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Large Environmental Effects

Acid Deposition and Global Carbon Dioxide
  • David J. Rose
Part of the Modern Perspectives in Energy book series (MPIE)

Abstract

As shown in Chapters 1 and 2, environmental effects accompany both energy provision and use, and hence play a role in energy decisions. Unintended environmental consequences tend to be harmful, partly because benefits can be made profitable, hence institutional and intentional. Therefore, most environmental effects to be described in this book are harmful. Some are local and/or quite mode-specific—for example, nuclear waste or coal-mine dust—and many such topics appear in later chapters that deal with more specific energy sources or uses.

Keywords

Fossil Fuel Acid Rain Acid Deposition Sulfur Oxide Airborne Fraction 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. AAAS. (1979). Workshop on Environmental and Societal Consequences of a Possible CO2 Induced Climate Change, CONF-7904143. Conducted by the American Association for the Advancement of Science, for the U.S. Department of Energy, Annapolis, Maryland (April).Google Scholar
  2. Albanese, A. S., and Steinberg, M. (1980). “Environmental Control Technology for Atmospheric Carbon Dioxide,” DOE/EV-0079, U.S. Department of Energy.CrossRefGoogle Scholar
  3. Araj, Kamal J. (1982). “World Energy Strategies and the Buildup of Carbon Dioxide: An Asses-ment,” Ph.D. Thesis, Department of Nuclear Engineering, M.I.T. (February).Google Scholar
  4. Arrhenius, S. (1896). “On the Influence of Carbonic Acid in the Air Upon the Temperature of the Ground,” Phil Mag 41 (251, series 5), 237–276.Google Scholar
  5. Bach, W., et al (eds.) (1980). Interactions of Energy and Climate, D. Reidal Publishing Co., Dordrecht, Holland. Working Group II Report, “Identification and Assessment of the Various Climatic Impacts.”Google Scholar
  6. Baes, C. F., et al. (1980). “The Collection, Disposal and Storage of Carbon Dioxide,” in: W. Bach, et al (eds.), Interactions of Energy and Climate, D. Reidal Publishing Co., Dordrecht, Holland, p. 495.Google Scholar
  7. Benci, J. F., et al. (1975). in: Impacts of Climate Change on the Biosphere, CIAP Monograph 5, Part 2, pp. 4–37 to 4–90.Google Scholar
  8. Bishop, A. S. (1980). Environmental Conservation 7(2), 165.CrossRefGoogle Scholar
  9. Bjorkstrons, A. (1979). Ambio 8, 254.Google Scholar
  10. Bolin, B., et al. (1972). Air Pollution Across National Boundaries: The Impact on the Environment of Sulfur in Air and Precipitation, U.N. Conference on the Environment, Stockholm.Google Scholar
  11. Bolin, B., et al. (ed.) (1979). The Global Carbon Cycle (SCOPE Report 13), John Wiley & Sons, New York.Google Scholar
  12. Butzer, K. W., (1980). “Adaptation to Global Environmental Change,” Professional Geographer 32, 269.CrossRefGoogle Scholar
  13. Callendar, G. S. (1938). “The Artificial Production of Carbon Dioxide and Its Influence on Temperature,” Q. J. R. Meteorol Soc. 64, 223–237.CrossRefGoogle Scholar
  14. Clark, W. C, Cook, K. H., Marland, G., Weinberg, A. M., Rotty, R. M., Bell, P. R., Allison, L. J., and Cooper, C. C. (1982). “The Carbon Dioxide Question: A Perspective for 1982,” in: W. C. Clark (ed.), Carbon Dioxide Review: 1982, Oxford University Press, New York, pp.3–43.Google Scholar
  15. CONAES (1980). Energy in Transition—1985–2010, W. H. Freeman Co., San Francisco.Google Scholar
  16. Curry, R. B. (1975). in: Impacts of Climate Change on the Biosphere, CIAP Monograph 5, Part 2, pp. 4–132 to 4–147.Google Scholar
  17. Dumanoski, Diane (1979). Boston Globe, 18 and 19 November, 30 and 31 December.Google Scholar
  18. ECE (1979). Document E/ECE/1010, U.N. Economic Commission for Europe 13 November 1979. See also Environ. Conserv. 6(2), 163–164 (Summer 1979).Google Scholar
  19. Ember, L. R. (1981). Chemical and Engineering News, Vol. 59, No. 37, 14 September, pp. 20–31.CrossRefGoogle Scholar
  20. EPRI (1979). pp. 20–24. Published by The Electric Power Research Institute, Palo Alto, California (September).Google Scholar
  21. Flohn, H. (1982). “Climate Change and an Ice-Free Arctic Ocean,” in: W. C. Clark (ed.), Carbon Dioxide Review 1982, Oxford University Press, New York, pp. 143 et seq., esp. pp. 163–166.Google Scholar
  22. Häfele, W., et al. (1981). Energy in a Finite World, Vol 1, Paths to a Sustainable Future. Prepared by the International Institute for Applied Systems Analysis (IIASA), Austria, Ballinger Publishing Co., Cambridge, Massachusetts.Google Scholar
  23. Hanel, R. A., Schlachman, B., Rogers, D., and Vanous, D. (1971). “Nimbus 4 Michaelson Interferometer,” Applied Optics 10, 1376–1382.CrossRefGoogle Scholar
  24. Hansen, J., Johnson, D., Lacis, A., Lebedeff, S., Lee, P., Rind, D., and Russell, G. (1981). “Climate Impact of Increasing Atmospheric Carbon Dioxide,” Science 213, 957. The paper has 58 references, which, together with the text, make an excellent annotated bibliography.Google Scholar
  25. Hutchison, T. C, and Hovas, M. (eds.) (1980). “Effects of Acid Precipitation on Terrestrial Ecosystems,” NATO conference series. Proceedings of NATO conference on Effects of Acid Precipitation on Vegetation and Soils, Toronto, Canada, 21–27 May 1980, Plenum Press, New York.Google Scholar
  26. Kates, R. W. (1979). “Climate and Society: Lessons from Recent Events,” in: Proceedings of World Climate Conference, World Meteorological Organization, Geneva, p. 682.Google Scholar
  27. Kellogg, W. W., and Schneider, S. H. (1974). Science 186, 1163.CrossRefGoogle Scholar
  28. Kellogg, W. W., and Schware, R. (1981). Climate Change and Society, Westview Press, Boulder, Colorado.Google Scholar
  29. Kerr, R. A. (1981). “Pollution of the Arctic Atmosphere Confirmed,” Science 222 , 1013.CrossRefGoogle Scholar
  30. Kuhn, T. S. (1970). Structure of Scientific Revolutions, University of Chicago Press, Illinois.Google Scholar
  31. Kukla, G., and Garvin, J. (1981). Science 214, 497.CrossRefGoogle Scholar
  32. Lacis, A., Hansen, J., Lee, P., Mitchell, T., and Lebedeff, S. (1981). “Greenhouse Effect of Trace Gases, 1970–1980,” Geophys. Res. Lett. 8, 1035–1038.CrossRefGoogle Scholar
  33. Likens, G. E., Wright, R. F., Galloway, J. N., and Butler, T. J. (1979). “Acid Rain,” Sci. Am. 241(October), 43–51.CrossRefGoogle Scholar
  34. Maclure, J. (1983). “North American Acid Rain and International Law,” Fletcher Forum 7 (Winter), 121–154.Google Scholar
  35. Manabe, S., and Stouffer, R. J. (1979). Nature, 79, 491.CrossRefGoogle Scholar
  36. Manabe, S., and Stouffer, R. J. (1980). J Geophys. Res. 85, 5529.CrossRefGoogle Scholar
  37. Manabe, S., and Wetherald, R. T. (1967). J. Atmos. Set 24, 241.Google Scholar
  38. McDuffie, H. F. (1981). “Societal Impacts of Responses to Carbon Dioxide-Induced Climate Change: Background and Preliminary Literature Review,” Institute for Energy Analysis, Oak Ridge, Tennessee 37830 (August).Google Scholar
  39. Nanda, V. P. (ed.) (1983). World Climate Change: The Role of International Law and Institutions, Westview Press, Boulder, Colorado.Google Scholar
  40. NAS (1979). Carbon Dioxide and Climate: A Scientific Assessment, National Academy of Sciences (U.S.), Washington, D.C.Google Scholar
  41. National Research Council (1983). Acid Deposition: Atmospheric Processes in Eastern North America, National Academy Press, Washington, D. C.Google Scholar
  42. Nordhaus, W. D. (1980), “Thinking about Carbon Dioxide: Theoretical and Empirical Aspects of Optimal Control Strategies,” Discussion Paper No. 565, Cowles Foundation, Yale University, New Haven, Connecticut.Google Scholar
  43. Perry, A. M, Araj, K. J., Fulkerson, W., Rose, D. J., Miller, M. M., and Rotty, R. M. (1982). “Energy Supply and Demand Implication of C02,” in: Energy 7, 991–1004.CrossRefGoogle Scholar
  44. Revelle, R. Commentary, in: Carbon Dioxide Review, 1982. See Clark et al (1982).Google Scholar
  45. Rhine Convention (1976). Convention on the Protection of the Rhine against Chemical Pollution, Int. Legal Materials 242. Google Scholar
  46. Roach, W., and Slingo, A. (1979). Q. J. R. Meteorol Soc. 105, 603–614.CrossRefGoogle Scholar
  47. Rubin, V. (1980). Science 209, 64.CrossRefGoogle Scholar
  48. Scroggin, D. G. and Harris, R. H. (1981). “Reduction at the Source,” Technol Rev. 84 (2).Google Scholar
  49. Stancel, J., and Huke, R. E. (1975). in: Impacts of Climate Change on the Biosphere, CIAP Monograph 5, Part 2, pp. 4–90 to 4–132.Google Scholar
  50. Stong, C. L. (1974). “The Amateur Scientist,” ScL Am. 230 (June), 126–127.CrossRefGoogle Scholar
  51. Trail Smelter (1949). U.S./Canada Trail Smelter Arbitration, 1941, The Hague International Court of Justice, Registry Reports of International Arbitration Awards, Vol. 3, pp. 1905–1982, United Nations.Google Scholar
  52. Tyndall, J. (1861). “On Absorption and Radiation of Heat by Gases and Vapours, and on the Physical Connection of Radiation, Absorption and Conduction,” Phil. Mag. 22 (series 4), 169–194, 273–285.Google Scholar
  53. WEC (1978). World Energy Conference, World Energy Resources, 1985–2020, ICP Science and Technology Press, New York.Google Scholar
  54. Wetstone, G. (1980). “Air Pollution Control Laws in North America and the Problem of Acid Rain and Snow,” Environmental Law Reporter Vol.X, (January) pp. 50001–50019.Google Scholar

Copyright information

© Springer Science+Business Media New York 1986

Authors and Affiliations

  • David J. Rose
    • 1
  1. 1.Massachusetts Institute of TechnologyCambridgeUSA

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