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Long-term Constraints on Human Activity

Published online by Cambridge University Press:  24 August 2009

Amory B. Lovins
Amory B. Lovins
Affiliation:
Consultant Physicist; c/o Friends of the Earth Ltd, 9 Poland Street, London, England.
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Extract

Biophysical and other ‘outer limits’ of food, land, water, climatic change, stratospheric chemistry, energy, hazardous substances, non-fuel minerals, human stress, and social and ecological stability, raise fundamental questions about present trends in management methods and in global organization. The diverse outer limits surveyed in this paper reflect complex, poorly perceived, and often unsuspected, interconnections between numerous biological and geophysical processes, many of which are obscure or still unknown. Our lack of predictive power, let alone of quantitative understanding, implies a need to treat essential life-support systems with great caution and forbearance, lest we erode safety margins whose importance we do not yet appreciate.

Even those outer limits which now seem remote are relevant to present policy, as their timely avoidance may require us to discard otherwise attractive short-term policies in favour of others that offer less immediate advantage but that retain options which may be needed later. Such alternative policies may have to rely more on social than on technical innovation in order to address underlying disequilibria rather than merely palliating their symptoms. Moreover, some outer limits are sufficiently imminent, or require such long lead-times to avoid, that fundamental changes in policy, in institutions, and in the degree of global interdependence, seem necessary if we are to live to enjoy some of the later and more interesting limits to human activity.

Type
Main Papers
Information
Environmental Conservation , Volume 3 , Issue 1 , Spring 1976 , pp. 3 - 14
Copyright
Copyright © Foundation for Environmental Conservation 1976

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References

Aagaard, R. & Coachman, L. K. (1975). Toward an ice-free Arctic Ocean. EOS, Trans. Amer. Geophys. Union, 56, pp. 484–6.CrossRefGoogle Scholar
Armstrong, Joe E. & Harman, Willis W. (1975). Plausibility of a Restricted Energy Use Scenario. CSSP 3705–8, Stanford Research Institute, Menlo Park, California: vi + 199 pp.Google Scholar
Boeck, W. L., Shaw, D. T. & Vonnegut, B. (1975). Possible consequences of global dispersion of krypton 85. Bull. Am. Meteorol. Soc., 56, p. 527.Google Scholar
Georg, Borgström (1973). Focal Points: A Global Food Strategy. Macmillan, New York: xii + 320 pp., illustr.Google Scholar
Brown, Lester (1972). World Without Borders. Random House, New York: xviii + 395 pp.Google Scholar
Brown, Lester (with Eckholm, Erik P.) (1974 a). By Bread Alone. Praeger, New York: xi + 272 pp., illustr.Google Scholar
Brown, Lester (1974 b). In the Human Interest: a Strategy to Stabilize World Population. Norton, New York: 190 pp.Google Scholar
Bryson, Reid A. (1972). Climatic modification by air pollution. Pp. 133–55 with 12 figs and following discussion in Polunin, Nicholas (Ed.) The Environmental Future. Macmillan, London & Basingstoke, and Barnes & Noble, New York: xiv + 660 pp., illustr.Google Scholar
Bryson, Reid A. (1974). A perspective on climatic change. Science, 184, pp. 753–60.Google Scholar
Bryson, Reid A. (1975). The lessons of climatic history. Environmental Conservation, 2(3), pp. 163–70, 8 figs.CrossRefGoogle Scholar
Campbell, W. J. & S., Martin (1973). Oil and ice in the Arctic Ocean: possible large-scale interactions. Science, 181, pp. 56–8, fig. [For follow-up, see also Science, 186, pp. 843–6, 1974.—Ed.].Google Scholar
Chapman, Peter F. (1975). Fuel's Paradise: Energy Options for Britain. Penguin, Harmondsworth, Middlesex, England: 236 pp.Google Scholar
Comey, David D. (1975). The legacy of uranium tailings. Bulletin of the Atomic Scientists, 31, 09, pp. 42–5.CrossRefGoogle Scholar
Congressional Research Service (1975). The Development and Allocation of Scarce World Resources. Senate document 94–45 (May 1975), U.S. Government Printing Office, Washington, D.C.: vii + 399 pp.Google Scholar
Daly, Herman E. (1973). Toward a Steady-state Economy. W. H. Freeman, San Francisco: xii + 332 pp.Google Scholar
Eckholm, Erik P. (1976). Losing Ground: Environmental Stress and World Food Prospects. W. W. Norton, New York: 223 pp.Google Scholar
Edsall, John T. (1974). Hazards of nuclear fission power and the choice of alternatives. Environmental Conservation, 1(1), pp. 2130.Google Scholar
Edsall, John T. (1975). Further comments on hazards of nuclear power and the choice of alternatives. Environmental Conservation, 2(3), pp. 205–12.CrossRefGoogle Scholar
Ehrlich, Paul R. (1974). Human population and environmental problems. Environmental Conservation, 1(1), pp. 1520.CrossRefGoogle Scholar
Energy Policy Project of the Ford Foundation (1974). A Time To Choose: America's Energy Future. Ballinger, Cambridge, Massachusetts: xii + 511 pp.Google Scholar
Frejka, Tomaš (1973). The Future of Population Growth: Alternative Paths to Equilibrium. A Population Council Book; John Wiley, New York: xix + 268 pp., illustr.Google Scholar
Green, Harold P. (1975). The risk-benefit calculus in safety determinations. George Washington Law Rev., 43, pp. 791803.Google Scholar
Illich, Ivan (1973). Tools for Conviviality. Calder & Boyars, London: xiii + 110 pp.Google Scholar
International Federation of Institutes for Advanced Study [cited as IFIAS] (1975). Reports of the Guldsmed-shyttan and Lidingö Energy Analysis Workshops. IFIAS, Nobelhuset, Sturegatan 14, S-102 46 Stockholm: ix + 103 pp. [Lidingo item only].Google Scholar
Kellogg, William W. & Schneider, Stephen H. (1974). Science, 186, pp. 1163–72.CrossRefGoogle Scholar
Leach, Gerald (1975). Energy and Food Production. International Institute for Environment and Development, 27 Mortimer St, London Wl, England, and 1525 New Hampshire Avenue NW, Washington, D.C. 20036: ii + 151 pp.CrossRefGoogle Scholar
Lovering, Thomas S. (1969). Mineral resources from the land. Pp. 109–34. In NAS/NRC, Resources and Man. W. H. Freeman, San Francisco: xi + 259.Google Scholar
Lovins, A. B. (1973 a). Thermal Limits to World Energy Use. Typescript under revision, 16 pp.Google Scholar
Lovins, A. B. (1973 b). Openpit Mining. [Earth Island, London.] Available from Friends of the Earth, 529 Commercial Street, San Francisco, California 94111: xx + 115 pp.Google Scholar
Lovins, A. B. (1975 a). World Energy Strategies: Facts, Issues, and Options. Ballinger, Cambridge, Massachusetts: xvi + 131 pp.Google Scholar
Lovins, A. B. (1975 b). Testimony to President's Council on Environmental Quality: in Hearings on the ERDA RD&D Plan. Washington, D.C., 3 09 1975: xvii + 115 pp.Google Scholar
Lovins, A. B. (1975 c). Introduction (pp. xvii-xxxii) and Part One: Nuclear power: technical bases for ethical concern (pp. 1–104) in A. B. Lovins & J. H. Price, Non-Nuclear Futures: The Case for an Ethical Energy Strategy. Ballinger, Cambridge, Massachusetts: xxii + 225 pp., illustr.Google Scholar
Lovins, A. B. & Patterson, W. C. (1975). Plutonium particles: some like them hot. Nature (London), 254, pp. 278–80.Google Scholar
Manabe, S. & Wetherald, R. T. (1975). J. Atmos. Sci., 32, pp. 315 (see especially Fig. 4).Google Scholar
Mitchell, J. M. (1975). A reassessment of atmospheric pollution as a cause of long-term changes of global temperature. Pp. 149–73 in Singer, S. F. (Ed.) The Changing Global Environment. Reidel, Dordrecht: viii + 423 pp., illustr.CrossRefGoogle Scholar
Over, J. A. & Sjoerdsma, A. C. (Eds) (1974). Energy Conservation: Ways and Means. Publication 19, Stichting Toe-komstbeeld der Techniek, Prinsessegracht 23, den Haag: 181 pp.Google Scholar
Polunin, Nicholas (1974). Thoughts on some conceivable ecodisasters. Environmental Conservation, 1(3), pp. 177–89.Google Scholar
Price, J. H. (1975). Part Two: Dynamic energy analysis and nuclear power. Pp. 105223 in Lovins, A. B. & Price, J. H., Non-Nuclear Futures: The Case for an Ethical Energy Strategy. Ballinger, Cambridge, Massachusetts: xxii + 225 pp., illustr.Google Scholar
Ramanathan, V. (1975). Greenhouse effect due to chlorofluoro-carbons: climatic implications. Science, 190, pp. 50–2.Google Scholar
Report of Federal Task Force on Inadvertent Modification of the Stratosphere [cited as Report IMOS] (1975). Fluorocarbons and the Environment. Council on Environmental Quality / Federal Council for Science and Technology, Washington, D.C.: vii + 101 pp., illustr.Google Scholar
Ross, Marc H. & Williams, Robert H. (1975). Assessing the Potential for Fuel Conservation. Institute for Public Policy Alternatives, State University of New York, Albany: i + 37 pp.Google Scholar
Schipper, Lee (1975). Energy Conservation: Its Nature, Hidden Benefits and Hidden Barriers. ERG 75–2, Energy & Resources Group, University of California, Berkeley: v + 79 pp. (mimeogr.).Google Scholar
Schneider, Stephen H. (with Mesirow, Lynne E.) (in press). The Genesis Strategy. Plenum, New York: xxi+419 pp., illustr.Google Scholar
Schneider, Stephen H. & Dennett, Roger D. (1975). Climatic barriers to long-term energy growth. Ambio, 4(2), pp. 6574.Google Scholar
Slesser, Malcolm (1973). New Scientist, 60, p. 328.Google Scholar
Slesser, Malcolm (1975). Accounting for energy. Nature (London), 254, pp. 170–2.Google Scholar
Sørensen, Bent (1975). Energy and resources. Science, 189, pp. 255–60.CrossRefGoogle ScholarPubMed
Wilson, Carroll L. & Matthews, William H. (Eds) (1970). Man's Impact on the Global Environment, Report of the Study of Critical Environmental Problems. MIT Press, Cambridge, Massachusetts: xxii + 319 pp.Google Scholar
Wilson, Carroll L., & Matthews, William H. (Eds) (1971). Inadvertent Climate Modification, Report of the Study of Man's Impact on Climate. MIT Press, Cambridge, Massachusetts: xxi + 308 pp.Google Scholar