– How are the experiences you are having and the learning you are doing having an impact on your thinking about what “sustainability” means.

For this essay you should use the essays, video, and websites to critically reflect on the following question: What does it mean to be sustainable either in your own life, in a community, or in the culture? Some things to consider

– Where in your own life can you point to practices that are, or have the potential to be, sustainable
– How are the experiences you are having and the learning you are doing having an impact on your thinking about what  

Paper Packet I
ENG 111
Sustainability
AWARDS & HONORS: 2012 JEFFERSON LECTURER
Wendell E. Berry Lecture
“It All Turns On Affection”
LECTURE
“Because a thing is going strong now, it need not go strong for ever,” [Margaret] said. “This craze for motion has only set in during the last hundred years. It may be followed by a civilization that won’t be a movement, because it will rest upon the earth.
E. M. Forster, Howards End (1910)1
One night in the winter of 1907, at what we have always called “the home place” in Henry County, Kentucky, my father, then six years old, sat with his older brother and listened as their parents spoke of the uses they would have for the money from their 1906 tobacco crop. The crop was to be sold at auction in Louisville on the next day. They would have been sitting in the light of a kerosene lamp, close to the stove, warming themselves before bedtime. They were not wealthy people. I believe that the debt on their farm was not fully paid, there would have been interest to pay, there would have been other debts. The depression of the 1890s would have left them burdened. Perhaps, after the income from the crop had paid their obligations, there would be some money that they could spend as they chose. At around two o’clock the next morning, my father was wakened by a horse’s shod hooves on the stones of the driveway. His father was leaving to catch the train to see the crop sold.
He came home that evening, as my father later would put it, “without a dime.” After the crop had paid its transportation to market and the commission on its sale, there was nothing left. Thus began my father’s lifelong advocacy, later my brother’s and my own, and now my daughter’s and my son’s, for small farmers and for land-conserving economies.
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The economic hardship of my family and of many others, a century ago, was caused by a monopoly, the American Tobacco Company, which had eliminated all competitors and thus was able to reduce as it pleased the prices it paid to farmers. The American Tobacco Company was the work of James B. Duke of Durham, North Carolina, and New York City, who, disregarding any other consideration, followed a capitalist logic to absolute control of his industry and, incidentally, of the economic fate of thousands of families such as my own.
My effort to make sense of this memory and its encompassing history has depended on a pair of terms used by my teacher, Wallace Stegner. He thought rightly that we Americans, by inclination at least, have been divided into two kinds: “boomers” and “stickers.” Boomers, he said, are “those who pillage and run,” who want “to make a killing and end up on Easy Street,” whereas stickers are “those who settle, and love the life they have made and the place they have made it in.”2 “Boomer” names a kind of person and a kind of ambition that is the major theme, so far, of the history of the European races in our country. “Sticker” names a kind of person and also a desire that is, so far, a minor theme of that history, but a theme persistent enough to remain significant and to offer, still, a significant hope.
The boomer is motivated by greed, the desire for money, property, and therefore power. James B. Duke was a boomer, if we can extend the definition to include pillage in absentia. He went, or sent, wherever the getting was good, and he got as much as he could take.
Stickers on the contrary are motivated by affection, by such love for a place and its life that they want to preserve it and remain in it. Of my grandfather I need to say only that he shared in the virtues and the faults of his kind and time, one of his virtues being that he was a sticker. He belonged to a family who had come to Kentucky from Virginia, and who intended to go no farther. He was the third in his paternal line to live in the neighborhood of our little town of Port Royal, and he was the second to own the farm where he was born in 1864 and where he died in 1946.
We have one memory of him that seems, more than any other, to identify him as a sticker. He owned his farm, having bought out the other heirs, for more than fifty years. About forty of those years were in hard times, and he lived almost continuously in the distress of debt. Whatever has happened in what economists call “the economy,” it is generally true that the land economy has been discounted or ignored. My grandfather lived his life in an economic shadow. In an urbanizing and industrializing age, he was the wrong kind of man. In one of his difficult years he plowed a field on the lower part of a long slope and planted it in corn. While the soil was exposed, a heavy rain fell and the field was seriously eroded. This was heartbreak for my grandfather, and he devoted the rest of his life, first to healing the scars and then to his obligation of care. In keeping with the sticker’s commitment, he neither left behind the damage he had done nor forgot about it, but stayed to repair it, insofar as soil loss can be repaired. My father, I think, had his father’s error in mind when he would speak of farmers attempting, always uselessly if not tragically, “to plow their way out of debt.” From that time, my grandfather and my father were soil conservationists, a commitment that they handed on to my brother and to me.
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It is not beside the point, or off my subject, to notice that these stories and their meanings, have survived because of my family’s continuing connection to its home place. Like my grandfather, my father grew up on that place and served as its caretaker. It has now belonged to my brother for many years, and he in turn has been its caretaker. He and I have lived as neighbors, allies, and friends. Our long conversation has often taken its themes from the two stories I have told, because we have been continually reminded of them by our home neighborhood and topography. If we had not lived there to be reminded and to remember, nobody would have remembered. If either of us had lived elsewhere, both of us would have known less. If both of us, like most of our generation, had moved away, the place with its memories would have been lost to us and we to it—and certainly my thoughts about agriculture, if I had thought of it at all, would have been much more approximate than they have been.
Because I have never separated myself from my home neighborhood, I cannot identify myself to myself apart from it. I am fairly literally flesh of its flesh. It is present in me, and to me, wherever I go. This undoubtedly accounts for my sense of shock when, on my first visit to Duke University, and by surprise, I came face-to-face with James B. Duke in his dignity, his glory perhaps, as the founder of that university. He stands imperially in bronze in front of a Methodist chapel aspiring to be a cathedral. He holds between two fingers of his left hand a bronze cigar. On one side of his pedestal is the legend: INDUSTRIALIST. On the other side is another single word: PHILANTHROPIST. The man thus commemorated seemed to me terrifyingly ignorant, even terrifyingly innocent, of the connection between his industry and his philanthropy. But I did know the connection. I felt it instantly and physically. The connection was my grandparents and thousands of others more or less like them. If you can appropriate for little or nothing the work and hope of enough such farmers, then you may dispense the grand charity of “philanthropy.”
After my encounter with the statue, the story of my grandfather’s 1906 tobacco crop slowly took on a new dimension and clarity in my mind. I still remembered my grandfather as himself, of course, but I began to think of him also as a kind of man standing in thematic opposition to a man of an entirely different kind. And I could see finally that between these two kinds there was a failure of imagination that was ruinous, that belongs indelibly to our history, and that has continued, growing worse, into our own time.
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The term “imagination” in what I take to be its truest sense refers to a mental faculty that some people have used and thought about with the utmost seriousness. The sense of the verb “to imagine” contains the full richness of the verb “to see.” To imagine is to see most clearly, familiarly, and understandingly with the eyes, but also to see inwardly, with “the mind’s eye.” It is to see, not passively, but with a force of vision and even with visionary force. To take it seriously we must give up at once any notion that imagination is disconnected from reality or truth or knowledge. It has nothing to do either with clever imitation of appearances or with “dreaming up.” It does not depend upon one’s attitude or point of view, but grasps securely the qualities of things seen or envisioned.
I will say, from my own belief and experience, that imagination thrives on contact, on tangible connection. For humans to have a responsible relationship to the world, they must imagine their places in it. To have a place, to live and belong in a place, to live from a place without destroying it, we must imagine it. By imagination we see it illuminated by its own unique character and by our love for it. By imagination we recognize with sympathy the fellow members, human and nonhuman, with whom we share our place. By that local experience we see the need to grant a sort of preemptive sympathy to all the fellow members, the neighbors, with whom we share the world. As imagination enables sympathy, sympathy enables affection. And it is in affection that we find the possibility of a neighborly, kind, and conserving economy.
Obviously there is some risk in making affection the pivot of an argument about economy. The charge will be made that affection is an emotion, merely “subjective,” and therefore that all affections are more or less equal: people may have affection for their children and their automobiles, their neighbors and their weapons. But the risk, I think, is only that affection is personal. If it is not personal, it is nothing; we don’t, at least, have to worry about governmental or corporate affection. And one of the endeavors of human cultures, from the beginning, has been to qualify and direct the influence of emotion. The word “affection” and the terms of value that cluster around it—love, care, sympathy, mercy, forbearance, respect, reverence—have histories and meanings that raise the issue of worth. We should, as our culture has warned us over and over again, give our affection to things that are true, just, and beautiful. When we give affection to things that are destructive, we are wrong. A large machine in a large, toxic, eroded cornfield is not, properly speaking, an object or a sign of affection.
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My grandfather knew, urgently, the value of money, but only of such comparatively small sums as would have paid his debts and allowed to his farm and his family a decent prosperity. He certainly knew of the American Tobacco Company. He no doubt had read and heard of James B. Duke, and could identify him as the cause of a hard time, but nothing in his experience could have enabled him to imagine the life of the man himself.
James B. Duke came from a rural family in the tobacco country of North Carolina. In his early life he would have known men such as my grandfather. But after he began his rise as an industrialist, the life of a small tobacco grower would have been to him a negligible detail incidental to an opportunity for large profits. In the minds of the “captains of industry,” then and now, the people of the land economies have been reduced to statistical numerals. Power deals “efficiently” with quantities that affection cannot recognize.
It may seem plausible to suppose that the head of the American Tobacco Company would have imagined at least that a dependable supply of raw material to his industry would depend upon a stable, reasonably thriving population of farmers and upon the continuing fertility of their farms. But he imagined no such thing. In this he was like apparently all agribusiness executives. They don’t imagine farms or farmers. They imagine perhaps nothing at all, their minds being filled to capacity by numbers leading to the bottom line. Though the corporations, by law, are counted as persons, they do not have personal minds, if they can be said to have minds. It is a great oddity that a corporation, which properly speaking has no self, is by definition selfish, responsible only to itself. This is an impersonal, abstract selfishness, limitlessly acquisitive, but unable to look so far ahead as to preserve its own sources and supplies. The selfishness of the fossil fuel industries by nature is self-annihilating; but so, always, has been the selfishness of the agribusiness corporations. Land, as Wes Jackson has said, has thus been made as exhaustible as oil or coal.
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There is another difference between my grandfather and James B. Duke that may finally be more important than any other, and this was a difference of kinds of pleasure. We may assume that, as a boomer, moving from one chance of wealth to another, James B. Duke wanted only what he did not yet have. If it is true that he was in this way typical of his kind, then his great pleasure was only in prospect, which excludes affection as a motive.
My grandfather, on the contrary, and despite his life’s persistent theme of hardship, took a great and present delight in the modest good that was at hand: in his place and his affection for it, in its pastures, animals, and crops, in favorable weather.
He did not participate in the least in what we call “mobility.” He died, after eighty-two years, in the same spot he was born in. He was probably in his sixties when he made the one longish trip of his life. He went with my father southward across Kentucky and into Tennessee. On their return, my father asked him what he thought of their journey. He replied: “Well, sir, I’ve looked with all the eyes I’ve got, and I wouldn’t trade the field behind my barn for every inch I’ve seen.”
In such modest joy in a modest holding is the promise of a stable, democratic society, a promise not to be found in “mobility”: our forlorn modern progress toward something indefinitely, and often unrealizably, better. A principled dissatisfaction with whatever one has promises nothing or worse.
James B. Duke would not necessarily have thought so far of the small growers as even to hold them in contempt. The Duke trust exerted an oppression that was purely economic, involving a mechanical indifference, the indifference of a grinder to what it grinds. It was not, that is to say, a political oppression. It did not intend to victimize its victims. It simply followed its single purpose of the highest possible profit, and ignored the “side effects.” Confronting that purpose, any small farmer is only one, and one lost, among a great multitude of others, whose work can be quickly transformed into a great multitude of dollars.
Corporate industrialism has tended to be, and as its technological and financial power has grown it has tended increasingly to be, indifferent to its sources in what Aldo Leopold called “the land-community”: the land, all its features and “resources,” and all its members, human and nonhuman, including of course the humans who do, for better or worse, the work of land use.3 Industrialists and industrial economists have assumed, with permission from the rest of us, that land and people can be divorced without harm. If farmers come under adversity from high costs and low prices, then they must either increase their demands upon the land and decrease their care for it, or they must sell out and move to town, and this is supposed to involve no ecological or economic or social cost. Or if there are such costs, then they are rated as “the price of progress” or “creative destruction.”
But land abuse cannot brighten the human prospect. There is in fact no distinction between the fate of the land and the fate of the people. When one is abused, the other suffers. The penalties may come quickly to a farmer who destroys perennial cover on a sloping field. They will come sooner or later to a land-destroying civilization such as ours.
And so it has seemed to me less a choice than a necessity to oppose the boomer enterprise with its false standards and its incomplete accounting, and to espouse the cause of stable, restorative, locally adapted economies of mostly family-sized farms, ranches, shops, and trades. Naïve as it may sound now, within the context of our present faith in science, finance, and technology—the faith equally of “conservatives” and “liberals”—this cause nevertheless has an authentic source in the sticker’s hope to abide in and to live from some chosen and cherished small place—which, of course, is the agrarian vision that Thomas Jefferson spoke for, a sometimes honored human theme, minor and even fugitive, but continuous from ancient times until now. Allegiance to it, however, is not a conclusion but the beginning of thought.
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The problem that ought to concern us first is the fairly recent dismantling of our old understanding and acceptance of human limits. For a long time we knew that we were not, and could never be, “as gods.” We knew, or retained the capacity to learn, that our intelligence could get us into trouble that it could not get us out of. We were intelligent enough to know that our intelligence, like our world, is limited. We seem to have known and feared the possibility of irreparable damage. But beginning in science and engineering, and continuing, by imitation, into other disciplines, we have progressed to the belief that humans are intelligent enough, or soon will be, to transcend all limits and to forestall or correct all bad results of the misuse of intelligence. Upon this belief rests the further belief that we can have “economic growth” without limit.
Economy in its original—and, I think, its proper—sense refers to household management. By extension, it refers to the husbanding of all the goods by which we live. An authentic economy, if we had one, would define and make, on the terms of thrift and affection, our connections to nature and to one another. Our present industrial system also makes those connections, but by pillage and indifference. Most economists think of this arrangement as “the economy.” Their columns and articles rarely if ever mention the land-communities and land-use economies. They never ask, in their professional oblivion, why we are willing to do permanent ecological and cultural damage “to strengthen the economy?”
In his essay, “Notes on Liberty and Property,” Allen Tate gave us an indispensable anatomy of our problem. His essay begins by equating, not liberty and property, but liberty and control of one’s property. He then makes the crucial distinction between ownership that is merely legal and what he calls “effective ownership.” If a property, say a small farm, has one owner, then the one owner has an effective and assured, if limited, control over it as long as he or she can afford to own it, and is free to sell it or use it, and (I will add) free to use it poorly or well. It is clear also that effective ownership of a small property is personal and therefore can, at least possibly, be intimate, familial, and affectionate. If, on the contrary, a person owns a small property of stock in a large corporation, then that person has surrendered control of the property to larger shareholders. The drastic mistake our people made, as Tate believed and I agree, was to be convinced “that there is one kind of property—just property, whether it be a thirty-acre farm in Kentucky or a stock certificate in the United States Steel Corporation.” By means of this confusion, Tate said, “Small ownership . . . has been worsted by big, dispersed ownership—the giant corporation.”4 (It is necessary to append to this argument the further fact that by now, owing largely to corporate influence, land ownership implies the right to destroy the land-community entirely, as in surface mining, and to impose, as a consequence, the dangers of flooding, water pollution, and disease upon communities downstream.)
Tate’s essay was written for the anthology, Who Owns America? the publication of which was utterly without effect. With other agrarian writings before and since, it took its place on the far margin of the national dialogue, dismissed as anachronistic, retrogressive, nostalgic, or (to use Tate’s own term of defiance) reactionary in the face of the supposedly “inevitable” dominance of corporate industrialism. Who Owns America? was published in the Depression year of 1936. It is at least ironic that talk of “effective property” could have been lightly dismissed at a time when many rural people who had migrated to industrial cities were returning to their home farms to survive.
In 1936, when to the dominant minds a thirty-acre farm in Kentucky was becoming laughable, Tate’s essay would have seemed irrelevant as a matter of course. At that time, despite the Depression, faith in the standards and devices of industrial progress was nearly universal and could not be shaken.
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But now, three-quarters of a century later, we are no longer talking about theoretical alternatives to corporate rule. We are talking with practical urgency about an obvious need. Now the two great aims of industrialism—replacement of people by technology and concentration of wealth into the hands of a small plutocracy—seem close to fulfillment. At the same time the failures of industrialism have become too great and too dangerous to deny. Corporate industrialism itself has exposed the falsehood that it ever was inevitable or that it ever has given precedence to the common good. It has failed to sustain the health and stability of human society. Among its characteristic signs are destroyed communities, neighborhoods, families, small businesses, and small farms. It has failed just as conspicuously and more dangerously to conserve the wealth and health of nature. No amount of fiddling with capitalism to regulate and humanize it, no pointless rhetoric on the virtues of capitalism or socialism, no billions or trillions spent on “defense” of the “American dream,” can for long disguise this failure. The evidences of it are everywhere: eroded, wasted, or degraded soils; damaged or destroyed ecosystems; extinction of species; whole landscapes defaced, gouged, flooded, or blown up; pollution of the whole atmosphere and of the water cycle; “dead zones” in the coastal waters; thoughtless squandering of fossil fuels and fossil waters, of mineable minerals and ores; natural health and beauty replaced by a heartless and sickening ugliness. Perhaps its greatest success is an astounding increase in the destructiveness, and therefore the profitability, of war.
In 1936, moreover, only a handful of people were thinking about sustainability. Now, reasonably, many of us are thinking about it. The problem of sustainability is simple enough to state. It requires that the fertility cycle of birth, growth, maturity, death, and decay—what Albert Howard called “the Wheel of Life”—should turn continuously in place, so that the law of return is kept and nothing is wasted. For this to happen in the stewardship of humans, there must be a cultural cycle, in harmony with the fertility cycle, also continuously turning in place. The cultural cycle is an unending conversation between old people and young people, assuring the survival of local memory, which has, as long as it remains local, the greatest practical urgency and value. This is what is meant, and is all that is meant, by “sustainability.” The fertility cycle turns by the law of nature. The cultural cycle turns on affection.
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That we live now in an economy that is not sustainable is not the fault only of a few mongers of power and heavy equipment. We all are implicated. We all, in the course of our daily economic life, consent to it, whether or not we approve of it. This is because of the increasing abstraction and unconsciousness of our connection to our economic sources in the land, the land-communities, and the land-use economies. In my region and within my memory, for example, human life has become less creaturely and more engineered, less familiar and more remote from local places, pleasures, and associations. Our knowledge, in short, has become increasingly statistical.
Statistical knowledge once was rare. It was a property of the minds of great rulers, conquerors, and generals, people who succeeded or failed by the manipulation of large quantities that remained, to them, unimagined because unimaginable: merely accountable quantities of land, treasure, people, soldiers, and workers. This is the sort of knowledge we now call “data” or “facts” or “information.” Or we call it “objective knowledge,” supposedly untainted by personal attachment, but nonetheless available for industrial and commercial exploitation. By means of such knowledge a category assumes dominion over its parts or members. With the coming of industrialism, the great industrialists, like kings and conquerors, become exploiters of statistical knowledge. And finally virtually all of us, in order to participate and survive in their system, have had to agree to their substitution of statistical knowledge for personal knowledge. Virtually all of us now share with the most powerful industrialists their remoteness from actual experience of the actual world. Like them, we participate in an absentee economy, which makes us effectively absent even from our own dwelling places. Though most of us have little wealth and perhaps no power, we consumer–citizens are more like James B. Duke than we are like my grandfather. By economic proxies thoughtlessly given, by thoughtless consumption of goods ignorantly purchased, now we all are boomers.
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The failure of imagination that divided the Duke monopoly and such farmers as my grandfather seems by now to be taken for granted. James B. Duke controlled remotely the economies of thousands of farm families. A hundred years later, “remote control” is an unquestioned fact, the realization of a technological ideal, and we have remote entertainment and remote war. Statistical knowledge is remote, and it isolates us in our remoteness. It is the stuff itself of unimagined life. We may, as we say, “know” statistical sums, but we cannot imagine them.
It is by imagination that knowledge is “carried to the heart” (to borrow again from Allen Tate).5 The faculties of the mind—reason, memory, feeling, intuition, imagination, and the rest—are not distinct from one another. Though some may be favored over others and some ignored, none functions alone. But the human mind, even in its wholeness, even in instances of greatest genius, is irremediably limited. Its several faculties, when we try to use them separately or specialize them, are even more limited.
The fact is that we humans are not much to be trusted with what I am calling statistical knowledge, and the larger the statistical quantities the less we are to be trusted. We don’t learn much from big numbers. We don’t understand them very well, and we aren’t much affected by them. The reality that is responsibly manageable by human intelligence is much nearer in scale to a small rural community or urban neighborhood than to the “globe.”
When people succeed in profiting on a large scale, they succeed for themselves. When they fail, they fail for many others, sometimes for us all. A large failure is worse than a small one, and this has the sound of an axiom, but how many believe it? Propriety of scale in all human undertakings is paramount, and we ignore it. We are now betting our lives on quantities that far exceed all our powers of comprehension. We believe that we have built a perhaps limitless power of comprehension into computers and other machines, but our minds remain as limited as ever. Our trust that machines can manipulate to humane effect quantities that are unintelligible and unimaginable to humans is incorrigibly strange.
As there is a limit only within which property ownership is effective, so is there a limit only within which the human mind is effective and at least possibly beneficent. We must assume that the limit would vary somewhat, though not greatly, with the abilities of persons. Beyond that limit the mind loses its wholeness, and its faculties begin to be employed separately or fragmented according to the specialties or professions for which it has been trained.
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In my reading of the historian John Lukacs, I have been most instructed by his understanding that there is no knowledge but human knowledge, that we are therefore inescapably central to our own consciousness, and that this is “a statement not of arrogance but of humility. It is yet another recognition of the inevitable limitations of mankind.”6 We are thus isolated within our uniquely human boundaries, which we certainly cannot transcend or escape by means of technological devices.
But as I understand this dilemma, we are not completely isolated. Though we cannot by our own powers escape our limits, we are subject to correction from, so to speak, the outside. I can hardly expect everybody to believe, as I do (with due caution), that inspiration can come from the outside. But inspiration is not the only way the human enclosure can be penetrated. Nature too may break in upon us, sometimes to our delight, sometimes to our dismay.
As many hunters, farmers, ecologists, and poets have understood, Nature (and here we capitalize her name) is the impartial mother of all creatures, unpredictable, never entirely revealed, not my mother or your mother, but nonetheless our mother. If we are observant and respectful of her, she gives good instruction. As Albert Howard, Wes Jackson, and others have carefully understood, she can give us the right patterns and standards for agriculture. If we ignore or offend her, she enforces her will with punishment. She is always trying to tell us that we are not so superior or independent or alone or autonomous as we may think. She tells us in the voice of Edmund Spenser that she is of all creatures “the equall mother, / And knittest each to each, as brother unto brother.”7 Nearly three and a half centuries later, we hear her saying about the same thing in the voice of Aldo Leopold: “In short, a land ethic changes the role of Homo sapiens from conqueror of the land-community to plain member and citizen of it.”8
We cannot know the whole truth, which belongs to God alone, but our task nevertheless is to seek to know what is true. And if we offend gravely enough against what we know to be true, as by failing badly enough to deal affectionately and responsibly with our land and our neighbors, truth will retaliate with ugliness, poverty, and disease. The crisis of this line of thought is the realization that we are at once limited and unendingly responsible for what we know and do.
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The discrepancy between what modern humans presume to know and what they can imagine—given the background of pride and self-congratulation—is amusing and even funny. It becomes more serious as it raises issues of responsibility. It becomes fearfully serious when we start dealing with statistical measures of industrial destruction.
To hear of a thousand deaths in war is terrible, and we “know” that it is. But as it registers on our hearts, it is not more terrible than one death fully imagined. The economic hardship of one farm family, if they are our neighbors, affects us more painfully than pages of statistics on the decline of the farm population. I can be heartstruck by grief and a kind of compassion at the sight of one gulley (and by shame if I caused it myself), but, conservationist though I am, I am not nearly so upset by an accounting of the tons of plowland sediment borne by the Mississippi River. Wallace Stevens wrote that “Imagination applied to the whole world is vapid in comparison to imagination applied to a detail”9—and that appears to have the force of truth.
It is a horrible fact that we can read in the daily paper, without interrupting our breakfast, numerical reckonings of death and destruction that ought to break our hearts or scare us out of our wits. This brings us to an entirely practical question: Can we—and, if we can, how can we—make actual in our minds the sometimes urgent things we say we know? This obviously cannot be accomplished by a technological breakthrough, nor can it be accomplished by a big thought. Perhaps it cannot be accomplished at all.
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Yet another not very stretchable human limit is in our ability to tolerate or adapt to change. Change of course is a constant of earthly life. You can’t step twice into exactly the same river, nor can you live two successive moments in exactly the same place. And always in human history there have been costly or catastrophic sudden changes. But with relentless fanfare, at the cost of almost indescribable ecological and social disorder, and to the almost incalculable enrichment and empowerment of corporations, industrialists have substituted what they fairly accurately call “revolution” for the slower, kinder processes of adaptation or evolution. We have had in only about two centuries a steady and ever-quickening sequence of industrial revolutions in manufacturing, transportation, war, agriculture, education, entertainment, homemaking and family life, health care, and so-called communications.
Probably everything that can be said in favor of all this has been said, and it is true that these revolutions have brought some increase of convenience and comfort and some easing of pain. It is also true that the industrialization of everything has incurred liabilities and is running deficits that have not been adequately accounted. All of these changes have depended upon industrial technologies, processes, and products, which have depended upon the fossil fuels, the production and consumption of which have been, and are still, unimaginably damaging to land, water, air, plants, animals, and humans. And the cycle of obsolescence and innovation, goaded by crazes of fashion, has given the corporate economy a controlling share of everybody’s income.
The cost of this has been paid also in a social condition which apologists call “mobility,” implying that it has been always “upward” to a “higher standard of living,” but which in fact has been an ever-worsening unsettlement of our people, and the extinction or near-extinction of traditional and necessary communal structures.
For this also there is no technological or large-scale solution. Perhaps, as they believe, the most conscientiously up-to-date people can easily do without local workshops and stores, local journalism, a local newspaper, a local post office, all of which supposedly have been replaced by technologies. But what technology can replace personal privacy or the coherence of a family or a community? What technology can undo the collateral damages of an inhuman rate of technological change?
The losses and damages characteristic of our present economy cannot be stopped, let alone restored, by “liberal” or “conservative” tweakings of corporate industrialism, against which the ancient imperatives of good care, homemaking, and frugality can have no standing. The possibility of authentic correction comes, I think, from two already-evident causes. The first is scarcity and other serious problems arising from industrial abuses of the land-community. The goods of nature so far have been taken for granted and, especially in America, assumed to be limitless, but their diminishment, sooner or later unignorable, will enforce change.
A positive cause, still little noticed by high officials and the media, is the by now well-established effort to build or rebuild local economies, starting with economies of food. This effort to connect cities with their surrounding rural landscapes has the advantage of being both attractive and necessary. It rests exactly upon the recognition of human limits and the necessity of human scale. Its purpose, to the extent possible, is to bring producers and consumers, causes and effects, back within the bounds of neighborhood, which is to say the effective reach of imagination, sympathy, affection, and all else that neighborhood implies. An economy genuinely local and neighborly offers to localities a measure of security that they cannot derive from a national or a global economy controlled by people who, by principle, have no local commitment.
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In this age so abstracted and bewildered by technological magnifications of power, people who stray beyond the limits of their mental competence typically find no guide except for the supposed authority of market price. “The market” thus assumes the standing of ultimate reality. But market value is an illusion, as is proven by its frequent changes; it is determined solely by the buyer’s ability and willingness to pay.
By now our immense destructiveness has made clear that the actual value of some things exceeds human ability to calculate or measure, and therefore must be considered absolute. For the destruction of these things there is never, under any circumstances, any justification. Their absolute value is recognized by the mortal need of those who do not have them, and by affection. Land, to people who do not have it and who are thus without the means of life, is absolutely valuable. Ecological health, in a land dying of abuse, is not worth “something”; it is worth everything. And abused land relentlessly declines in value to its present and succeeding owners, whatever its market price.
But we need not wait, as we are doing, to be taught the absolute value of land and of land health by hunger and disease. Affection can teach us, and soon enough, if we grant appropriate standing to affection. For this we must look to the stickers, who “love the life they have made and the place they have made it in.”
By now all thoughtful people have begun to feel our eligibility to be instructed by ecological disaster and mortal need. But we endangered ourselves first of all by dismissing affection as an honorable and necessary motive. Our decision in the middle of the last century to reduce the farm population, eliminating the allegedly “inefficient” small farmers, was enabled by the discounting of affection. As a result, we now have barely enough farmers to keep the land in production, with the help of increasingly expensive industrial technology and at an increasing ecological and social cost. Far from the plain citizens and members of the land-community, as Aldo Leopold wished them to be, farmers are now too likely to be merely the land’s exploiters.
I don’t hesitate to say that damage or destruction of the land-community is morally wrong, just as Leopold did not hesitate to say so when he was composing his essay, “The Land Ethic,” in 1947. But I do not believe, as I think Leopold did not, that morality, even religious morality, is an adequate motive for good care of the land-community. The primary motive for good care and good use is always going to be affection, because affection involves us entirely. And here Leopold himself set the example. In 1935 he bought an exhausted Wisconsin farm and, with his family, began its restoration. To do this was morally right, of course, but the motive was affection. Leopold was an ecologist. He felt, we may be sure, an informed sorrow for the place in its ruin. He imagined it as it had been, as it was, and as it might be. And a profound, delighted affection radiates from every sentence he wrote about it.
Without this informed, practical, and practiced affection, the nation and its economy will conquer and destroy the country.
#
In thinking about the importance of affection, and of its increasing importance in our present world, I have been guided most directly by E. M. Forster’s novel, Howards End, published in 1910. By then, Forster was aware of the implications of “rural decay,”10 and in this novel he spoke, with some reason, of his fear that “the literature of the near future will probably ignore the country and seek inspiration from the town. . . . and those who care for the earth with sincerity may wait long ere the pendulum swings back to her again.”11 Henry Wilcox, the novel’s “plain man of business,” speaks the customary rationalization, which has echoed through American bureaus and colleges of agriculture, almost without objection, for at least sixty years: “the days for small farms are over.”12
In Howards End, Forster saw the coming predominance of the machine and of mechanical thought, the consequent deracination and restlessness of populations, and the consequent ugliness. He saw an industrial ugliness, “a red rust,”13 already creeping out from the cities into the countryside. He seems to have understood by then also that this ugliness was the result of the withdrawal of affection from places. To have beautiful buildings, for example, people obviously must want them to be beautiful and know how to make them beautiful, but evidently they also must love the places where the buildings are to be built. For a long time, in city and countryside, architecture has disregarded the nature and influence of places. Buildings have become as interchangeable from one place to another as automobiles. The outskirts of cities are virtually identical and as depressingly ugly as the corn-and-bean deserts of industrial agriculture.
What Forster could not have foreseen in 1910 was the extent of the ugliness to come. We still have not understood how far at fault has been the prevalent assumption that cities could be improved by pillage of the countryside. But urban life and rural life have now proved to be interdependent. As the countryside has become more toxic, more eroded, more ecologically degraded and more deserted, the cities have grown uglier, less sustainable, and less livable.
#
The argument of Howards End has its beginning in a manifesto against materialism:
It is the vice of a vulgar mind to be thrilled by bigness, to think that a thousand square miles are a thousand times more wonderful than one square mile . . . That is not imagination. No, it kills it. . . . Your universities? Oh, yes, you have learned men who collect . . . facts, and facts, and empires of facts. But which of them will rekindle the light within?14
“The light within,” I think, means affection, affection as motive and guide. Knowledge without affection leads us astray every time. Affection leads, by way of good work, to authentic hope. The factual knowledge, in which we seem more and more to be placing our trust, leads only to hope of the discovery, endlessly deferrable, of an ultimate fact or smallest particle that at last will explain everything.
The climactic scene of Forster’s novel is the confrontation between its heroine, Margaret Schlegel, and her husband, the self-described “plain man of business,” Henry Wilcox. The issue is Henry’s determination to deal, as he thinks, “realistically” with a situation that calls for imagination, for affection, and then forgiveness. Margaret feels at the start of their confrontation that she is “fighting for women against men.”15 But she is not a feminist in the popular or political sense. What she opposes with all her might is Henry’s hardness of mind and heart that is “realistic” only because it is expedient and because it subtracts from reality the life of imagination and affection, of living souls. She opposes his refusal to see the practicality of the life of the soul.
Margaret’s premise, as she puts it to Henry, is the balance point of the book: “It all turns on affection now . . . Affection. Don’t you see?”16
In a speech delivered in 2006, “Revitalizing Rural Communities,” Frederick Kirschenmann quoted his friend Constance Falk, an economist: “There is a new vision emerging demonstrating how we can solve problems and at the same time create a better world, and it all depends on collaboration, love, respect, beauty, and fairness.”17
Those two women, almost a century apart, speak for human wholeness against fragmentation, disorder, and heartbreak. The English philosopher and geometer, Keith Critchlow, brings his own light to the same point: “The human mind takes apart with its analytic habits of reasoning but the human heart puts things together because it loves them . . .” 18
#
The great reassurance of Forster’s novel is the wholeheartedness of his language. It is to begin with a language not disturbed by mystery, by things unseen. But Forster’s interest throughout is in soul-sustaining habitations: houses, households, earthly places where lives can be made and loved. In defense of such dwellings he uses, without irony or apology, the vocabulary that I have depended on in this talk: truth, nature, imagination, affection, love, hope, beauty, joy. Those words are hard to keep still within definitions; they make the dictionary hum like a beehive. But in such words, in their resonance within their histories and in their associations with one another, we find our indispensable humanity, without which we are lost and in danger.
No doubt there always will be some people willing to do anything at all that is economically or technologically possible, who look upon the world and its creatures without affection and therefore as exploitable without limit. Against that limitlessness, in which we foresee assuredly our ruin, we have only our ancient effort to define ourselves as human and humane. But this ages-long, imperfect, unendable attempt, with its magnificent record, we have virtually disowned by assigning it to the ever more subordinate set of school subjects we call “arts and humanities” or, for short, “culture.” Culture, so isolated, is seen either as a dead-end academic profession or as a mainly useless acquisition to be displayed and appreciated “for its own sake.” This definition of culture as “high culture” actually debases it, as it debases also the presumably low culture that is excluded: the arts, for example, of land use, life support, healing, housekeeping, homemaking.
I don’t like to deal in categorical approvals, and certainly not of the arts. Even so, I do not concede that the “fine arts,” in general, are useless or unnecessary or even impractical. I can testify that some works of art, by the usual classification fine, have instructed, sustained, and comforted me for many years in my opposition to industrial pillage.
But I would insist that the economic arts are just as honorably and authentically refinable as the fine arts. And so I am nominating economy for an equal standing among the arts and humanities. I mean, not economics, but economy, the making of the human household upon the earth: the arts of adapting kindly the many human households to the earth’s many ecosystems and human neighborhoods. This is the economy that the most public and influential economists never talk about, the economy that is the primary vocation and responsibility of every one of us.
#
My grandparents were fortunate. They survived their debts and kept their farm—finally, and almost too late, with help from my father, who had begun his law practice in the county seat. But in the century and more since that hard year of 1907, millions of others have not been so fortunate. Owing largely to economic constraints, they have lost their hold on the land, and the land has lost its hold on them. They have entered into the trial of displacement and scattering that we try to dignify as “mobility.”
Even so, land and people have suffered together, as invariably they must. Under the rule of industrial economics, the land, our country, has been pillaged for the enrichment, supposedly, of those humans who have claimed the right to own or exploit it without limit. Of the land-community much has been consumed, much has been wasted, almost nothing has flourished.
But this has not been inevitable. We do not have to live as if we are alone.
Textual Notes
 Everyman’s Library, Alfred A. Knopf, New York, 1991, page 355.
 Where the Bluebird Sings to the Lemonade Springs, Random House, New York, 1992, pages xxii & 4.
 A Sand County Almanac, Oxford University Press, New York, 1966, pages 219–220.
 Who Owns America? edited by Herbert Agar and Allen Tate, ISI Books, Wilmington, DE, 1999, pages 109–114. (First published by Houghton Mifflin Company, Boston, 1936.)
 “Ode to the Confederate Dead,” Collected Poems, 1919–1976, Louisiana State University Press, Baton Rouge, 1989, page 22.
 Last Rites, Yale University Press, New Haven and London, 2009, pages 31 and 35.
 The Faerie Queene, VII, vii, stanza XIV.
 A Sand County Almanac, pages 219–220.
 Opus Posthumous, edited, with an Introduction by Samuel French Morse, Alfred A. Knopf, New York, 1957, page 176.
 Howards End, page 15.
 Ibid., page 112.
 Ibid., page 214.
 Ibid., page 355.
 Ibid., page 30.
 Ibid., page 303.
 Ibid., page 304.
 In Cultivating an Ecological Conscience, Counterpoint, Berkeley, 2011, pages 329–330.
The Hidden Geometry of Flowers, Floris Books, Edinburgh, 2011, page
Fracking Our Food Supply
Elizabeth Royte November 28, 2012 | This article appeared in the December 17, 2012 edition of The Nation.
 
This article was produced in collaboration with the Food & Environment Reporting Network, an investigative reporting nonprofit focusing on food, agriculture and environmental health.
 
In a Brooklyn winery on a sultry July evening, an elegant crowd sips rosé and nibbles trout plucked from the gin-clear streams of upstate New York. The diners are here, with their checkbooks, to support a group called Chefs for the Marcellus, which works to protect the foodshed upon which hundreds of regional farm-to-fork restaurants depend. The foodshed is coincident with the Marcellus Shale, a geologic formation that arcs northeast from West Virginia through Pennsylvania and into New York State. As everyone invited here knows, the region is both agriculturally and energy rich, with vast quantities of natural gas sequestered deep below its fertile fields and forests.
About the Au
In Pennsylvania, the oil and gas industry is already on a tear—drilling thousands of feet into ancient seabeds, then repeatedly fracturing (or “fracking”) these wells with millions of gallons of highly pressurized, chemically laced water, which shatters the surrounding shale and releases fossil fuels. New York, meanwhile, is on its own natural-resource tear, with hundreds of newly opened breweries, wineries, organic dairies and pastured livestock operations—all of them capitalizing on the metropolitan area’s hunger to localize its diet.
But there’s growing evidence that these two impulses, toward energy and food independence, may be at odds with each other.
Tonight’s guests have heard about residential drinking wells tainted by fracking fluids in Pennsylvania, Wyoming and Colorado. They’ve read about lingering rashes, nosebleeds and respiratory trauma in oil-patch communities, which are mostly rural, undeveloped, and lacking in political influence and economic prospects. The trout nibblers in the winery sympathize with the suffering of those communities. But their main concern tonight is a more insidious matter: the potential for drilling and fracking operations to contaminate our food. The early evidence from heavily fracked regions, especially from ranchers, is not reassuring.
* * *

Drilling rig visible from the Schilke ranch in North Dakota
Jacki Schilke and her sixty cattle live in the top left corner of North Dakota, a windswept, golden-hued landscape in the heart of the Bakken Shale. Schilke’s neighbors love her black Angus beef, but she’s no longer sharing or eating it—not since fracking began on thirty-two oil and gas wells within three miles of her 160-acre ranch and five of her cows dropped dead. Schilke herself is in poor health. A handsome 53-year-old with a faded blond ponytail and direct blue eyes, she often feels lightheaded when she ventures outside. She limps and has chronic pain in her lungs, as well as rashes that have lingered for a year. Once, a visit to the barn ended with respiratory distress and a trip to the emergency room. Schilke also has back pain linked with overworked kidneys, and on some mornings she urinates a stream of blood.
Ambient air testing by a certified environmental consultant detected elevated levels of benzene, methane, chloroform, butane, propane, toluene and xylene—compounds associated with drilling and fracking, and also with cancers, birth defects and organ damage. Her well tested high for sulfates, chromium, chloride and strontium; her blood tested positive for acetone, plus the heavy metals arsenic (linked with skin lesions, cancers and cardiovascular disease) and germanium (linked with muscle weakness and skin rashes). Both she and her husband, who works in oilfield services, have recently lost crowns and fillings from their teeth; tooth loss is associated with radiation poisoning and high selenium levels, also found in the Schilkes’ water.
State health and agriculture officials acknowledged Schilke’s air and water tests but told her she had nothing to worry about. Her doctors, however, diagnosed her with neurotoxic damage and constricted airways. “I realized that this place is killing me and my cattle,” Schilke says. She began using inhalers and a nebulizer, switched to bottled water, and quit eating her own beef and the vegetables from her garden. (Schilke sells her cattle only to buyers who will finish raising them outside the shale area, where she presumes that any chemical contamination will clear after a few months.) “My health improved,” Schilke says, “but I thought, ‘Oh my God, what are we doing to this land?’”
Schilke’s story reminds us that farmers need clean water, clean air and clean soil to produce healthful food. But as the largest private landholders in shale areas across the nation, farmers are disproportionately being approached by energy companies eager to extract oil and gas from beneath their properties. Already, some are regretting it.
Earlier this year, Michelle Bamberger, an Ithaca veterinarian, and Robert Oswald, a professor of molecular medicine at Cornell’s College of Veterinary Medicine, published the first (and, so far, only) peer-reviewed report to suggest a link between fracking and illness in food animals. The authors compiled case studies of twenty-four farmers in six shale-gas states whose livestock experienced neurological, reproductive and acute gastrointestinal problems. Exposed either accidentally or incidentally to fracking chemicals in the water or air, scores of animals have died. The death toll is insignificant when measured against the nation’s livestock population (some 97 million beef cattle go to market each year), but environmental advocates believe these animals constitute an early warning.
Exposed animals “are making their way into the food system, and it’s very worrisome to us,” Bamberger says. “They live in areas that have tested positive for air, water and soil contamination. Some of these chemicals could appear in milk and meat products made from these animals.”
In Louisiana, seventeen cows died after an hour’s exposure to spilled fracking fluid. (Most likely cause of death: respiratory failure.) In north central Pennsylvania, 140 cattle were exposed to fracking wastewater when an impoundment was breached. Approximately seventy cows died; the remainder produced eleven calves, of which only three survived. In western Pennsylvania, an overflowing waste pit sent fracking chemicals into a pond and a pasture where pregnant cows grazed: half their calves were born dead. The following year’s animal births were sexually skewed, with ten females and two males, instead of the usual 50-50 or 60-40 split.
In addition to the cases documented by Bamberger, hair testing of sick cattle that grazed around well pads in New Mexico found petroleum residues in fifty-four of fifty-six animals. In North Dakota, wind-borne fly ash, which is used to solidify the waste from drilling holes and contains heavy metals, settled over a farm: one cow, which either inhaled or ingested the caustic dust, died, and a stock pond was contaminated with arsenic at double the accepted level for drinking water.
Cattle that die on the farm don’t make it into the nation’s food system. (Though they’re often rendered to make animal feed for chickens and pigs—yet another cause for concern.) But herd mates that appear healthy, despite being exposed to the same compounds, do: farmers aren’t required to prove their livestock are free of fracking contaminants before middlemen purchase them. Bamberger and Oswald consider these animals sentinels for human health. “They’re outdoors all day long, so they’re constantly exposed to air, soil and groundwater, with no break to go to work or the supermarket,” Bamberger says. “And they have more frequent reproductive cycles, so we can see toxic effects much sooner than with humans.”
Fracking a single well requires up to 7 million gallons of water, plus an additional 400,000 gallons of additives, including lubricants, biocides, scale and rust inhibitors, solvents, foaming and defoaming agents, emulsifiers and de-emulsifiers, stabilizers and breakers. About 70 percent of the liquid that goes down a borehole eventually comes up—now further tainted with such deep-earth compounds as sodium, chloride, bromide, arsenic, barium, uranium, radium and radon. (These substances occur naturally, but many of them can cause illness if ingested or inhaled over time.) This super-salty “produced” water, or brine, can be stored on-site for reuse. Depending on state regulations, it can also be held in plastic-lined pits until it evaporates, is injected back into the earth, or gets hauled to municipal wastewater treatment plants, which aren’t designed to neutralize or sequester fracking chemicals (in other words, they’re discharged with effluent into nearby streams).
At almost every stage of developing and operating an oil or gas well, chemicals and compounds can be introduced into the environment. Radioactive material above background levels has been detected in air, soil and water at or near gas-drilling sites. Volatile organic compounds—including benzene, toluene, ethylene and xylene—waft from flares, engines, compressors, pipelines, flanges, open tanks, spills and ponds. (The good news: VOCs don’t accumulate in animals or plants. The bad news: inhalation exposure is linked to cancer and organ damage.)
Underground, petrochemicals can migrate along fissures through abandoned or orphaned wells or leaky well casings (the oil and gas industry estimates that 60 percent of wells will leak over a thirty-year period). Brine can spill from holding ponds or pipelines. It can be spread, legally in some places, on roadways to control dust and melt ice. Truck drivers have also been known to illegally dump this liquid in creeks or fields, where animals can drink it or lick it from their fur.
Although energy companies don’t make a habit of telling potential lease signers about the environmental risks they might face, the Securities and Exchange Commission requires them to inform potential investors. In a 2008 filing, Cabot Industries cited “well site blowouts, cratering and explosions; equipment failures; uncontrolled flows of natural gas, oil or well fluids; fires; formations with abnormal pressures; pollution and other environmental risks.” In 2011, oil companies in North Dakota reported more than 1,000 accidental releases of oil, drilling wastewater or other fluids, with many more releases likely unreported. Between 2008 and 2011, drilling companies in Pennsylvania reported 2,392 violations of law that posed a direct threat to the environment and safety of communities.
* * *
Schilke looks left and right, twice, for oncoming tanker trucks, then scoots down a gravel road in her camo-patterned four-wheeler. She parks alongside a leased pasture about a mile from her house and folds her body through a barbed-wire fence. “These guys are much healthier than those I’ve got at home,” she says, puffing as she hikes up a straw-colored hill. “There’s Judy…that’s Buttercup…those are my little bulls.” The black-faced animals turn to face her; some amble through the tall grass and present their foreheads for rubbing. “We’re upwind of the drill rigs here,” Schilke says. “They’re high enough to miss some of the road dust, and they’ve got good water.” Ever since a heater-treater unit, which separates oil, gas and brine, blew out on a drill pad a half-mile upwind of Schilke’s ranch, her own creek has been clogged with scummy growth, and it regularly burps up methane. “No one can tell me what’s going on,” she says. But since the blowout, her creek has failed to freeze, despite temperatures of forty below. (Testing found sulfate levels of 4,000 parts per million: the EPA’s health goal for sulfate is 250 parts per million.)
Schilke’s troubles began in the summer of 2010, when a crew working at this site continued to force drilling fluid down a well that had sprung a leak. Soon, Schilke’s cattle were limping, with swollen legs and infections. Cows quit producing milk for their calves; they lost from sixty to eighty pounds in a week; and their tails mysteriously dropped off. (Lab rats exposed to the carcinogen 2-butoxyethanol, a solvent used in fracking, have 
lost their tails, but a similar connection with cattle hasn’t been shown. In people, breathing, touching or consuming enough of the chemical can lead to pulmonary edema and coma.)

Schilke ranch cow that has lost its tail, one of many ailments found in cattle following hydrofracturing of the Bakken Shale in North Dakota
An inveterate label reader who obsessively tracks her animals’ nutritional intake, Schilke couldn’t figure out what was wrong. Neither could local veterinarians. She nursed individual cows for weeks and, with much sorrow, put a $5,000 bull out of its misery with a bullet. Upon examination, the animal’s liver was found to be full of tunnels and its lungs congested with pneumonia. Before the year was out, five cows had died, in addition to several cats and two dogs. (Hair testing of Schilke’s cats and dogs revealed elevated selenium levels, while water tests showed sulfate at levels high enough, Schilke’s vet told her, to cause polio in cattle.) Inside Schilke’s house today, where the china cabinets are kept empty for fear of a shattering drill-site explosion, nearly a dozen cats sneeze and cough, some with their heads tilted at a creepy angle.
Before the drilling started, two cars a day traveled down Schilke’s gravel road. Now, it’s 300 trucks hauling sand, fresh water, wastewater, chemicals, drill cuttings and drilling equipment. Most of the tankers are placarded for hazardous or radioactive material. Drilling and fracking a single well requires 2,000 truck trips, and each pass of a vehicle sends a cyclone of dust and exhaust fumes into the air. Mailbox numbers are obliterated, conversations are choked off, and animals die of “dust pneumonia.” (More formally known as bovine respiratory disease, the illness is associated with viral, fungal and bacterial infection.)
Ordinarily, Schilke hauls her calves to auction when they’re eight months old. “Buyers come from everywhere for Dakota cows,” she says. The animals are then raised on pasture or in feedlots until they are big enough for slaughter. No longer Schilke cattle, they’re soon part of the commodity food system: anonymous steaks and chops on supermarket shelves. Now, Schilke is diffident about selling her animals. “I could get good money for these steers,” she says, cocking her head toward a pair of sleek adolescents. “They seem to be in very good shape and should have been butchered. But I won’t sell them because I don’t know if they’re OK.”
* * *
Nor does anyone else. By design, secrecy shrouds the hydrofracking process, casting a shadow that extends over consumers’ right to know if their food is safe. Federal loopholes crafted under former Vice President Dick Cheney have exempted energy companies from key provisions of the Clean Air, Clean Water and Safe Drinking Water Acts, the Toxics Release Inventory, the Resource Conservation and Recovery Act, and the National Environmental Policy Act, which requires a full review of actions that may cause significant environmental impacts. If scientists and citizens can’t find out precisely what is in drilling or fracking fluids or air emissions at any given time, it’s difficult to test whether any contaminants have migrated into the water, soil or food—and whether they can harm humans. It gets even more complicated: without information on the interactions between these chemicals and others already existing in the environment, an animal’s cause of death, Bamberger says, “is anyone’s guess.”
Fracking proponents criticize Bamberger and Oswald’s paper as a political, not a scientific, document. “They used anonymous sources, so no one can verify what they said,” Steve Everley, of the industry lobby group Energy In Depth, says. The authors didn’t provide a scientific assessment of impacts—testing what quaternary ammonium compounds might do to cows that drink it, for example—so treating their findings as scientific, he continues, “is laughable at best, and dangerous for public debate at worst.” (Bamberger and Oswald acknowledge this lack of scientific assessment and blame the dearth of funding for fracking research and the industry’s use of nondisclosure agreements.)
No one doubts that fracking fluids have the potential to do serious harm. Theo Colborn, an environmental health analyst and former director of the World Wildlife Fund’s wildlife and contaminants program, identified 632 chemicals used in 
natural-gas production. More than 75 percent of them, she said, could affect sensory organs and the respiratory and 
gastrointestinal systems; 40 to 50 percent have potential impacts on the kidneys and on the nervous, immune and 
cardiovascular systems; 37 percent act on the hormone system; and 25 percent are linked with cancer or mutations.
Thanks to public pressure, several states have started to tighten regulations on the cement casings used to line wells, and the Obama administration recently required energy companies to disclose, on the industry-sponsored website fracfocus
.org, the fracking chemicals used on public land. (States regulate fracking on private land and set different requirements.) Still, information about quantities and concentrations of the chemicals remains secret, as do compounds considered proprietary. Further, no state requires a company to disclose its ingredients until a fracking job is complete. At that point, it’s easy to blame the presence of toxins in groundwater on a landowner’s use of pesticides, fertilizers or even farm equipment.
Clearly, the technology to extract gas from shale has advanced faster, and with a lot more public funding, than has the study of its various effects. To date, there have been no systematic, peer-reviewed, long-term studies of the health effects of hydraulic fracturing for oil and gas production (one short-term, peer-reviewed study found that fracking emissions may contribute to acute and chronic health problems for people living near drill sites). And the risks to food safety may be even more difficult to parse.
“Different plants take up different compounds,” says John Stolz, an environmental microbiologist at Duquesne University. For example, rice and potatoes take up arsenic from water, but tomatoes don’t. Sunflowers and rape take up uranium from soil, but it’s unknown if grasses do. “There are a variety of organic compounds, metals and radioactive material that are of human health concern when livestock meat or milk is ingested,” says Motoko Mukai, a veterinary toxicologist at Cornell’s College of Veterinary Medicine. These “compounds accumulate in the fat and are excreted into milk. Some compounds are persistent and do not get metabolized easily.”
Veterinarians don’t know how long the chemicals may remain in animals, and the Food Safety Inspection Service, part of the US Department of Agriculture, isn’t looking for them in carcasses. Inspectors in slaughterhouses examine organs only if they look diseased. “It’s gross appearance, not microscopic,” Bamberger says of the inspections—which means that animals either tainted or sickened by those chemicals could enter the food chain undetected.
“The USDA focuses mostly on pathogens and pesticide residues,” says Tony Corbo, a senior lobbyist for Food and Water Watch. “We need to do risk assessments for these fracking chemicals and study tolerance levels.” The process, he adds, could take more than five years. In the meantime, fractivists are passing around a food-pyramid chart that depicts chemicals moving from plants into animals, from animals into people, and from people into… zombies.
* * *
The relatively small number of animals reported sick or dead invites the question: If oil and gas operations are so risky, why aren’t there more cases? There likely are, but few scientists are looking for them. (“Who’s got the money to study this?” Colborn asks rhetorically.) Rural vets won’t speak up for fear of retaliation. And farmers aren’t talking for myriad reasons: some receive royalty checks from the energy companies (either by choice or because the previous landowner leased their farm’s mineral rights); some have signed nondisclosure agreements after receiving a financial settlement; and some are in active litigation. Some farmers fear retribution from community members with leases; 
others don’t want to fall afoul of “food disparagement” laws 
or get sued by an oil company for defamation (as happened with one Texan after video of his flame-spouting garden hose was posted on the Internet. The oil company won; the 
homeowner is appealing).
And many would simply rather not know what’s going on. “It takes a long time to build up a herd’s reputation,” says rancher Dennis Bauste, of Trenton Lake, North Dakota. “I’m gonna sell my calves, and I don’t want them to be labeled as tainted. Besides, I wouldn’t know what to test for. Until there’s a big wipeout, a major problem, we’re not gonna hear much about this.” Ceylon Feiring, an area vet, concurs. “We’re just waiting for a wreck to happen with someone’s cattle,” she says. “Otherwise, it’s just one-offs”—a sick cow here and a dead goat there, easy for regulators, vets and even farmers to shrug off.
The National Cattlemen’s Beef Association takes no position on fracking, nor has it heard from members either concerned by or in favor of the process. And yet it’s ranchers and farmers—many of them industry-supporting conservatives—who are, increasingly, telling their stories to the media and risking all. These are the people who have watched helplessly as their livestock suffer and die. “It’s not our breeding or nutrition destroying these animals,” Schilke says, her voice rising in anger. “It’s the oilfield industry.”
However, some institutions that specialize in risk have started to connect the dots. Nationwide Mutual Insurance, which sells agricultural insurance, recently announced that it would not cover damages related to fracking. Rabobank, the world’s largest agricultural bank, reportedly no longer sells mortgages to farmers with gas leases. And in the boldest move yet by a government official, Christopher Portier, director of the National Center for Environmental Health at the Centers for Disease Control and Prevention, called for studies that “include all the ways people can be exposed, such as through air, water, soil, plants and animals.” While the EPA is in the midst of a $1.9 million study of fracking’s impact on water, no government agency has taken up Portier’s challenge to study plants and animals.
* * *
The possibility of chemical contamination aside, oil and gas operations have already affected food producers. “I lost six acres of hayfields when the gas company put roads in,” says Terry Greenwood, a rancher in western Pennsylvania. “Now I have to buy more feed for my cattle.” (Like other farmers hurt by drilling and fracking, he still pays taxes on his unproductive land.) Others have lost the use of stock ponds or creeks to brine spills.
“We’ve got 12,000 wells in the Bakken, and they each take up six acres,” says Mark Trechock, former director of the Dakota Resource Council. “That’s 72,000 acres right there, without counting the waste facilities, access roads, stored equipment and man camps that go along with the wells.” Before the drilling boom, that land might have produced durum wheat, barley, oats, canola, flax, sunflowers, pinto beans, lentils and peas. In Pennsylvania, where nearly 6,500 wells have been drilled since 2000, the Nature Conservancy estimates that thirty acres are directly or indirectly affected for every well pad.
East of the Rockies, intensive drilling and fracking have pushed levels of smog, or ground-level ozone, higher than those of Los Angeles. Ozone significantly diminishes crop yields and reduces the nutritional value of forage. Flaring of raw gas can acidify soil and send fine particulate matter into the air; long-term exposure to this material has been linked to human heart and lung diseases and disruption to the endocrine system. Earlier this year, the Environmental Protection Agency finalized standards that require reductions in airborne emissions from gas wells, although the industry has more than two years to comply.
Besides clean air, farmers need clean water—lots of it. But some farmers now find themselves competing with energy companies for this increasingly precious resource. At water auctions in Colorado, the oil and gas industry has paid utilities up to twenty times the price that farmers typically pay. In Wyoming, ranchers have switched from raising beef to selling their water. Unwilling to risk her animals’ health to creek water that’s possibly tainted, Schilke spent $4,000 last summer hauling safe water from town to her ranch. “I’d wait in line for hours,” she says, “usually behind tanker trucks buying water to frack wells.”
* * *
Given the absence of studies on the impacts of drilling and fracking in plants and animals, as well as inadequate inspection and scant traceability in the food chain, it’s hard to know what level of risk consumers face when drinking milk or eating meat or vegetables produced in a frack zone. Unless, of course, you’re Jacki Schilke, and you feel marginally healthier when you quit eating the food that you produced downwind or downstream from drill rigs. But many consumers—those intensely interested in where and how their food is grown—aren’t waiting for hard data to tell them what is or isn’t safe. For them, the perception of pollution is just as bad as the real thing. Ken Jaffe, who raises grass-fed cattle in upstate New York, says, “My beef sells itself. My farm is pristine. But a restaurant doesn’t want to visit and see a drill pad on the horizon.”
Nor do the 16,200 members of the Park Slope Food Co-op in Brooklyn, which buys one cow per week from Jaffe. “If hydrofracking is allowed in New York State, the co-op will have to stop buying from farms anywhere near the drilling because of fears of contamination,” says Joe Holtz, general manager of the co-op. That’s $4 million in direct sales, with economic multipliers up and down the local food chain, affecting seed houses, creameries, equipment manufacturers and so on.
Already, wary farmers in the Marcellus are seeking land away from the shale. The outward migration is simultaneously raising prices for good farmland in the Hudson River Valley, which lies outside the shale zone, and depressing the price of land over the Marcellus. According to John Bingham, an organic farmer in upstate New York who is involved in regional planning, lower prices entice absentee investors to buy up farmland and gain favorable “farm rate” tax breaks, even as they speculate on the gas boom. “Fracking is not a healthy development for food security in regions near fracking or away from it,” Bingham concludes.
Only recently has the Northeast’s local-foods movement reached a critical mass, to the point where colleges and caterers trip over themselves in the quest for locally sourced and sustainably grown products. (New York has the fourth-highest number of organic farms in the nation.) But the movement’s lofty ideals could turn out to be, in shale-gas areas, a double-edged sword. “People at the farmers’ market are starting to ask exactly where this food comes from,” says Stephen Cleghorn, a Pennsylvania goat farmer.
With a watchful eye on Pennsylvania’s turmoil, many New York farmers have started to test their water pre-emptively, in the event that Governor Andrew Cuomo lifts the state’s current moratorium on fracking. And in the commercial kitchens of a city obsessed with the provenance of its prosciutto, chefs like Heather Carlucci-Rodriguez, a founder of Chefs for the Marcellus and the executive pastry chef at Manhattan’s Print Restaurant, are keeping careful tabs on their regional suppliers.
“I have a map of the Marcellus and my farmers on 
my office wall,” Carlucci-Rodriguez says at the Brooklyn 
winery event. “So far, I haven’t stopped buying from any-
one. But I’m a believer in the precautionary principle.” She nods to a colleague who’s dishing up summer squash with peach slices and ricotta. “We shouldn’t have to be defending our land and water,” she says with a sigh. “We should 
be feeding people.
MARK BITTMAN December 11, 2012, 8:26 pm16 Comments
Pesticides: Now More Than Ever
By MARK BITTMAN
Mark Bittman on food and all things related.
TAGS
How quickly we forget.
After the publication of “Silent Spring,” 50 years ago, we (scientists, environmental and health advocates, birdwatchers, citizens) managed to curb the use of pesticides[1] and our exposure to them — only to see their application grow and grow to the point where American agriculture uses more of them than ever before.
And the threat is more acute than ever. While Rachel Carson[2] focused on their effect on “nature,” it’s become obvious that farmworkers need protection from direct exposure while applying chemicals to crops[3] . Less well known are the recent studies showing that routine, casual, continuing — what you might call chronic — exposure to pesticides is damaging not only to flora but to all creatures, including the one that habitually considers itself above it all: us.
As usual, there are catalysts for this column; in this case they number three.

I was impressed by a statement by the American Association of Pediatrics — not exactly a radical organization — warning parents of the dangers of pesticide and recommending that they try to reduce contact with them. The accompanying report calls the evidence “robust” for associations between pesticide exposure and cancer (specifically brain tumors and leukemia) and “adverse” neurodevelopment, including lowered I.Q., autism, and attention disorders and hyperactivity. (Alzheimer’s, obviously not a pediatric concern, has also been linked to pesticide exposure.)
This reminded me of recently disclosed evidence showing that pesticide exposure in pregnant women may be obesogenic — that is, it may cause their children to tend to become obese. The mechanism for this is beginning to be understood, and it’s not entirely shocking, because many pesticides have been shown to be endocrine disruptors, changing gene expression patterns and causing unforeseen harm to health.
And that in turn prompted me to recall that genetically engineered crops, ostensibly designed in part to reduce the need for pesticides, have — thanks to pesticide-resistant “superweeds” — actually increased our pesticide use steadily over the last decade or so. (In general, fields growing crops using genetically engineered seeds use 24 percent more chemicals than those grown with conventional seeds.)
Although these all caught my attention, the most striking non-event of the last year — decade, generation — is how asleep at the wheel we have all been regarding pesticides. Because every human tested is found to have pesticides in his or her body fat. And because pesticides are found in nearly every stream in the United States, over 90 percent of wells, and — in urban and agricultural areas — over half the groundwater. So Department of Agriculture data show that the average American is exposed to 10 or more pesticides every day, via diet and drinking water.
This shouldn’t be surprising: pesticide drift is a term used to describe the phenomenon by which almost all pesticides — 95 to 98 percent is the number I’ve seen — wind up on or in something other than their intended target. (This means, of course, that in order to be effective more pesticides must be used than would be necessary if targeting were more accurate.)
Much damage has been done, and it’s going to get worse before it gets better. The long-term solution is to reduce pesticide use, and the ways to do that include some of the typical laundry-list items that find their way into every “how to improve American agriculture” story: rotate crops, which reduces attacks by invasive species; employ integrated pest management, which basically means “think before you spray”; better regulate pesticides (and both increase funding for and eliminate the revolving door policy at the Environmental Protection Agency) with an eye toward protecting the most vulnerable — that is, farmworkers, anyone of childbearing age, and especially women in their first trimester of pregnancy
[4]; give farmers options for “conventional,” that is, non-genetically engineered seeds (around 95 percent of all seeds for soy, corn and cotton contain a pesticide-resistant gene, which encourages wanton spraying); and in general move toward using more organic principles.
Note, please, that only this last strategy helps us protect ourselves and our families now. But although there’s the usual disclaimer that not everyone can afford organic food, at a time when organic food has been under attack it’s important to remember that part of the very reason for its existence is to bring food to the market that, if not free of all traces of pesticides — remember drift — at least contains none that have been applied intentionally. Charles Benbrook, in his excellent 2008 report “Simplifying the Pesticide Risk Equation: The Organic Option” estimates that organic food production would reduce our overall exposure to pesticides by 97 percent; that is, all but eliminate it.[5]
If I were of child-rearing age now, or the parent of young children, I would make every effort to buy organic food. If I couldn’t do that, I would rely on the Environmental Working Group’s guide to pesticides in produce. (Their “Dirty Dozen” lists those fruits and vegetables with highest pesticide residues, and their “Clean Fifteen” notes those that are lowest.) But regardless of age, we need to stay awake, and remember that the dangers of pesticides are as real now as they were half a century ago.
1. The word “pesticide” is used to include herbicides, fungicides, molluscicides (these kill snails and slugs) and a host of other “pests.” Here’s a definition from the E.P.A.
2. Back to Article2. Nice piece by Margaret Atwood: “Why Rachel Carson Is a Saint.
3. Back to Article3. Cancer, of course, is one awful risk of exposure. But there is the very real danger of anencephaly — a birth defect in which the baby is born without parts of brain and/or skull — in the children of farmworkers (both men and women) who were exposed to pesticides, even before pregnancy.
4. Back to Article4. In a phone interview, Charles Benbrook, a professor at Washington State University, who is among the most articulate advocates of reducing pesticide use, said, “By building in sufficient margins of safety for that three-month window we are going to overprotect everyone else, which is great.”
5. Back to Article5. And the “Stanford study,” which attracted attention for all the wrong reasons — many reports focused on its finding of no discernible difference in nutritive quality between organic and conventional foods — verified that the pesticide content of organic foods was vastly smaller than that of conventional.

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