Ecology has become the Thing. There are ecological politics, ecological jokes, ecological bookstores, advertisements, seminars, teach-ins, buttons. The automobile, symbol of ecological abuse, has been tried, sentenced to death, and formally executed in at least two universities (replete with burial of one victim). Publishing companies are fattening on books on the sonic boom, poisons in the things we eat, perils loose in the garden, the dangers of breathing. The Saturday Review has appended a regular monthly Ecological Supplement. In short, the ecological issue has assumed the dimensions of a vast popular fad, for which one can predict with reasonable assurance the trajectory of all such fads—a period of intense general involvement, followed by growing boredom and gradual extinction, save for a die-hard remnant of the faithful.

This would be a tragedy, for I have slowly become convinced during the last twelve months that the ecological issue is not only of primary and lasting importance, but that it may indeed constitute the most dangerous and difficult challenge that humanity has ever faced. Since these are very large statements, let me attempt to substantiate them by drawing freely on the best single descriptive and analytic treatment of the subject that I have yet seen, Population, Resources, Environment by Paul and Anne Ehrlich of Stanford University. Rather than resort to the bothersome procedure of endlessly citing their arguments in quotation marks, I shall take the liberty of reproducing their case in a rather free paraphrase, as if it were my own, until we reach the end of the basic argument, after which I shall make clear some conclusions that I believe lie implicit in their work.

Ultimately, the ecological crisis represents our belated awakening to the fact that we live on what Kenneth Boulding has called, in the perfect phrase, our Spaceship Earth. As in all spaceships, sustained life requires that a meticulous balance be maintained between the capability of the vehicle to support life and the demands made by the inhabitants of the craft. Until recently, those demands have been well within the capability of the ship, in its ability both to supply the physical and chemical requirements for continued existence and to absorb the waste products of the voyagers. This is not to say that the earth has been generous—short rations have been the lot of mankind for most of its history—nor is it to deny the recurrent advent of local ecological crises—witness the destruction of whole areas like the erstwhile granaries of North Africa. But famines have passed and there have always been new areas to move to. The idea that the earth as a whole was overtaxed is one that is new to our time.

For it is only in our time that we are reaching the limit of earthly carrying capacity, not on a local but on a global basis. Indeed, as will soon become clear, we are well past that capacity, provided that the level of resource intake and waste output represented by the average American or European is taken as a standard to be achieved by all humanity. To put it bluntly, if we take as the price of a first-class ticket the resource requirements of those passengers who travel in the Northern Hemisphere of the Spaceship, we have now reached a point at which the steerage is condemned to live forever—or at least within the horizon of the technology presently visible—at a second-class level; or a point at which a considerable change in living habits must be imposed on first class if the ship is ever to be converted to a one-class cruise.

This strain on the carrying capacity of the vessel results from the contemporary confluence of three distinct developments, each of which places tremendous or even unmanageable strains on the life-carrying capability of the planet and all of which together simply overload it. The first of these is the enormous strain imposed by the sheer burgeoning of population. The statistics of population growth are by now very well known: the earth’s passenger list is growing at a rate that will give us some four billion humans by 1975, and that threatens to give us eight billion by 2010. I say “threatens,” since it is likely that the inability of the earth to carry so large a group will result in an actual population somewhat smaller than this, especially in the steerage, where the growth is most rapid and the available resources least plentiful.

We shall return to the population problem later. But meanwhile a second strain is placed on the earth by the simple cumulative effect of existing technology (combustion engines, the main industrial processes, present-day agricultural techniques, etc.). This strain is localized mainly in the first-class portions of the vessel where each new arrival on board is rapidly given a standard complement of capital equipment and where the rate of physical and chemical resource transformation per capita steadily mounts. The strain consists of the limited ability of the soil, the water, and the atmosphere of these favored regions to absorb the outpourings of these fast-growing industrial processes.

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The most dramatic instance of this limited absorptive power is the rise in the carbon dioxide content of the air due to the steady growth of (largely industrial) combustion. By the year 2000, it seems beyond dispute that the CO2 content of the air will have doubled, raising the heat-trapping properties of the atmosphere. This so-called “greenhouse” effect has been predicted to raise mean global temperatures sufficiently to bring catastrophic potential consequences. One possibility is a sequence of climatic changes resulting from a melting of the Arctic ice floes that would result in the advent of a new Ice Age; another is the slumping of the Antarctic ice cap into the sea with a consequent tidal wave that could wipe out a substantial portion of mankind and raise the sea level by 60 to 100 feet.

These are all “iffy” scenarios whose present significance may be limited to alerting us to the immensity of the ecological problem; happily they are of sufficient uncertainty not to cause us immediate worry (it is lucky they are, because it is extremely unlikely that all the massed technological and human energy on earth could arrest such changes once they began). Much closer to home is the burden placed on the earth’s carrying capacity by the sheer requirements of a spreading industrial activity for the fuel and mineral resources needed to maintain the going rate of output per person in the first-class cabins. To raise the existing (not the anticipated) population of the earth to American standards would require the annual extraction of 75 times as much iron, 100 times as much copper, 200 times as much lead, and 250 times as much tin as we now take from the earth.

Only the known reserves of iron allow us to entertain such fantastic rates of mineral exploitation (and the capital investment needed to bring about such mining operations is in itself staggering to contemplate). All the other requirements exceed by far all known or reasonably anticipated ore reserves. And, to repeat, we have taken into account only today’s level of population: to equip the prospective passengers of the year 2010 with this amount of basic raw material would require a doubling of all the above figures.

I will revert later to the consequences of this prospect. First, however, let us pay attention to the third source of overload, this one traceable to the special environment-destroying potential of newly developed technologies. Of these the most important—and if it should ever come to full-scale war, of course the most lethal—is the threat posed by nuclear radiation. I shall not elaborate on this well-known (although not well-believed) danger, pausing to point out only that a nuclear holocaust would in all likelihood exert its principal effect in the Northern Hemisphere. The survivors in the South would be severely hampered in their efforts at reconstruction not only because most of the easily available resources of the world have already been used up, but because most of the technological know-how would have perished along with the populations up North.

But the threats of new technology are by no means limited to the specter of nuclear devastation. There is, immediately at hand, the known devastation of the new chemical pesticides that have now entered more or less irreversibly into the living tissue of the world’s population. Most mothers’ milk in the United States today—I now quote the Ehrlichs verbatim—“contains so much DDT that it would be declared illegal in interstate commerce if it were sold as cow’s milk”; and the DDT intake of infants around the world is twice the daily allowable maximum set by the World Health Organization. We are already, in other words, being exposed to heavy dosages of chemicals whose effects we know to be dangerous, with what ultimate results we shall have to wait nervously to discover. (There is something to think about in the archaeological evidence that one factor in the decline of Rome was the systematic poisoning of upperclass Romans from the lead with which they lined their wine containers.)

But the threat is not limited to pesticides. Barry Commoner predicts an agricultural crisis in the United States within fifty years from the action of our fertilizers, which will either ultimately destroy soil fertility or lead to pollution of the national water supply. At another corner of the new technology, the SST threatens not only to shake us with its boom, but to affect the amount of cloud cover (and climate) by its contrails. And I have not even mentioned the standard pollution problems of smoke, industrial effluents into lakes and rivers, or solid wastes. Suffice it to report that a 1968 UNESCO Conference concluded that man has only about twenty years to go before the planet starts to become uninhabitable because of air pollution alone. Of course “starts to” is imprecise; I am reminded of a cartoon of an industrialist looking at his billowing smokestacks, in front of which a forlorn figure is holding up a placard that says: “We have only 35 years to go.” The caption reads, “Boy, that shook me up for a minute. I thought it said 3 to 5 years.”

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I have left until last the grimmest and gravest threat of all, speaking now on behalf of the steerage. This is the looming inability of the great green earth to bring forth sufficient food to maintain life, even at the miserable threshold of subsistence at which it is now endured by perhaps a third of the world’s population. The problem here is the very strong likelihood that population growth will inexorably outpace whatever improvements in fertility and productivity we will be able to apply to the earth’s mantle (including the watery fringes of the ocean where sea “farming” is at least technically imaginable).

Here the race is basically between two forces: on the one hand, those that give promise that the rate of population increase can be curbed (if not totally halted); and on the other, those that give promise of increasing the amount of sustenance we can wring from the soil.

Both these forces are subtly blended of technological and social factors. Take population growth. The great hope of every ecologist is that an effective birth control technique—cheap, requiring little or no medical supervision, devoid of taboos or religious hindrances—will rapidly and effectively lower the present fertility rates which are doubling world population every thirty-five years (every twenty-eight years in Africa; every twenty-four in Latin America). No such device is currently available, although the Pill, the IUD, vasectomies, abortions, condoms, coitus interruptus, and other known techniques could, of course, do the job, if the requisite equipment, persuasion (or coercion), instruction, etc. could be brought to the 80 to 90 percent of the world’s people who know next to nothing about birth control.

It seems a fair conclusion that no such world-wide campaign is apt to be successful for at least a decade and maybe a generation, although there is always the hope that a “spontaneous” change in attitudes, similar to that in Hungary or Japan, will bring about a rapid halt to population growth. But even in this unlikely event, the sheer “momentum” of population growth still poses terrible problems. Malcom Potts, Secretary General of International Planned Parenthood, has presented a shocking statistical calculation in this regard: he has pointed out that population growth in India is today adding one million mouths per month to the Indian subcontinent. If, by some miracle, fertility rates were to decline tomorrow by 50 percent in India, at the end of twenty years, owing to the already existing huge numbers of children who would be moving up into child-bearing ages, population growth in India would still be taking place at the rate of one million mouths per month.

The other element in the race is our ability to match population growth with food supplies, at least for a generation or so, while birth control techniques and campaigns are being perfected. Here the problem is also partly technological, partly social. The technological part involves the so-called “Green Revolution”—the development of seeds that are capable, at their best, of improving yields per acre by a factor of 300 percent, sometimes even more. The problem, however, is that these new seeds generally require irrigation and fertilizer to bring their benefits. If India alone were to apply fertilizer at the per capita level of the Netherlands, she would consume half the world’s total output of fertilizer. This would require a hundredfold expansion of India’s present level of fertilizer use.

Irrigation, the other necessary input for most improved seeds, poses equally formidable requirements. E. A. Mason of the Oak Ridge National Laboratories has prepared preliminary estimates of the costs of nuclear-powered “agro-industrial complexes” in which desalted water and fertilizer would be produced for use on adjacent farms. It would require twenty-three such plants per year, each taking care of some three million people, just to keep pace with present world population growth. Since it would take at least five years to get these plants into operation, we should begin work today on at least 125 such units. If we assume that no hitches were encountered and that the technology on paper could be easily translated into a technology in situ, the cost would amount to $315 billion.

There are as well other technical problems of an ecological nature associated with the Green Revolution—mainly the risk of introducing locally untried strains of plants that may be subject to epidemic disease. But putting those difficulties to the side, we must recognize as well the social obstacles that a successful Green Revolution must overcome. The new seeds can only be afforded by the upper level of peasantry—not merely because of their cost (and the cost of the required fertilizer), but because only a rich peasant can take the risk of having the crop turn out badly without himself suffering starvation. Hence the Green Revolution is likely to increase the strains of social stratification within the underdeveloped areas. Then, too, even a successful local crop does not always shed its benefits evenly across a nation, but results all too often in local gluts that cannot be transported to starving areas because of transportation bottlenecks.

None of these discouraging remarks is intended in the slightest to disparage the Green Revolution, which represents the inspired work of dedicated men. But the difficulties must be kept in mind as a corrective to the lulling belief that “science” can easily offset the population boom with larger supplies of food. There is no doubt that supplies of food can be substantially increased—rats alone devour some 10-12 percent of India’s crop, and insects can ravage up to half of the stored crops of some underdeveloped areas, so that even very “simple” methods of improved storage hold out important prospects of improving basic life-support, quite aside from the longer term hopes of agronomy.

Yet at best these improvements will only stave off the day of reckoning. Ultimately the problem posed by Malthus must be faced—that population tends to increase geometrically, by doubling; and that agriculture does not; so that eventually population must face the limit of a food barrier. It is worth repeating the words of Malthus himself in this regard:

Famine seems to be the last, the most dreadful resource of nature. The power of population is so much superior to the power in the earth to produce subsistence for man, that premature death must in some shape or other visit the human race. The vices of mankind are active and able ministers of depopulation…. [S]hould they fail in this war of extermination, sickly seasons, epidemics, pestilence, and plague, advance in terrific array, and sweep off their thousands and ten thousands. Should success still be incomplete, gigantic inevitable famine stalks in the rear, and with one mighty blow, levels the population with the food of the world.

This Malthusian prophecy has been so often “refuted,” as economists have pointed to the astonishing rates of growth of food output in the advanced nations, that there is a danger of dismissing the warnings of the Ehrlichs as merely another premature alarm. To do so would be a fearful mistake. For unlike Malthus, who assumed that technology would remain constant, the Ehrlichs have made ample allowance for the growth of technological capability, and their approach to the impending catastrophe is not shrill. They merely point out that a mild version of the Malthusian solution is already upon us, for at least half a billion people are chronically hungry or outright starving, and another 1 1/2 billion under or malnourished. Thus we do not have to wait for “gigantic inevitable famine”; it has already come.

What is more important is that the Ehrlichs see the matter in a fundamentally different perspective from Malthus, not as a problem involving supply and demand, but as one involving a total ecological equilibrium. The crisis, as the Ehrlichs see it, is thus both deeper and more complex than merely a shortage of food, although the latter is one of its more horrendous evidences. What threatens the Spaceship Earth is a profound imbalance between the totality of systems by which human life is maintained, and the totality of demands, industrial as well as agricultural, technological as well as demographic, to which that capacity to support life is subjected.

I have no doubt that one can fault bits and pieces of the Ehrlichs’ analysis, and there is a note of determined pessimism in their work that leads me to suspect (or at least hope) that there is somewhat more time for adaptation than they suggest. Yet I do not see how their basic conclusion can be denied. Beginning within our life-times and rising rapidly to crisis proportions in our children’s, a challenge faces humankind comparable to none in its history, with the possible exception of the forced migrations of the Ice Age. It is with the responses to this crisis that I wish to end this essay, for telling and courageous as the Ehrlichs’ analysis is, I do not believe that even they have fully faced up to the implications that their own findings present.

The first of these I have already stated: it is the clear conclusion that the underdeveloped countries can never hope to achieve parity with the developed countries. Given our present and prospective technology, there are simply not enough resources to permit a “Western” rate of industrial exploitation to be expanded to a population of four billion—much less eight billion—persons. It may well be that most of the population in the underdeveloped world has no ambition to reach Western standards—indeed, does not even know that such a thing as “development” is on the agenda. But the elites of these nations, for all their rhetorical rejection of Western (and especially American) styles of life, do tend to picture a Western standard as the ultimate end of their activities. As it becomes clear that such an objective is impossible, a profound reorientation of views must take place within the underdeveloped nations.

What such a reorientation will be it is impossible to say. For the near future, the outlook for the most population-oppressed areas will be a continuous battle against food shortages, coupled with the possible permanent impairment of the intelligence of much of the surviving population due to protein deficiencies in childhood. This pressure of population may lead to aggressive searches for Lebensraum; or as I have frequently written, may culminate in revolutions of desperation.

In the long run, of course, there is the possibility of considerable growth (although nothing resembling the attainment of a Western standard of consumption). But no quick substantial improvement in their condition seems feasible within the next generation at least. The visions of Sir Charles Snow or the Soviet academician Sakharov for a gigantic transfer of wealth from the rich nations to the poor (20 percent of GNP is proposed) are simply fantasies. Since much of GNP is spatially non-transferable or inappropriate, such a huge levy against GNP would imply shipments of up to 50 percent of much movable output. How this enormous flood of goods would be transported, allocated, absorbed, or maintained—not to mention relinquished by the donor countries—is nowhere analyzed by the proponents of such vast aid.

The implications of the ecological crisis for the advanced nations are not any less severe, although they are of a different kind. For it is clear that free industrial growth is just as disastrous for the Western nations as free population growth for those of the East and South. The worship in the West of a growing Gross National Product must be recognized as not only a deceptive but a very dangerous avatar; Kenneth Boulding has begun a campaign, in which I shall join him, to label this statistical monster Gross National Cost.

The necessity to bring our economic activities into a sustainable relationship with the resource capabilities and waste absorption properties of the world will pose two problems for the West. On the simpler level, a whole series of technological problems must be met. Fume-free transportation must be developed on land and air. The cult of disposability must be replaced by that of reusability. Population stability must be attained through tax and other inducements, both to conserve resources and to preserve reasonable population densities. Many of these problems will tax our ingenuity, technical and socio-political, but the main problem they pose is not whether, but how soon they can be solved.

But there is another, deeper question that the developed nations face—at least those that have capitalist economies. This problem can be stated as a crucial test as to who was right—John Stuart Mill or Karl Marx. Mill maintained, in his famous Principles, that the terminus of capitalist evolution would be a stationary state, in which the return to capital had fallen to insignificance, and a redistributive tax system would be able to capture any flows of income to the holders of scarce resources such as land. In effect, he prophesied the transformation of capitalism, in an environment of abundance, into a balanced economy, in which the capitalist both as the generator of change and as the main claimant on the surplus generated by change, would in effect undergo a painless euthanasia.

The Marxian view is of course quite the opposite. The very essence of capitalism, according to Marx, is expansion—which is to say, the capitalist, as a historical “type,” finds his raison d’être in the insatiable search for additional money-wealth gained through the constant growth of the economic system. The idea of a “stationary” capitalism is, in Marxian eyes, a contradiction in terms, on a logical par with a democratic aristocracy or an industrial feudalism.

Is the Millian or the Marxian view correct? I do not think that we can yet say. Some economic growth is certainly compatible with a stabilized rate of resource use and disposal, for growth could take the form of the expenditure of additional labor on the improvement (aesthetic or technical) of the national environment. Indeed, insofar as education or cultural activity are forms of national output that require little use of resources and result in little waste product, national output could be indefinitely expanded through these and similar activities. But there is no doubt that the main avenue of traditional capitalist accumulation would have to be considerably constrained; that net investment in mining and manufacturing would effectively cease; that the rate and kind of technological change would need to be supervised and probably greatly reduced; and that as a consequence, the flow of profits would almost certainly fall.

Is this imaginable within a capitalist setting—that is, in a nation in which the business ideology permeates the views of nearly all groups and classes and establishes the bounds of what is possible and natural, and what is not? Ordinarily I do not see how such a question could be answered in any way but negatively, for it is tantamount to asking a dominant class to acquiesce in the elimination of the very activities that sustain it. But this is an extraordinary challenge that may evoke an extraordinary response. Like the challenge posed by war, the ecological crisis affects all classes, and therefore may be sufficient to induce sociological changes that would be unthinkable in ordinary circumstances.

The capitalist and managerial classes may see—perhaps even more clearly than the consuming masses—the nature and nearness of the ecological crisis, and may recognize that their only salvation (as human beings, let alone privileged human beings) is an occupational migration into governmental or other posts of power, or they may come to accept a smaller share of the national surplus supply simply because they recognize that there is no alternative. When the enemy is nature, in other words, rather than another social class, it is at least imaginable that adjustments could be made that would be impossible in ordinary circumstances.1

There is, however, another possibility to which I must also call attention. It is the possibility that the ecological crisis will simply result in the decline or even destruction of Western civilization, and of the hegemony of the scientific-technological view that has achieved so much and cost us so dearly. Great challenges do not always bring great responses, especially when those responses must be sustained over long periods of time and require dramatic changes in life styles and attitudes. Even educated men today are able to deny the reality of the crisis they face: there is wild talk of farming the seas, of transporting men to the planets, of unspecified “miracles” of technology that will avert disaster. Glib as they are, however, at least these suggestions have a certain responsibility when compared to another and much more worrisome response: Je m’en fiche.

Can we really persuade the citizens of the Western world, who are just now entering the heady atmosphere of a high consumption way of life, that conservation, stability, frugality, and a deep concern for the distant future must now take priority over the personal indulgence for which they have been culturally prepared and which they are about to experience for the first time? Not the least danger of the ecological crisis, as I see it, is that tens and hundreds of millions will shrug their shoulders at the prospects ahead (“What has posterity ever done for us?”), and that the increasingly visible approach of ecological Armageddon will bring not repentance but Saturnalia.

Yet I cannot end this essay on such a note. For it seems to me that the ecological enthusiasts may be right when they speak of the deteriorating environment as providing the possibility for a new political rallying ground. If a new New Deal, capable of engaging both the efforts and the beliefs of this nation, is the last great hope to which we cling in the face of what seems otherwise to be an inevitable gradual worsening and coarsening of our style of life, it is possible that a determined effort to arrest the ecological decay might prove to be its underlying theme. Such an issue, immediate in the experience of all, carries an appeal that might allow vast improvements to be worked in the American environment, both urban and industrial. I cannot estimate the likelihood of such a political awakening, dependent as these matters are on the dice of personality and the outcome of events at home and abroad. But however slim the possibility of bringing such a change, it does at least make the ecological crisis, unquestionably the gravest long-run threat of our times, potentially the source of its greatest short-term promise.

This Issue

April 23, 1970