analysis: Comment', American Economic Review, 89, pp. 1049-52. -- 10 Robert Mendelsohn and William Nordhaus (1999), 'The Impact of Global Warming on Agriculture: A Ricardian Analysis: Reply', American Economic Review, 89, pp. 1053-55. -- PART II EVALUATING THE COSTS AND BENEFITS OF CLIMATE CHANGE MITIGATION. , 11 William D. Nordhaus (1993), 'Rolling the "DICE": An Optimal Transition Path for Controlling Greenhouse Gases', Resource and Energy Economics, 15, pp. 27-50. -- 12 Richard S.J. Tol (1999), 'The Marginal Costs of Greenhouse Gas Emissions', Energy Journal, 20, pp. 61-81. -- 13 Tim Roughgarden and Stephen H. Schneider (1999), 'Climate Change Policy: Quantifying Uncertainties for Damages and Optimal Carbon Taxes', Energy Policy, 27, pp. 415-29. -- 14 Lawrence H. Goulder and Koshy Mathai (2000), 'Optimal C02 Abatement in the Presence of Induced Technological Change', Journal of Environmental Economics and Management, 39, pp. 1-38. -- 15 Charles D. Kolstad (1996), 'Learning and Stock Effects in Environmental Regulation: The Case of Greenhouse Gas Emissions', Journal of Environmental Economics and Management, 31, pp. 1-18. -- 16 Christian Azar and Thomas Sterner (1996), 'Discounting and Distributional Considerations in the Context of Global Warming', Ecological Economics, 19, pp. 169-84. -- 17 Richard B. Howarth (2000), 'Climate Change and the Representative Agent', Environmental and Resource Economics, 15, pp. 135-48. -- 18 Thomas C. Schelling (1995), 'Intergenerational Discounting', Energy Policy, 23, pp. 395-401. -- 19 T.M.L. Wigley, R. Richels and J.A. Edmonds (1996), 'Economic and Environmental Choices in the Stabilization of Atmospheric C02 Concentrations', Nature, 379, pp. 240-43. -- 20 Zhongxiang Zhang (2000), 'Decoupling China's Carbon Emissions Increase from Economic Growth: An Economic Analysis and Policy Implications', World Development, 28, pp. 739-52. -- 21 Robert C. Hyman, John M. Reilly, Mustafa H. Babiker, Ardoin De Masin and Henry D. Jacoby (2003), 'Modeling N on-C02 Greenhouse Gas Abatement', Environmental Modeling and Assessment, 8, pp. 175-86. , 22 Richard G. Newell and Robert N. Stavins (2000), 'Climate Change and Forest Sinks: Factors Affecting the Costs of Carbon Sequestration', Journal of Environmental Economics and Management, 40, pp. 211-35. -- 23 Andrew J. Plantinga, Thomas Mauldin and Douglas J. Miller (1999), 'An Econometric Analysis of the Costs of Sequestering Carbon in Forests', American Journal of Agricultural Economics', 81, pp. 812-24. -- PART III POLICY DESIGN FOR GHG MITIGATION -- 24 Ian W.H. Parry and Roberton C. Williams III (1999), 'A Second-Best Evaluation of Eight Policy Instruments to Reduce Carbon Emissions', Resource and Energy Economics, 21, pp. 347-73. -- 25 William A. Pizer (2002), 'Combining Price and Quantity Controls to Mitigate Global Climate Change', Journal of Public Economics, 85, pp. 409-34. -- 26 Michael Grubb (1997), 'Technologies, Energy Systems and the Timing of C02 Emissions Abatement: An Overview of Economic Issues', Energy Policy, 25, pp. 159-72. -- 27 Adam B. Jaffe and Robert N. Stavins (1994), 'Energy-Efficiency Investments and Public Policy', Energy Journal, 15, pp. 43-65. -- 28 P.R. Shukla (1996), 'The Modelling of Policy Options for Greenhouse Gas Mitigation in India', Ambio, 25, pp. 240-48. -- 29 Scott Barrett (1998), 'Political Economy of the Kyoto Protocol', Oxford Review of Economic Policy, 14, pp. 20-39. -- 30 Adam Rose, Brandt Stevens, Jae Edmonds and Marshall Wise (1998),' International Equity and Differentiation in Global Warming Policy: An Application to Tradeable Emission Permits', Environmental and Resource Economics, 12, pp. 25-51. -- 31 Zili Yang (1999), 'Should the North Make Unilateral Technology Transfers to the South? North-South Cooperation and Conflicts in Responses to Global Climate Change', Resource and Energy Economics, 21, pp. 67-87. , 32 Mustafa Babiker, John M. Reilly and Henry D. Jacoby (2000), 'The Kyoto Protocol and Developing Countries', Energy Policy, 28, pp. 525-36. -- Name Index.

Note: Intro -- Adaptation and Evolution in Marine Environments,Volume 2 -- Preface -- Letter from the Editorial Team -- Editorial Introduction -- Contents -- Contributors -- Part I Biodiversity Evolution and DataManagement -- 1 The Census of Antarctic Marine Life: The First Available Baseline for Antarctic Marine Biodiversity -- 1.1…History of the Project -- 1.1.1 The IPY Proposal -- 1.1.2 CAML Organization -- 1.1.3 CAML Scientific Targets -- 1.2…CAML Coordination Effort -- 1.2.1 CAML Main Expeditions -- 1.3…CAML Main Results -- 1.3.1 Distributional Records -- 1.3.2 Coordination with SCAR-MarBIN -- 1.3.3 DNA Barcoding -- 1.3.4 Published Results and Journal Special Issues -- 1.3.5 Workshop Organisation -- 1.4…The CAML Legacy -- 1.5…Concluding Remarks -- Acknowledgments -- 2 Connecting Biodiversity Data During the IPY: The Path Towards e-Polar Science -- 2.1…IPY and the Need for Data Sharing -- 2.2…The Antarctic Biodiversity Data Ecosystem -- 2.3…Findings and Motivations -- 2.4…The Biodiversity Data Paper Concept -- 2.5…The Future: Towards True Integration -- 2.6…Summary -- Acknowledgments -- References -- Part II Evolution: A Molecular Perspective -- 3 Southern Ocean Evolution in a Global Context: A Molecular Viewpoint -- 3.1…A Brief Climatic, Oceanographic and Tectonic History of the Southern Ocean -- 3.2…The Antarctic Circumpolar Current as a Barrier -- 3.3…Connectivity with Other Oceans -- 3.3.1 Southern Ocean: Source and Sink? -- 3.3.2 Difficulties in Dating Evolutionary Events to Relate Them to Climate Change -- 3.3.3 Cosmopolitan Species -- 3.3.4 Bipolar Species -- 3.4…Connectivity within the Southern Ocean -- 3.4.1 The Southern Ocean as a Biodiversity Hotspot -- 3.4.2 Cryptic Species -- 3.4.3 Eurybathy and Circumpolarity -- 3.5…Summary and Future Directions for Molecular Work -- Acknowledgments -- References. , 4 Pole-to-Pole Gene Flow in Protozoan Ciliates -- 4.1…Backgrounds -- 4.2…Ciliate Biodiversity at the Poles -- 4.3…Ciliate Mating Systems -- 4.4…Collection Sites and Polar Euplotes Species -- 4.5…Phylogenetic Relationships -- 4.6…Mating and Breeding Interactions -- 4.7…Preliminary Evidence of Pole-to-Pole Gene Flow in Nature -- 4.8…Concluding Remarks -- Acknowledgments -- References -- 5 Excess Oxygen in Polar Evolution: A Whole Organism Perspective -- 5.1…Living Conditions in Antarctic Marine Waters -- 5.2…A Unifying Concept: Oxygen and Capacity Limitation of Thermal Tolerance -- 5.3…Antarctic Challenges: Physiological Pathways of Adapting to Cold -- 5.3.1 Marine Crustaceans -- 5.3.2 At the Doorstep to Antarctica: Sub-Antarctic Stone Crabs -- 5.4…Perspectives -- Acknowledgments -- References -- 6 Catalysis and Protein Folding in Extreme Temperature Environments -- 6.1…Introduction -- 6.2…The Thermophiles -- 6.2.1 The Stability Problem -- 6.2.2 Activity and Stability -- 6.2.3 Folding at High Temperature -- 6.2.3.1 GroEL/GroES -- 6.2.3.2 DnaK/DnaJ/GrpE -- 6.2.3.3 The Trigger Factor -- 6.2.4 Partial Conclusion -- 6.3…The Psychrophiles -- 6.3.1 Enzyme Activity at Low Temperatures -- 6.3.2 Folding at Low Temperatures -- 6.4…Conclusions -- References -- Part III Monitoring and Management -- 7 Changing the Look on Seals from Pole to Pole with Satellite Technology -- 7.1…Satellites in Seal Research -- 7.2…Antarctic Seals -- 7.2.1 Crabeater Seal (Lobodon carcinophagus) -- 7.2.2 Ross Seal (Ommatophoca rossii) -- 7.2.3 Leopard Seal (Hydrurga leptonyx) -- 7.2.4 Spatial Segregation of Antarctic Phocid Seals -- 7.3…Arctic Seals -- 7.3.1 Harp Seal (Pagophilus groenlandicus) -- 7.3.1.1 Greenland Sea -- 7.3.1.2 White Sea -- 7.3.2 Hooded Seal (Cystophora cristata) -- 7.4…Adaptations to Diving -- References. , 8 Environmental Processes, Biodiversity and Changes in Admiralty Bay, King George Island, Antarctica -- 8.1…Introduction -- 8.2…Environmental Processes -- 8.2.1 Atmosphere -- 8.2.2 Terrestrial Environment -- 8.2.3 Marine Environment -- 8.2.3.1 Physical Setting -- 8.2.3.2 Hydrochemistry -- 8.2.3.3 Geophysics and Geochemistry -- 8.2.3.4 Marine Life -- 8.3…Concluding Remarks -- Acknowledgments -- References -- 9 Environmental Assessment of Admiralty Bay, King George Island, Antarctica -- 9.1…Introduction -- 9.2…Study Area -- 9.3…Environmental Assessment -- 9.3.1 Atmospheric Environment -- 9.3.2 Terrestrial Environment -- 9.3.3 Marine Environment -- 9.4…Monitoring Strategy Proposal -- 9.4.1 Terrestrial Environment Indicators -- 9.4.2 Marine Environment Indicators -- 9.5…Final Considerations -- Acknowledgments -- References -- 10 Anthropogenic Impacts on Sub-Antarctic and Antarctic Islands and the Adjacent Marine Environments -- 10.1…Introduction -- 10.2…Southern Ocean: Anthropogenic Pressures -- 10.2.1 Climate Change -- 10.2.2 Human Activity in Antarctica -- 10.2.3 Sealing, Whaling and Fisheries -- 10.2.4 Tourism -- 10.2.5 Invasive Species -- 10.2.6 Offshore Exploration, Military and Scientific Activities -- 10.3…Marine Environmental Management -- 10.4…Concluding Remarks -- Acknowledgments -- References -- 11 Polar Monitoring: Seabirds as Sentinels of Marine Ecosystems -- 11.1…The Global Importance of Polar Monitoring -- 11.2…Seabirds as Bio-Indicators -- 11.2.1 High Trophic Level Position -- 11.2.2 Diversity of Species and Food Web Interactions -- 11.2.3 Wide Sampling Range -- 11.2.4 Autonomous Environmental Samplers -- 11.3…Understanding Seabird Responses to Environmental Patterns Can Help Us Gauge the Adaptive Capacities to Future Climate Changes -- 11.3.1 Phenotypic Flexibility and Plasticity -- 11.3.1.1 Phenology -- 11.3.1.2 Foraging Strategies. , 11.3.1.3 Dispersal -- 11.3.2 Microevolutionary Processes -- 11.3.2.1 Selection -- 11.3.2.2 Genetic Drift -- 11.3.2.3 Genetic Flow -- 11.3.3 Integrating Phenotypic and Microevolutionary Approaches -- 11.4…Polar Life Observatories to Track Changes of Polar Ecosystems -- 11.4.1 What are Life Observatories? -- 11.4.1.1 Demographic Monitoring -- 11.4.1.2 Genetic Assessment and Monitoring -- 11.4.1.3 Bio-Monitoring Pollution -- 11.4.1.4 Foraging Monitoring -- 11.4.2 Innovative Technology Development and Ethics -- 11.5…Concluding Remarks -- Acknowledgments -- References -- Conclusions -- Perspectives and Implications.