Environmental Management

, Volume 17, Issue 2, pp 141–152 | Cite as

Adrift on a sea of platitudes: Why we will not resolve the greenhouse issue

  • Marvin Waterstone


The issue of greenhouse warming has received a great deal of attention in recent years. It has become the object of much scientific scrutiny, media coverage, and political rhetoric. What is our current state of knowledge regarding this phenomenon? What are the possible options for preventing or slowing its advance, or for living with its consequences? What obstructs our taking actions to deal with this issue? These are the questions addressed here. Beginning with a brief overview of our current knowledge, I then examine potential policy options, and finally assess the likelihood of constructive actions. The conclusion reached is that we will probably not deal with this issue, not because we lack a sufficient understanding of the phenomenon, its consequences and workable solutions, but because we lack the philosophical, ethical, and political will to do so. As a result we are likely to continue to drift across a sea of platitudes.

Key words

Greenhouse warming Policy options Ethical issues Uncertainty 


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Literature Cited

  1. Anonymous. 1990. Green diplomacy: A cool look at hot air.The Economist 315(7659):17–20.Google Scholar
  2. Arrhenius, S. 1896. On the influence of carbonic acid in the air upon the temperature of the ground.Philologies Magazine 41:237.Google Scholar
  3. Ausubel, J. H. 1991. A second look at the impacts of climate change.American Scientist 79:210–221.Google Scholar
  4. Barbier, E. B., J. C. Burgess, and A. Markandya. 1991. The economics of tropical deforestation.Ambio 20(2):55–58.Google Scholar
  5. Beck, J. 1992. U.S. entertains doubts about greenhouse effect.Arizona Daily Star 18 February 1992.Google Scholar
  6. Bruvold, W. H. 1978. Residential water conservation: Policy lessons from the California drought.Public Affairs Report 19(6):1–7.Google Scholar
  7. Callendar G. S. 1938. The artifical production of carbon dioxide and its influence on temperature.Quarterly Journal of the Royal Meteorological Society 64:223–240.CrossRefGoogle Scholar
  8. Cox, L. C. 1991. Introduction: Facts and uncertainties.The Energy Journal 12(1):1–7.Google Scholar
  9. Dear, M. J. 1987. Editorial: Society, politics and social theory.Environment and Planning D: Society and Space 5:363–366.Google Scholar
  10. Farman, J. C., and others. 1985. Large losses of total ozone in Antarctica reveal seasonal ClOx/NOx interaction.Nature 315:207–210.CrossRefGoogle Scholar
  11. Fischhoff, B., S. R. Watson, and C. Hope. 1984. Defining risk.Policy Sciences 17:123–139.CrossRefGoogle Scholar
  12. Gleick, P. 1991. The vulnerability of runoff in the Nile basin to climatic changes.The Environmental Professional 13(1):66–73.Google Scholar
  13. Hatfield, C. B. 1991. Will we reach the greenhouse?Nature 351:355.CrossRefGoogle Scholar
  14. IPCC (Intergovernmental Panel on Climate Change). 1991. First assessment report: Overview.International Environmental Affairs 3(1):64–84.Google Scholar
  15. Keeling, C. D. 1987. Measurements of the concentration of atmospheric carbon dioxide at Mauna Loa Observatory, Hawaii, 1958–1986. Final report for the Carbon Dioxide Information and Analysis Center. Martin-Marietta Energy Systems, Inc., Oak Ridge National Laboratory, Oak Ridge, Tennessee.Google Scholar
  16. Lave, L. 1991. Formulating greenhouse policies in a sea of uncertainty.The Energy Journal 12(1):9–21.Google Scholar
  17. Lemons, J. 1984. Can the carbon dioxide problem be resolved?The Environmental Professional 6:52–71.Google Scholar
  18. Lotka, A. J. 1925 [1956]. Elements of physical biology. Williams & Wilkins, Baltimore [Reprint, Dover, New York].Google Scholar
  19. Molina, M. J., and F. S. Rowland. 1974. Stratospheric sink for chlorofluoromethanes: Chlorine atom catalysed destruction of ozone.Nature 249:810–812.CrossRefGoogle Scholar
  20. Morgenstern, R. D., and D. Tirpak. 1990. The greenhouse gases.EPA Journal 16(2):8–10.Google Scholar
  21. National Academy of Sciences. 1984. Global change in the geosphere-biosphere: Initial priorities for an IGBP. National Academy Press, Washington, DC.Google Scholar
  22. Newman, P. 1991. Greenhouse, oil and cities.Futures 23:335–348.CrossRefGoogle Scholar
  23. Nordhaus, W. D. 1990. A perspective on costs and benefits.EPA Journal 16(2):44–45.Google Scholar
  24. Nowotny, K. 1989. The greenhouse effect and energy policy in the United States.Journal of Economic Issues 23(4):1075–1084.Google Scholar
  25. Ramanathan, V., and others. 1985. Trace gas trends and their potential role in climate change.Journal of Geophysical Research 90:5547–5566.CrossRefGoogle Scholar
  26. Raynaud, R., and J. Barnola. 1985. An Antarctic ice core reveals atmospheric CO2 variations over the past few centuries.Nature 315:309–311.CrossRefGoogle Scholar
  27. Revelle, R., and H. E. Suess. 1957. Carbon dioxide exchange between atmosphere and ocean and the question of an increase of atmospheric CO2 during the past decades.Tellus 9:18–27.Google Scholar
  28. Riebsame, W. E. 1990. Anthropogenic climate change and a new paradigm of natural resources planning.The Professional Geographer 42(1):1–12.CrossRefGoogle Scholar
  29. Roberts, L. 1991. Academy panel split on greenhouse adaptation.Science 253:1206.Google Scholar
  30. Rosenberg, N., and others. 1989. Policy options for adptation to climate change. Resources for the Future, Washington, DC.Google Scholar
  31. Shippee, G. 1981. Energy conservation and the role of the social sciences.Energy Policy 9(1):35–41.CrossRefGoogle Scholar
  32. Stone, J. 1989. Bovine madness.Discover 10:38–41.Google Scholar
  33. Volinga, P. 1990. Quoted in PBS series “Race to save the planet—Part 5: Only one atmosphere.”Google Scholar
  34. Waterstone, M. 1985. The equity aspects of carbon dioxide-induced climate change.Geoforum 16(3):301–306.CrossRefGoogle Scholar
  35. White, R. M. 1990. The great climate debate.Scientific American 263(1):36–43.CrossRefGoogle Scholar
  36. Winkler, R., and R. Winett. 1982. Behavioral interventions in resource conservation.American Psychologist 37(4):421–435.CrossRefGoogle Scholar

Copyright information

© Springer-Verlag New York Inc. 1993

Authors and Affiliations

  • Marvin Waterstone
    • 1
  1. 1.Department of Geography and Regional DevelopmentUniversity of ArizonaTucsonUSA

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