"Intelligent Design" is being taught in our schools; educators are being asked to "teach the controversy" behind evolutionary theory. There is no controversy. Dawkins sifts through rich layers of scientific evidence—from living examples of natural selection to clues in the fossil record; from natural clocks that mark the vast epochs wherein evolution ran its course to the intricacies of developing embryos; from plate tectonics to molecular genetics—to make the airtight case that "we find ourselves perched on one tiny twig in the midst of a blossoming and flourishing tree of life and it is no accident, but the direct consequence of evolution by non-random selection." His unjaded passion for the natural world turns what might have been a negative argument, exposing the absurdities of the creationist position, into a positive offering to the reader: nothing less than a master’s vision of life, in all its splendor.
Anarchy Evolution is a provocative look at the collision between religion and science, by an author with unique authority: UCLA lecturer in Paleontology, and founding member of Bad Religion, Greg Graffin. Alongside science writer Steve Olson (whose Mapping Human History was a National Book Award finalist) Graffin delivers a powerful discussion sure to strike a chord with readers of Richard Dawkins’ The God Delusion or Christopher Hitchens God Is Not Great. Bad Religion die-hards, newer fans won over during the band’s 30th Anniversary Tour, and anyone interested in this increasingly important debate should check out this treatise on science from the god of punk rock.
As development and subsequent habitat destruction accelerate, there are increasing pressures on wildlife populations. But there is an important and simple step toward reversing this alarming trend: Everyone with access to a patch of earth can make a significant contribution toward sustaining biodiversity. There is an unbreakable link between native plant species and native wildlife—native insects cannot, or will not, eat alien plants. When native plants disappear, the insects disappear, impoverishing the food source for birds and other animals. In many parts of the world, habitat destruction has been so extensive that local wildlife is in crisis and may be headed toward extinction.
Bringing Nature Home has sparked a national conversation about the link between healthy local ecosystems and human well-being, and the new paperback edition—with an expanded resource section and updated photos—will help broaden the movement. By acting on Douglas Tallamy's practical recommendations, everyone can make a difference.
If chaos theory transformed our view of the universe, biomimicry is transforming our life on Earth. Biomimicry is innovation inspired by nature – taking advantage of evolution’s 3.8 billion years of R&D since the first bacteria. Biomimics study nature’s best ideas: photosynthesis, brain power, and shells – and adapt them for human use. They are revolutionising how we invent, compute, heal ourselves, harness energy, repair the environment, and feed the world.
Science writer and lecturer Janine Benyus names and explains this phenomenon. She takes us into the lab and out in the field with cutting-edge researchers as they stir vats of proteins to unleash their computing power; analyse how electrons zipping around a leaf cell convert sunlight into fuel in trillionths of a second; discover miracle drugs by watching what chimps eat when they’re sick; study the hardy prairie as a model for low-maintenance agriculture; and more.
And yet the idea of innate limits—of biology as destiny—dies hard, as witness the attention devoted to The Bell Curve, whose arguments are here so effectively anticipated and thoroughly undermined by Stephen Jay Gould. In this edition Dr. Gould has written a substantial new introduction telling how and why he wrote the book and tracing the subsequent history of the controversy on innateness right through The Bell Curve. Further, he has added five essays on questions of The Bell Curve in particular and on race, racism, and biological determinism in general. These additions strengthen the book's claim to be, as Leo J. Kamin of Princeton University has said, "a major contribution toward deflating pseudo-biological 'explanations' of our present social woes."
In the Madre de Dios—Mother of God—region of Peru, where the Amazon River begins its massive flow, the Andean Mountain cloud forests fall into lowland Amazon Rainforest, creating the most biodiversity-rich place on the planet. In January 2006, when he was just a restless eighteen-year-old hungry for adventure, Paul Rosolie embarked on a journey to the west Amazon that would transform his life.
Venturing alone into some of the most inaccessible reaches of the jungle, he encountered giant snakes, floating forests, isolated tribes untouched by outsiders, prowling jaguars, orphaned baby anteaters, poachers in the black market trade in endangered species, and much more. Yet today, the primordial forests of the Madre de Dios are in danger from developers, oil giants, and gold miners eager to exploit its natural resources.
In Mother of God, this explorer and conservationist relives his amazing odyssey exploring the heart of this wildest place on earth. When he began delving deeper in his search for the secret Eden, spending extended periods in isolated solitude, he found things he never imagined could exist. “Alone and miniscule against a titanic landscape I have seen the depths of the Amazon, the guts of the jungle where no men go, Rosolie writes. “But as the legendary explorer Percy Fawcett warned, ‘the few remaining unknown places of the world exact a price for their secrets.’”
Illustrated with 16 pages of color photos.
IMAGINE A WORLD WHERE parasites are masters of chemical warfare and camouflage, able to cloak themselves with their hosts' own molecules.
IMAGINE A WORLD WHERE parasites steer the course of evolution, where the majority of species are parasites.
WELCOME TO EARTH.
For centuries, parasites have lived in nightmares, horror stories, and in the darkest shadows of science. Yet these creatures are among the world's most successful and sophisticated organisms. In Parasite Rex, Carl Zimmer deftly balances the scientific and the disgusting as he takes readers on a fantastic voyage. Traveling from the steamy jungles of Costa Rica to the fetid parasite haven of southern Sudan, Zimmer graphically brings to life how parasites can change DNA, rewire the brain, make men more distrustful and women more outgoing, and turn hosts into the living dead.
This thorough, gracefully written book brings parasites out into the open and uncovers what they can teach us about the most fundamental survival tactics in the universe.
In The Wolf's Tooth, scientist and author Cristina Eisenberg explores the concept of "trophic cascades" and the role of top predators in regulating ecosystems. Her fascinating and wide-ranging work provides clear explanations of the science surrounding keystone predators and considers how this notion can help provide practical solutions for restoring ecosystem health and functioning.
Eisenberg examines both general concepts and specific issues, sharing accounts from her own fieldwork to illustrate and bring to life the ideas she presents. She considers how resource managers can use knowledge about trophic cascades to guide recovery efforts, including how this science can be applied to move forward the bold vision of rewilding the North American continent. In the end, the author provides her own recommendations for local and landscape-scale applications of what has been learned about interactive food webs.
At their most fundamental level, trophic cascades are powerful stories about ecosystem processes—of predators and their prey, of what it takes to survive in a landscape, of the flow of nutrients. The Wolf's Tooth is the first book to focus on the vital connection between trophic cascades and restoring biodiversity and habitats, and to do so in a way that is accessible to a diverse readership.
Paul Falkowski looks "under the hood" of microbes to find the engines of life, the actual working parts that do the biochemical heavy lifting for every living organism on Earth. With insight and humor, he explains how these miniature engines are built—and how they have been appropriated by and assembled like Lego sets within every creature that walks, swims, or flies. Falkowski shows how evolution works to maintain this core machinery of life, and how we and other animals are veritable conglomerations of microbes.
A vibrantly entertaining book about the microbes that support our very existence, Life's Engines will inspire wonder about these elegantly complex nanomachines that have driven life since its origin. It also issues a timely warning about the dangers of tinkering with that machinery to make it more "efficient" at meeting the ever-growing demands of humans in the coming century.
This profound and elegant book derives both its title and its outlook from Samuel Butler’s 1863 essay, “Darwin Among the Machines.” Observing the beginnings of miniaturization, self-reproduction, and telecommunication among machines, Butler predicted that nature’s intelligence, only temporarily subservient to technology, would resurface to claim our creations as her own. Updating Butler’s arguments, Dyson distills the historical record to chronicle the origins of digital telecommunications and the evolution of digital computers, beginning long before the time of Darwin and exploring the limits of Darwinian evolution to suggest what lies beyond. Weaving a cohesive narrative of his brilliant predecessors, Dyson constructs a straightforward, convincing, and occasionally frightening view of the evolution of mind in the global network, on a level transcending our own. Dyson concludes that we are in the midst of an experiment that echoes the prehistory of human intelligence and the origins of life.
Just as the exchange of coded molecular instructions brought life as we know it to the early earth’s primordial soup, and as language and mind combined to form the culture in which we live, so, in the digital universe, are computer programs and worldwide networks combining to produce an evolutionary theater in which the distinctions between nature and technology are increasingly obscured. Nature, argues Dyson, is on the side of the machines.
From the Trade Paperback edition.
From Russia to Bengal to Palm Beach, Randall Packard’s far-ranging narrative traces the natural and social forces that help malaria spread and make it deadly. He finds that war, land development, crumbling health systems, and globalization—coupled with climate change and changes in the distribution and flow of water—create conditions in which malaria's carrier mosquitoes thrive. The combination of these forces, Packard contends, makes the tropical regions today a perfect home for the disease.
Authoritative, fascinating, and eye-opening, this short history of malaria concludes with policy recommendations for improving control strategies and saving lives.
Developed at MIT in collaboration with award-winning high school teachers, BioBuilder teaches the foundational ideas of the emerging synthetic biology field, as well as key aspects of biological engineering that researchers are exploring in labs throughout the world. These lessons will empower teachers and students to explore and be part of solving persistent real-world challenges.Learn the fundamentals of biodesign and DNA engineeringExplore important ethical issues raised by examples of synthetic biologyInvestigate the BioBuilder labs that probe the design-build-test cycleTest synthetic living systems designed and built by engineersMeasure several variants of an enzyme-generating genetic circuitModel "bacterial photography" that changes a strain’s light sensitivityBuild living systems to produce purple or green pigmentOptimize baker’s yeast to produce ?-carotene
Commencing with a brief introduction to mineral systems, and the properties of minerals in plane-polarised and cross-polarised light, the mineral key also includes line drawings, tables of mineral properties and an interference colour chart, to further aid mineral identification. To minimise the chance of misidentification, and enable less experienced petrologists to use the key with confidence, the key has been arranged to prioritise those properties that are most easily recognised.
Designed for simplicity and ease of use, it is primarily aimed at undergraduate and postgraduate students of mineralogy and petrology, but should also provide a valuable source of reference for all practising geologists dealing with rock thin sections and their interpretation.
The story behind the stunning, extreme weapons we see in the animal world--teeth and horns and claws--and what they can tell us about the way humans develop and use arms and other weapons
In Animal Weapons, Doug Emlen takes us outside the lab and deep into the forests and jungles where he's been studying animal weapons in nature for years, to explain the processes behind the most intriguing and curious examples of extreme animal weapons—fish with mouths larger than their bodies and bugs whose heads are so packed with muscle they don't have room for eyes. As singular and strange as some of the weapons we encounter on these pages are, we learn that similar factors set their evolution in motion. Emlen uses these patterns to draw parallels to the way we humans develop and employ our own weapons, and have since battle began. He looks at everything from our armor and camouflage to the evolution of the rifle and the structures human populations have built across different regions and eras to protect their homes and communities. With stunning black and white drawings and gorgeous color illustrations of these concepts at work, Animal Weapons brings us the complete story of how weapons reach their most outsized, dramatic potential, and what the results we witness in the animal world can tell us about our own relationship with weapons of all kinds.
At last, many unanswered questions about the earth’s creation can be resolved with confidence. For example, how long did it take? Where did it take place? What about evolution, fossils, dinosaurs and cave men? Well-supported answers are here.
For those who have been challenged to explain the earth’s creation from an LDS viewpoint, this book will be helpful and enlightening. And for those who enjoy contemplating both the discoveries of science and the revelations of God, this book will be extremely stimulating and thought-provoking.
Readers have commented:
Dan from Canada: “This book has enlightened my mind and given me the wonderful opportunity to see the intermeshing between science and our religion.”
Paul from Texas: “Well-supported viewpoint and thought-provoking reading.... I appreciate Brother Skousen’s heavy usage of scriptural references and quotes from trustworthy Church leaders.”
Kristy from Utah: “Answered a lot of questions I had from my geology classes and gave me a deeper appreciation for this awesome planet we live on and the creator of it.”
Kelly from California: “This book explained so much about issues that had previously confused or bothered me.”
Jerome from Georgia: “Life altering, made me a better person.... If you really want to understand the ‘Big Picture’ then this book is a must read.”
Dave from Washington: “One unexpected blessing received from reading this book was an enhanced Temple worship experience.”
Ed from Iowa: “If you are LDS, this will open your eyes to things that are incredible and you will not look at the world we live in in the same way again.”
Devon: “Scholarly material well presented for the layman.”
This eBook includes the original index, illustrations, footnotes, table of contents and page numbering from the printed format.
There are close to 5,500 species in the class Mammalia, including the blue whale—the largest animal that has ever lived—and the pygmy shrew, which weighs little more than a penny. The functional diversity of mammals has allowed them to play critical roles in every ecosystem, whether marine, freshwater, alpine, tundra, forest, or desert.
Many mammal species are critically endangered and present complex conservation and management challenges. This book touches on those challenges, which are often precipitated by overharvesting and habitat loss, as well as emerging threats, such as the impact of wind turbines and white nose syndrome on bats and chronic wasting disease on deer.
Among the updates and additions to the fourth edition of Mammalogy are numerous new photos, figures, and cladograms, over 4,200 references, as well as
• A completely new chapter on mammalian phylogeny and genomics• Current taxonomy—including major changes to orders, suborders, and superfamilies of bats and rodents• An explanation of the recent inclusion of whales with terrestrial even-toed ungulates• Updates on mammalian structural, functional adaptations, and fossil history• recent advances in our understanding of phylogeny, biogeography, social behavior, and ecology• A discussion of two new orders and thirteen newly recognized extant families • Reflections on the implications of climate change for mammals• Thorough examinations of several recently described species, including Durrell’s vontsira ( Salanoia durrelli) and the Laotian rock rat ( Laonastes aenigmamus)• An explanation of mammalian biomechanics, such as that seen in lunge feeding of baleen whales• Breakout boxes on unique aspects of mammals, including the syntax of bat songs, singing mice, and why there are no green mammals (unless we count algae-covered sloths) Maintaining the accessible, readable style for which Feldhamer and his coauthors are well known, this new edition of Mammalogy is the authoritative textbook on this amazingly diverse class of vertebrates.
Through a collection of essays about Louisiana's natural history, Ouchley details an amazing array of plants and animals found in the Bayou State. Baldcypress, orchids, feral hogs, eels, black bears, bald eagles, and cottonmouth snakes live in the well over a hundred bayous of the region. Collectively, Ouchley's vignettes portray vibrant and complex habitats. But human interaction with the bayou and our role in its survival, Ouchley argues, will determine the future of these intricate ecosystems.
Bayou-Diversity narrates the story of the bayou one flower, one creature at a time, in turn illustrating the bigger picture of this treasured and troubled Louisiana landscape.
Salvage Logging and Its Ecological Consequences brings together three leading experts on forest ecology to explore a wide range of issues surrounding the practice of salvage logging. They gather and synthesize the latest research and information about its economic and ecological costs and benefits, and consider the impacts of salvage logging on ecosystem processes and biodiversity. The book examines
• what salvage logging is and why it is controversial
• natural and human disturbance regimes in forested ecosystems
• differences between salvage harvesting and traditional timber harvesting
• scientifically documented ecological impacts of salvage operations
• the importance of land management objectives in determining appropriate post-disturbance interventions
Brief case studies from around the world highlight a variety of projects, including operations that have followed wildfires, storms, volcanic eruptions, and insect infestations. In the final chapter, the authors discuss policy management implications and offer prescriptions for mitigating the impacts of future salvage harvesting efforts.
Salvage Logging and Its Ecological Consequences is a “must-read” volume for policymakers, students, academics, practitioners, and professionals involved in all aspects of forest management, natural resource planning, and forest conservation.
By venturing out of her clinic and spending time on seven family farms, Miller uncovers all the aspects of farming—from seed choice to soil management—that have a direct and powerful impact on our health. Bridging the traditional divide between agriculture and medicine, Miller shares lessons learned from inspiring farmers and biomedical researchers and artfully weaves their insights and discoveries, along with stories from her patients, into the narrative. The result is a compelling new vision for sustainable healing and a treasure trove of farm-to-body lessons that have immense value in our daily lives.
In Farmacology you will meet:a vegetable farmer in Washington State who shows us how the principles he uses to rejuvenate his soil apply just as well to our own bodies. Here we also discover the direct links between healthy soil and healthy humans. a beef farmer in Missouri who shows how a holistic cattle-grazing method can grow resilient calves and resilient children. an egg farmer in Arkansas who introduces us to the counterintuitive idea that stress can keep us productive and healthy. We discover why the stressors associated with a pasture-based farming system are beneficial to animals and humans while the duress of factory farming can make us ill. a vintner in Sonoma, California, who reveals the principles of Integrated Pest Management and helps us understand how this gentler approach to controlling unwanted bugs and weeds might be used to treat invasive cancers in humans. a farmer in the Bronx who shows us how a network of gardens offers health benefits that extend far beyond the nutrient value of the fruits and vegetables grown in the raised beds. For example, did you know that urban farming can lower the incidence of alcoholism and crime? finally, an aromatic herb farmer in Washington State who teaches us about the secret chemical messages we exchange with plants—messages that can affect our mood and even keep us looking youthful.
In each chapter, Farmacology reveals the surprising ways that the ecology of our body and the ecology of our farms are intimately linked. This is a paradigm-changing adventure that has huge implications for our personal health and the health of the planet.
Stephen Simpson and David Raubenheimer provide a comprehensive theoretical approach to the analysis of nutrition--the Geometric Framework. They show how it can help us to understand the links between nutrition and the biology of individual animals, including the physiological mechanisms that determine the nutritional interactions of the animal with its environment, and the consequences of these interactions in terms of health, immune responses, and lifespan. Simpson and Raubenheimer explain how these effects translate into the collective behavior of groups and societies, and in turn influence food webs and the structure of ecosystems. Then they demonstrate how the Geometric Framework can be used to tackle issues in applied nutrition, such as the problem of optimizing diets for livestock and endangered species, and how it can also help to address the epidemic of human obesity and metabolic disease
Drawing on a wealth of examples from slime molds to humans, The Nature of Nutrition has important applications in ecology, evolution, and physiology, and offers promising solutions for human health, conservation, and agriculture.
Much has been written about global warming, but the crucial relationship between people and ice has received little focus—until now. As one of the world’s leading experts on climate change, Henry Pollack provides an accessible, comprehensive survey of ice as a force of nature, and the potential consequences as we face the possibility of a world without ice.
A World Without Ice traces the effect of mountain glaciers on supplies of drinking water and agricultural irrigation, as well as the current results of melting permafrost and shrinking Arctic sea ice—a situation that has degraded the habitat of numerous animals and sparked an international race for seabed oil and minerals. Catastrophic possibilities loom, including rising sea levels and subsequent flooding of lowlying regions worldwide, and the ultimate displacement of millions of coastal residents. A World Without Ice answers our most urgent questions about this pending crisis, laying out the necessary steps for managing the unavoidable and avoiding the unmanageable.
Tropical Ecology begins with a historical overview followed by a sweeping discussion of biogeography and evolution, and then introduces students to the unique and complex structure of tropical rain forests. Other topics include the processes that influence everything from species richness to rates of photosynthesis: how global climate change may affect rain forest characteristics and function; how fragmentation of ecosystems affects species richness and ecological processes; human ecology in the tropics; biodiversity; and conservation of tropical ecosystems and species.
Drawing on real-world examples taken from actual research, Tropical Ecology is the best textbook on the subject for advanced undergraduates and graduate students.Offers the first comprehensive introduction to tropical ecology Describes all the major kinds of tropical terrestrial ecosystems Explains species diversity, evolutionary processes, and coevolutionary interactions Features numerous color illustrations and examples from actual research Covers global warming, deforestation, reforestation, fragmentation, and conservation The essential textbook for advanced undergraduates and graduate students Suitable for courses with a field component
Leading universities that have adopted this book include:Biola University Bucknell University California State University, Fullerton Colorado State University - Fort Collins Francis Marion University Michigan State University Middlebury College Northern Kentucky University Ohio Wesleyan University St. Mary's College of Maryland Syracuse University Tulane University University of California, Santa Cruz University of Central Florida University of Cincinnati University of Florida University of Missouri University of New Mexico University of North Carolina at Chapel Hill University of the West Indies
Some images inside the book are unavailable due to digital copyright restrictions.
• Explores the techniques used by indigenous and Western peoples to learn directly from the plants themselves, including those of Henry David Thoreau, Goethe, and Masanobu Fukuoka, author of The One Straw Revolution
• Contains leading-edge information on the heart as an organ of perception
All ancient and indigenous peoples insisted their knowledge of plant medicines came from the plants themselves and not through trial-and-error experimentation. Less well known is that many Western peoples made this same assertion. There are, in fact, two modes of cognition available to all human beings--the brain-based linear and the heart-based holistic. The heart-centered mode of perception can be exceptionally accurate and detailed in its information gathering capacities if, as indigenous and ancient peoples asserted, the heart’s ability as an organ of perception is developed.
Author Stephen Harrod Buhner explores this second mode of perception in great detail through the work of numerous remarkable people, from Luther Burbank, who cultivated the majority of food plants we now take for granted, to the great German poet and scientist Goethe and his studies of the metamorphosis of plants. Buhner explores the commonalities among these individuals in their approach to learning from the plant world and outlines the specific steps involved. Readers will gain the tools necessary to gather information directly from the heart of Nature, to directly learn the medicinal uses of plants, to engage in diagnosis of disease, and to understand the soul-making process that such deep connection with the world engenders.
Applied Hierarchical Modeling in Ecology: Distribution, Abundance, Species Richnessoffers a new synthesis of the state-of-the-art of hierarchical models for plant and animal distribution, abundance, and community characteristics such as species richness using data collected in metapopulation designs. These types of data are extremely widespread in ecology and its applications in such areas as biodiversity monitoring and fisheries and wildlife management.
This first volume explains static models/procedures in the context of hierarchical models that collectively represent a unified approach to ecological research, taking the reader from design, through data collection, and into analyses using a very powerful class of models. Applied Hierarchical Modeling in Ecology, Volume 1 serves as an indispensable manual for practicing field biologists, and as a graduate-level text for students in ecology, conservation biology, fisheries/wildlife management, and related fields.Provides a synthesis of important classes of models about distribution, abundance, and species richness while accommodating imperfect detectionPresents models and methods for identifying unmarked individuals and speciesWritten in a step-by-step approach accessible to non-statisticians and provides fully worked examples that serve as a template for readers' analysesIncludes companion website containing data sets, code, solutions to exercises, and further information
Kingdoms and Domains is a unique and indispensable reference for anyone intrigued by a planetary phenomenon: the spectacular diversity of life, both microscopic and macroscopic, as we know it only on Earth today.
• New Foreword by Edward O. Wilson
• The latest concepts of molecular systematics, symbiogenesis, and the evolutionary importance of microbes
• Newly expanded chapter openings that define each kingdom and place its members in context in geological time and ecological space
• Definitions of terms in the glossary and throughout the book
• Ecostrips, illustrations that place organisms in their most likely environments such as deep sea vents, tropical forests, deserts or hot sulfur springs
• A new table that compares features of the most inclusive taxa
• Application of a logical, authoritative, inclusive and coherent overall classification scheme based on evolutionary principles
The first part of the book introduces the essential underpinnings of molecular ecology and gives a review of genetics and discussion of the molecular markers that are most frequently used in ecological research, and a chapter devoted to the newly emerging field of ecological genomics. The second half of the book covers specific applications of molecular ecology, covering phylogeography, behavioural ecology and conservation genetics.
The new edition provides a thoroughly up-to-date introduction to the field, emphasising new types of analyses and including current examples and techniques whilst also retaining the information-rich, highly readable style which set the first edition apart.Incorporates both theoretical and applied perspectives Highly accessible, user-friendly approach and presentation Includes self-assessment activities with hypothetical cases based on actual species and realistic data sets Uses case studies to place the theory in context Provides coverage of population genetics, genomics, phylogeography, behavioural ecology and conservation genetics.
Ben A. Minteer and Stephen J. Pyne bring together a stunning consortium of voices comprised of renowned scientists, historians, philosophers, environmental writers, activists, policy makers, and land managers to negotiate the incredible challenges that environmentalism faces. Some call for a new, post-preservationist model, one that is far more pragmatic, interventionist, and human-centered. Others push forcefully back, arguing for a more chastened and restrained vision of human action on the earth. Some try to establish a middle ground, while others ruminate more deeply on the meaning and value of wilderness. Some write on species lost, others on species saved, and yet others discuss the enduring practical challenges of managing our land, water, and air.
From spirited optimism to careful prudence to critical skepticism, the resulting range of approaches offers an inspiring contribution to the landscape of modern environmentalism, one driven by serious, sustained engagements with the critical problems we must solve if we—and the wild garden we may now keep—are going to survive the era we have ushered in.
Contributors include: Chelsea K. Batavia, F. Stuart (Terry) Chapin III, Norman L. Christensen, Jamie Rappaport Clark, William Wallace Covington, Erle C. Ellis, Mark Fiege, Dave Foreman, Harry W. Greene, Emma Marris, Michelle Marvier, Bill McKibben, J. R. McNeill, Curt Meine, Ben A. Minteer, Michael Paul Nelson, Bryan Norton, Stephen J. Pyne, Andrew C. Revkin, Holmes Rolston III, Amy Seidl, Jack Ward Thomas, Diane J. Vosick, John A. Vucetich, Hazel Wong, and Donald Worster.
The prevailing accounts of the island’s history tell a story of self-inflicted devastation: a glaring case of eco-suicide. The island was dominated by a powerful chiefdom that promulgated a cult of statue making, exercising a ruthless hold on the island’s people and rapaciously destroying the environment, cutting down a lush palm forest that once blanketed the island in order to construct contraptions for moving more and more statues, which grew larger and larger. As the population swelled in order to sustain the statue cult, growing well beyond the island’s agricultural capacity, a vicious cycle of warfare broke out between opposing groups, and the culture ultimately suffered a dramatic collapse.
When Terry Hunt and Carl Lipo began carrying out archaeological studies on the island in 2001, they fully expected to find evidence supporting these accounts. Instead, revelation after revelation uncovered a very different truth. In this lively and fascinating account of Hunt and Lipo’s definitive solution to the mystery of what really happened on the island, they introduce the striking series of archaeological discoveries they made, and the path-breaking findings of others, which led them to compelling new answers to the most perplexing questions about the history of the island. Far from irresponsible environmental destroyers, they show, the Easter Islanders were remarkably inventive environmental stewards, devising ingenious methods to enhance the island’s agricultural capacity. They did not devastate the palm forest, and the culture did not descend into brutal violence. Perhaps most surprising of all, the making and moving of their enormous statutes did not require a bloated population or tax their precious resources; their statue building was actually integral to their ability to achieve a delicate balance of sustainability. The Easter Islanders, it turns out, offer us an impressive record of masterful environmental management rich with lessons for confronting the daunting environmental challenges of our own time.
Shattering the conventional wisdom, Hunt and Lipo’s ironclad case for a radically different understanding of the story of this most mysterious place is scientific discovery at its very best.
This book received the Award of Excellence in an Illustrated Medical Book from the Association of Medical Illustrators. It is organized by individual organism to facilitate classroom presentation.
This illustrated, full-color primary dissection manual is ideal for use by students or practitioners working with vertebrate anatomy. This book is also recommended for researchers in vertebrate and functional morphology and comparative anatomy. The result of this exceptional work offers the most comprehensive treatment than has ever before been available.
* Received the Award of Excellence in an Illustrated Medical Book from the Association of Medical Illustrators
* Expertly rendered award-winning illustrations accompany the detailed, clear dissection direction
* Organized by individual organism to facilitate classroom presentation
* Offers coverage of a wide range of vertebrates
* Full-color, strong pedagogical aids in a convenient lay-flat presentation
* Provides up-to-date information about many aspects of primate biology and evolution
* Contains a completely new chapter on primate communities
* Presents totally revised chapters on primate origins, early anthropoids, and fossil platyrrhines
* Includes an updated glossary, new illustrations, and a revised Classification of Order Primates
* Succeeds as the best introductory text on primate evolution because it synthesizes and allows access to primary literature
Topics addressed include transport with inertia, described by persistent random walks and hyperbolic reaction-transport equations and transport by anomalous diffusion, in particular subdiffusion, where the mean square displacement grows sublinearly with time. In particular reaction-diffusion systems are studied where the medium is in turn either spatially inhomogeneous, compositionally heterogeneous or spatially discrete.
Applications span a vast range of interdisciplinary fields and the systems considered can be as different as human or animal groups migrating under external influences, population ecology and evolution, complex chemical reactions, or networks of biological cells. Several chapters treat these applications in detail.