The omnivore's dilemma : a natural history of four meals
210707s2006 nyu g b 001 0 eng d
|aThe omnivore's dilemma :|ba natural history of four meals /|cMichael Pollan.
|aA natural history of four meals
|aNew York :|bPenguin Press,|c2006.
|a450 p. ;|c25 cm.
|aIncludes bibliographical references (p. -435) and index.
|aWhat should we have for dinner? When you can eat just about anything nature (or the supermarket) has to offer, deciding what you should eat will inevitably stir anxiety, especially when some of the foods might shorten your life. Today, buffeted by one food fad after another, America is suffering from a national eating disorder. As the cornucopia of the modern American supermarket and fast food outlet confronts us with a bewildering and treacherous landscape, what's at stake becomes not only our own and our children's health, but the health of the environment that sustains life on earth.
The bestselling author of The Botany of Desire explores the ecology of eating to unveil why we consume what we consume in the twenty-first century "What should we have for dinner?" To one degree or another this simple question assails any creature faced with a wide choice of things to eat. Anthropologists call it the omnivore's dilemma. Choosing from among the countless potential foods nature offers, humans have had to learn what is safe, and what isn't-which mushrooms should be avoided, for example, and which berries we can enjoy. Today, as America confronts what can only be described as a national eating disorder, the omnivore's dilemma has returned with an atavistic vengeance. The cornucopia of the modern American supermarket and fast-food outlet has thrown us back on a bewildering landscape where we once again have to worry about which of those tasty-looking morsels might kill us. At the same time we're realizing that our food choices also have profound implications for the health of our environment. The Omnivore's Dilemma is bestselling author Michael Pollan's brilliant and eye-opening exploration of these little-known but vitally important dimensions of eating in America. Pollan has divided The Omnivore's Dilemma into three parts, one for each of the food chains that sustain us: industrialized food, alternative or "organic" food, and food people obtain by dint of their own hunting, gathering, or gardening. Pollan follows each food chain literally from the ground up to the table, emphasizing our dynamic coevolutionary relationship with the species we depend on. He concludes each section by sitting down to a meal--at McDonald's, at home with his family sharing a dinner from Whole Foods, and in a revolutionary "beyond organic" farm in Virginia. For each meal he traces the provenance of everything consumed, revealing the hidden components we unwittingly ingest and explaining how our taste for particular foods reflects our environmental and biological inheritance. We are indeed what we eat-and what we eat remakes the world. A society of voracious and increasingly confused omnivores, we are just beginning to recognize the profound consequences of the simplest everyday food choices, both for ourselves and for the natural world. The Omnivore's Dilemma is a long-overdue book and one that will become known for bringing a completely fresh perspective to a question as ordinary and yet momentous as What shall we have for dinner?
Michael Pollan is the author of five books: Second Nature, A Place of My Own, The Botany of Desire, which received the Borders Original Voices Award for the best nonfiction work of 2001 and was recognized as a best book of the year by the American Booksellers Association and Amazon, and the national bestellers, The Omnivore's Dilemma, and In Defense of Food. A longtime contributing writer to The New York Times Magazine, Pollan is also the Knight Professor of Journalism at UC Berkeley. His writing on food and agriculture has won numerous awards, including the Reuters/World Conservation Union Global Award in Environmental Journalism, the James Beard Award, and the Genesis Award from the American Humane Association.