Abstract
The United Nations Framework Convention on Climate Change requires nations to implement measures for adapting to rising sea level and other effects of changing climate. To decide upon an appropriate response, coastal planners and engineers must weigh the cost of these measures against the likely cost of failing to prepare, which depends on the probability of the sea rising a particular amount.
This study estimates such a probability distribution, using models employed by previous assessments, as well as the subjective assessments of twenty climate and glaciology reviewers about the values of particular model coefficients. The reviewer assumptions imply a 50 percent chance that the average global temperature will rise 2 °C, as well as a 5 percent chance that temperatures will rise 4.7 °C by 2100. The resulting impact of climate change on sea level has a 50 percent chance of exceeding 34 cm and a 1% chance of exceeding one meter by the year 2100, as well as a 3 percent chance of a 2 meter rise and a 1 percent chance of a 4 meter rise by the year 2200.
The models and assumptions employed by this study suggest that greenhouse gases have contributed 0.5 mm/yr to sea level over the last century. Tidal gauges suggest that sea level is rising about 1.8 mm/yr worldwide, and 2.5–3.0 mm/yr along most of the U.S. Coast. It is reasonable to expect that sea level in most locations will continue to rise more rapidly than the contribution from climate change alone.
We provide a set of ‘normalized’ projections which express the extent to which climate change is likely to accelerate the rate of sea level rise. Those projections suggest that there is a 65 percent chance that sea level will rise 1 mm/yr more rapidly in the next 30 years than it has been rising in the last century. Assuming that nonclimatic factors do not change, there is a 50 percent chance that global sea level will rise 45 cm, and a 1 percent chance of a 112 cm rise by the year 2100; the corresponding estimates for New York City are 55 and 122 cm.
Climate change impact assessments concerning agriculture, forests, water resources, and other noncoastal resources should also employ probability-based projections of regional climate change. Results from general circulation models usually provide neither the most likely scenario nor the full range of possible outcomes; probabilistic projections do convey this information. Moreover, probabilistic projections can make use of all the available knowledge, including the views of skeptics; the opinions of those who study ice cores, fossils, and other empirical evidence; and the insights of climate modelers, which may be as useful as the model results themselves.
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References
Balling, R. et al.: 1990, ‘Proceedings of the Tempe Conference’, University of Arizona, Tempe.
Barth, M. C. and Titus, J. G. (eds.): 1984, Greenhouse Effect and Sea Level Rise: A Challenge for This Generation, Van Nostrand Reinhold, New York.
Bentley, C. R.: 1983, ‘West Antarctic Ice Sheet: Diagnosis and Prognosis’, in Proceedings: Carbon Dioxide Research Conference: Carbon Dioxide, Science, and Consensus, Conference 820970, Department of Energy, Washington, D.C.
Bentley, C. R. and Giovinetto, M. B.: 1990, ‘Mass Balance of Antarctica and Sea Level Change’, in International Conference on the Role of Polar Regions in Global Change 481–488, University of Alaska, Fairbanks.
Berger, C. J.: 1983, Land Ownership and Use, Little, Brown and Company, Boston and Toronto.
Bindschadler, R. A.: 1985, ‘Contribution of the Greenland Ice Cap to Changing Sea Level: Present and Future’, in ref. NAS, 1985.
Bindschadler, R. A. et al: 1990, ‘SeaRISE: A Multidisciplinary Research Initiative to Predict Rapid Changes in Global Sea Level Caused by Collapse of Marine Ice Sheets’, NASA Conference Publication 3075.
Bindschadler, R. (ed.): 1991, ‘West Antarctic Ice Sheet Initiative. Volume 1. Science and Implementation Plan’, NASA Conference Publication 3115, Greenbelt, Maryland.
Broecker, W. S. and Takahashi, T.: 1981, ‘Hydrography of the Central Atlantic - IV: Intermediate Waters of Antarctic Origin’, Deep-Sea Research 28A (3), 177–193.
Bruun, P.: 1962, ‘Sea Level Rise as a Cause if Shore Erosion’, Journal of Waterways and Harbors Division (ASCE) 1, 116–130.
Clark, C. E.: 1961, ‘Importance Sampling in Monte Carlo Analysis’, Operations Research 9, 603–20.
Clausen, H. B., Gundestrup, N. S., Johnsen, S. J., Bindschadler, R., and Zwally, J.: 1988, ‘Glaciological Investigations in the Crete Area, Central Greenland: A Search for a New Deep Drilling Site’, Annals of Glaciology 8, 10–15.
Cline, W. R.: 1992, The Economics of Global Warming, Institute for International Economics, Wash- ington D.C.
Dean, R. G. et al.: 1987, Responding to Changes in Sea Level, National Academy Press, Washington D.C.
Harvey, L. D. D. and Schneider, S. H.: 1985, ‘Transient Climate Response to External Forcing on 100-104 Time Scales [Parts I and II]’, Journal of Geophysical Research 90, 2191–2222.
Hoffert, M. I., Callegari, A. J., and Hsieh, C-T.: 1980, ‘The Role of Deep Sea Heat Storage in the Secular Response to Climatic Forcing’, Journal of Geophysical Research 85 (C11): 6667–6679.
Hoffert, M. I.: 1990, ‘Climatic Change and Ocean Bottom Water Formation: Are We Missing Something?’ In Schlesinger, M. E. (ed.), Climate-Ocean Interaction, Kluwer Academic Publishers, The Netherlands.
Hoffert, M. I. and Covey, C.: 1992, ‘Deriving Global Climate Sensitivity from Palaeoclimate Reconstructions’, Nature 390, 573–576.
Hoffman, J. S., Keyes, D., and Titus, J. G.: 1983, Projecting Future Sea Level Rise, U.S. Environmental Protection Agency, Washington, D.C.
Huybrechts, Ph. and Oerlemans, J.: 1990, ‘Response of the Antarctic Ice Sheet to Future Greenhouse Warming’, Climate Dynamics 5, 93–102.
Idso, S. B. and Balling, R. C., Jr.: 1991, ‘Evaluating the Climatic Effect of Doubling Atmospheric CO2 via an Analysis of Earth's Historical Temperature Record’, Science of the Total Environment 106, 239–242.
Intergovernmental Panel on Climate Change: 1990, Climate Change: The IPCC Scientific Assessment, Cambridge University Press, Cambridge and New York.
Intergovernmental Panel on Climate Change: 1990b, Strategies for Adapting to Sea Level Rise, Report of the Coastal Zone Management Subgroup of the Response Strategies Working Group, Tidal Waters Division, Rijkswaterstaat, The Hague.
Intergovernmental Panel on Climate Change: 1990c, Climate Change: The IPCC Impacts Assessment, Australian Government Publishing Service, Canberra.
Intergovernmental Panel on Climate Change: 1992, Climate Change 1992: The Supplementary Report to the IPCC Scientific Assessment, Cambridge University Press, Cambridge and New York.
Intergovernmental Panel on Climate Change: 1995a, The Science of Climate Change, Cambridge University Press, Cambridge and New York.
Intergovernmental Panel on Climate Change: 1996b. Impacts, Adaptations, and Mitigation of Climate Change, Cambridge University Press, Cambridge and New York (in press).
Intergovernmental Panel on Climate Change: 1996c, Economic and Social Dimensions of Climate Change, Cambridge University Press, Cambridge and New York (in press).
Intergovernmental Panel on Climate Change: 1994, Climate Change 1994: Radiative Forcing of Climate Change and an Evaluation of the IPCC IS92 Emission Scenarios, Cambridge University Press, Cambridge and New York.
Jacobs, S. S.: 1985, Hellmer, H. H., Doake, C. S. M., Jenkins, A., and Frolich, R. M.: 1992, ‘Melting of Ice Shelves and the Mass Balance of Antarctica’, Journal of Glaciology 38 (130), 375–387.
Jenkins, A.: 1991, ‘A One Dimensional Model of Ice Shelf-Ocean Interaction’, Journal of Geophysical Research 96 No. C11:20, 671–677.
Kapsner, W. R., Alley, R. B., Anandakrishnan, A., Shuman, C. A., Grootes, P. M., Meese, D. A., and Gow, A. J.: 1993, EOS Transaction of the American Geophysical Union. 74 43, 78–79.
Kapsner, W. R.: 1994, ‘Response of Snow Accumulation to Temperature Variation in Central Green- land’, Masters Thesis, Pennsylvania State University Department of Geosciences.
Lingle, C.: 1989, ‘Estimate of the West Antarctic Contribution to Observed Sea Level Rise’, Solicited submission and comment on Chapter 9 of draft IPCC 1990.
Lyle, S.D., Hickman, L. H., and Debaugh, H. A.: 1988, Sea Level Variations in the United States, National Oceanographie and Atmospheric Administration, Rockville, Md, U.S.
MacAyeal, D. R.: 1992, ‘Irregular Oscillations of the West Antarctic Ice Sheet’, Nature 359 29–32.
MacAyeal, D. R.: 1984, ‘Thermohaline Circulation below the Ross Ice Shelf: A Consequence of Tidally Induced Vertical Mixing and Basal Melting’, Journal of Geophysical Research 89, 597- 606.
Manabe, S. and Stouffer, R. J.: 1980, ‘Sensitivity of a Global Climate Model to an Increase in the CO2 Concentration in the Atmosphere’, Journal of Geophysical Research 85, 5529–5554.
Manabe, S., Stouffer, R. J., Spelman, M. J., and Bryan, K.: 1991, ‘Transient Responses of A Cou- pled Ocean Atmosphere Model to Gradual Changes of Atmospheric CO2: Part I: Annual Mean Response’, Journal of Climate 4, 785–818.
Manabe, S. and Stouffer, R. J.: 1993, ‘Century-Scale Effects of Increased Atmospheric CO2 on the Ocean-Atmosphere System’, Nature 364, 215–218.
McKay, M. D., Beckman, R. J., and Conover, W. J.: 1979, ‘A Comparison of Three Methods for Selecting Values of Input Variables in the Analysis of Output from a Computer Code’, Technometrics 21, 239–245.
Meier, M. F.: 1984, ‘Contribution of Small Glaciers to Global Sea Level’, Science 226, 1418–1421.
Mercer, J. H.: 1978, ‘West Antarctic Ice Sheet and CO2 Greenhouse Effect: A Threat of Disaster?’ Nature 271, 321–325.
Menard, H. W. and Smith, S. M.: 1966, ‘Hypsometry of Ocean Provinces’, Journal of Geophysical Research 71, 4305–4322.
Michaels, P. J., Knappenberger, P. C., and Gay, D. A.: 1992, ‘Regional and Seasonal Analyses of Ground-Based and Satellite-Sensed Temperatures: Where's the Warming?’, in Eighth Conference on Applied Climatology, American Meteorological Society, Anaheim, Cal., pp. 147–152.
Morgan, M. G. and Henrion, M.: 1990, Uncertainty: A Guide to Dealing with Uncertainty in Quan- titative Risk and Policy Analysis, Cambridge University Press, New York.
Morgan, M. G. and Keith, D. E.: 1995, ‘Subjective Judgments by Climate Experts’, Environmental Science and Technology 29, 468–476
Morris, P. A.: 1977, ‘Combining Expert Judgements: A Bayesian Approach’, Management Science 23 (7), 679–693.
Myers, D. G. and Lamm, H.: 1975, ‘The Polarizing Effect of Group Discussions’, American Scientist 63, 297–303.
National Academy of Sciences: 1979, CO 2 and Climate: A Scientific Assessment, National Academy Press, Washington, D.C.
National Academy of Sciences, Polar Research Board: 1985, Glaciers, Ice Sheets, and Sea Level, National Academy Press, Washington, D.C.
Nicholls, R. J. and Leatherman, S. P.: 1995, In McGregor, D. and Thompson, D. (eds.), Geomorphol- ogy and Land Management In a Changing Environment, John Wiley and Sons, Chichester.
Oerlemans, J. and Fortuin, J. P. F.: 1992, ‘Sensitivity of Glaciers and Small Ice Caps to Greenhouse Warming’, Science 258, 115–117.
Ohmura, A. and Reeh: 1991, ‘New Precipitation and Accumulation Maps for Greenland’, Journal of Glaciology 37 (125), 140–148.
Pearce, D. W., Cline, W. R., Pachauri, R. K., Vellinga, P., Fankhauser, S., and Tol, R. S. J.: June 1994, ‘Greenhouse Damage and the Benefits of Control’, Draft of Chapter 3 of the 1995 IPCC Assessment.
Peltier, W. R. and Tushingham, A. M.: 1991, ‘Influences of Glacial Isostatic Adjustment on Tide Gauge Measurements of Secular Sea Level Change’, Journal of Geophysical Research 96 (B4), 6779–6804.
Pfeffer, W. T., Meier, M. F., and Illangasekare, T. H.: 1991, ‘Retention of Greenland Runoff by Refreez- ing: Implications for Projected Future Sea Level Change’, Journal of Geophysical Research 96 (C12:22), 117–124.
Revelle, R.: 1983, ‘Probable Future Changes in Sea Level Resulting from Increased Atmospheric Carbon Dioxide’, in Changing Climate, National Academy Press, Washington, D.C.
Schlesinger, M. E. and Jiang, X.: 1991, ‘Revised Projection of Future Greenhouse Warming’, Nature 350, 219–221.
Schneider, S. H. and Chen, R. S.: 1980, ‘Carbon Dioxide Flooding: Physical Factors and Climatic Impact’, Annual Review of Energy 5, 107–140.
Schneider, S. H.: 1994, ‘Detecting Climatic Change Signals: Are There Any “Fingerprints”?’, Science 263, 341–347.
Shabtaie, S., and Bentley, C. R.: 1987, ‘West Antarctic Ice Streams Draining to the Ross Ice Shelf: Configuration and Mass Balance’, Journal of Geophysical Research 92 (B2), 1311–1336.
Taylor, K. E. and Penner, J. E.: 1994, ‘Response of the Climate System to Atmospheric Aerosols and Greenhouse Gases’, Nature 369, 734–737.
Thomas, R. H.: 1985, ‘Responses of the Polar Ice Sheets to Climatic Warming’, in NAS, 1985.
Titus, J. G.: 1984, ‘Planning for Sea Level Rise Before and After a Coastal Disaster’, in Barth and Titus, 1984.
Titus, J. G.: 1986, ‘Greenhouse Effect, Sea Level Rise, and Coastal Zone Management’, Coastal Management 14 (3), 146–171.
Titus, J. G.: 1990, ‘Greenhouse Effect, Sea Level Rise, and Barrier Islands’, Coastal Management 18(1), 65–90.
Titus, J. G.: 1990b, ‘Strategies for Adapting to the Greenhouse Effect’, Journal of the American Planning Association 56(3), 311–323.
Titus, J. G.: 1991, ‘Greenhouse Effect and Coastal Wetland Policy: How Americans Could Abandon an Area the Size of Massachusetts at Minimum Cost’, Environmental Management 15 (1), 39–58.
Titus, J. G.: 1994,‘Rising Seas, Coastal Erosion, and the Takings Clause: How to Protect Wetlands and Beaches without Hurting Property Owners’, Peer Review Draft, Distributed by ERA Climate Change Division to Coastal State Governments.
Titus, J. G., Kuo, C. Y., Gibbs, M. J., LaRoche, T. B., Webb, M. K., and Waddell, J. O.: 1987, ‘Greenhouse Effect, Sea Level Rise, and Coastal Drainage Systems’, Journal of Water Resources Planning and Management 113, 2.
Titus, J. G., Park, R. A., Leatherman, S., Weggel, R., Greene, M. S., Treehan, M., Brown, S., Gaunt C., and Yohe, G.: 1991, ‘Greenhouse Effect and Sea Level Rise: The Cost of Holding Back the Sea’, Coastal Management 19(3), 171–204.
Titus, J. G. and Narayanan, V. K.: 1995, The Probability of Sea Level Rise, Environmental Protection Agency, Washington, D.C.
Trupin, A. and Wahr, J.: 1990, ‘Spectroscopic Analysis of Global Tide Gauge and Sea Level Data’, Geophys. J. Int. 100, 441–453.
Van der Veen, C. J.: 1987, ‘Ice Sheets and the CO2 Problem’, Surveys in Geophysics 9, 1–42.
Vaghjiani, G. L. and Ravishankara, A. R.: 1991, ‘New Measurement of the Rate Coefficient for the Reaction of OH with Methane’, Nature 350, 406–409.
Wigley, T. M. L. and Raper, S. C. B.: 1990, ‘Natural Variability of the Climate System and Detection of the Greenhouse Effect’, Nature 344, 324–327.
Wigley, T. M. L. and Raper, S. C. B.: 1991, ‘Detection of the Enhanced Greenhouse Effect on Climate’, in Jager, J. and Ferguson, H. L. (eds.), Climate Change: Science, Impacts, and Policy, (Proceedings of the Second World Climate Conference), Cambridge University Press, Cambridge and New York.
Wigley, T. M. L. and Raper, S. C. B.: 1992, ‘Implications for Climate and Sea Level of Revised IPCC Emissions Scenarios’, Nature 357, 293–200.
Wigley, T. M. L. and Raper, S. C. B.: 1987, ‘Thermal Expansion of Seawater Associated with Global Warming’, Nature 330, 127–131.
Wigley, T. M. L.: 1994, ‘Balancing the Carbon Budget: Implications for Projections of Future Carbon Dioxide Concentration Changes’, Tellus 45B, 409–525.
Winkler, R. L.: 1968, ‘The Consensus of Subjective Probability Distributions’, Management Science 15(2), 12105–1120.
Winkler, R. L.: 1971, ‘Probabilistic Prediction: Some Experimental Results’, Journal of the American Statistical Association 66, 675–685.
World Meteorological Organization: 1992, Scientific Assessment of Ozone Depletion: 1991, Global Ozone Research and Monitoring Project, World Meteorological Organization, Geneva.
Yohe, G.: 1991a, ‘The Cost of Not Holding Back the Sea’, Coastal Management 18, 403–431.
Yohe, G.: 1991b, ‘Uncertainty, Climate Change, and the Economic Value of Information’, Policy Sciences 24, 245–269.
Zwally, H. J.: 1989, ‘Growth of Greenland Ice Sheet: Interpretation’, Science, 1589–1591.
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Titus, J.G., Narayanan, V. The risk of sea level rise. Climatic Change 33, 151–212 (1996). https://doi.org/10.1007/BF00140246
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DOI: https://doi.org/10.1007/BF00140246