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Biomimicry: Innovation Inspired by Nature
Books: Computers: Genetic Algorithms: Item 6
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Biomimicry: Innovation Inspired by Natureby Janine M. Benyus
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43 of 44 people found the following review helpful: Learning from the Genius of Nature, October 17, 2003 Reviewer:Jeff W. Krueger (Portland, Oregon) - Before even reviewing the book, it seems as though I must explain its raison de'etre; for some negative reviews disclaim the very import of looking to nature as a model for life. For starters, nature runs on sunlight and creates no waste. To me, this alone is reason enough to mimic nature, since our profligate energy use has caused a global eco-crisis. Not only does the combustion of fossil fuels pollute the air breathe (leading to some 3 million deaths from air pollution annually according to the WHO), but it also floods the atmosphere with CO2, leading culprit in the greenhouse effect. Moreover, being that the supply of crude oil is finite, the very foundation of our economy will one day run dry. Nature, on the other hand, runs on the unlimited bounty of sunlight. Unlimited clean energy is just one example of the genius of nature which author Benyus points out in this book. Nature does many other wonderful things we would do well to learn from. Arctic fish and frogs freeze solid and then spring to life, having protected their organs from ice damage. Black bears hibernate all winter without poisoning themselves on their urea, while their polar cousins stay active with a coat of transparent hollow hairs covering their skins like the panes of a greenhouse. Chameleons and cuttlefish hide without moving, changing the pattern of their skin to instantly blend with their surroundings. Bees, turtles, and birds navigate without maps, while whales and penguins dive without scuba gear. How do they do it? How do dragonflies outmaneuver our best helicopters? How do hummingbirds cross the Gulf of Mexico on less than one tenth of an ounce of fuel? How do ants carry the equivalent of hundreds of pounds in a dead heat through the jungle? How do muscles attach to rock in a wet environment? The answers to these questions may seem like trivia to non-expert, but "The difference between what life needs to do and what we need to do is another one of those boundaries that doesn't exist. Beyond mattes of scale, the differences dissolve." Like every other creature, humans cause a lot of commotion in the biosphere: creating, moving, and consuming. But our species is the only one that creates more waste than nature can safely and efficiently recycle. Ours is only one that ignores ecological limits, exceeds the carrying capacity of the land, and consumes more energy than nature can provide. The ideology that allowed us to expand beyond our limits was that the world -- never-ending in its bounty -- was put here exclusively for our use. But after the topsoil blows away, the oceans go lifeless, the oil wells go dry, and the air and water we depend on are utterly fouled, what will we do? Will we be able to survive? Unlike the impact of a car, is crisis is cumulative. The mounting effects of this ideology are rising temperatures, decreasing grain yields, rising cancer rates, falling fish harvests, dwindling forests, worsening air pollution, and rising oil and water prices. A most resilient creature, I believe we (or some of us) will survive this ecololgical "bottle-neck" squeeze, to use Harvard scientist E.O. Wilson's phrase. But the questions this book seeks to answer is, can we flourish? As mentioned by other reviewers, some parts were overly technical. However, much of it is written with the layperson in mind. Moreover, the book is rich in philosophy, like that of Wes Jackson, Bill Mollison, Masanobu Fukuoka, and writers Thomas and Wendell Berry (unrelated). And the main point of the book is simple enough for a child to understand. Does it run on sunlight? Does it use only the energy it needs? Does it fit form to function? Does it recycle everything? Does it reward cooperation? Does it bank on diversity? Does it utilize local expertise? Does it curb excess from within? Does it tap the power of limits? And is it beautiful? In order to right our wasteful and dangerously dysfunctional relationship with nature, these ten questions should serve as guiding principles for design and human interaction. Although some of the science is now dated (e.g., hydrogen fuel cells are now a reality), this book will remain pregnant with philosophical and practical insights for years to come. It is far, far ahead of the times. My only criticism is that, much of the scientific history and intrastructure this book depends on actually helped create the eco-predicament we currently find ourselves in. The labratories she visits (not to mention the cars she uses to visit them) are not exactly eco-friendly. In other words, the author supposes more technology and "progres" will eventually help us out of this predicament. This book is a landmark - and one hell of a good read. Dssential for anyone interested business, philosophy, ecology, science or engineering. And when combined with other books, like Lester Brown's ECO-ECONOMY, David Korten's WHEN CORPORATIONS RULE THE WORLD, Paul Hawkins' NATURAL CAPITALSIM, Hildur Jackson and Karen Svensson's ECOVILLAGE LIVING, and perhaps something on eco-education, it would fit well into my dream eco-philosophy course. Unfortunately, I'm not a teacher and very few universities have funding for such programs anyway.
From Library Journal
Innovations, whether in farming, composite science, or computing, are a product of human creativity. Science writer Benyus (Beastly Behaviors, LJ 9/1/92) uses these subjects and others to demonstrate how nature's solutions to situations have been the creative jumping-off points for individuals seeking solutions, developing, or simply revitalizing processes or products. The first seven chapters are a prelude to the final chapter, which tackles industrial ecology. Here, Benyus proposes "ten lessons" that an ecologically astute company, culture, or economy could practice to promote a healthier existence for us all. There is no grandstanding, just readable language and a simple awe at human creativity and the uses to which it can be put. For popular science collections.?Michael D. Cramer, North Carolina Dept. of Environmental Health and Natural Resources Lib., Raleigh
Copyright 1997 Reed business Information, Inc. --This text refers to an out of print or unavailable edition of this title.
The New York Times Book Review, Dorion Sagan
The sophisticated, almost pro-growth angle of Benyus shows the great potential profitability of copying some of nature's time-tested, non-polluting room-temperature manufacturing and computing technologies. The colors of Benyus, a splendid Stevensville, Mont., science writer with a grasp of several sciences, contain far more shades of green than of chrome. --This text refers to an out of print or unavailable edition of this title.
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