Charles S. Elton University of Chicago Press, 2001 Library of Congress QH541.E398 2001 | Dewey Decimal 591.7
Charles Elton was one of the founders of ecology, and his Animal Ecology was one of the seminal works that defined the field. In this book Elton introduced and drew together many principles still central to ecology today, including succession, niche, food webs, and the links between communities and ecosystems, each of which he illustrated with well-chosen examples. Many of Elton's ideas have proven remarkably prescient—for instance, his emphasis on the role climatic changes play in population fluctuations anticipated recent research in this area stimulated by concerns about global warming.
For Chicago's reprint of this classic work, ecologists Mathew A. Leibold and J. Timothy Wootton have provided new introductions to each chapter, placing Elton's ideas in historical and scientific context. They trace modern developments in each of the key themes Elton introduced, and provide references to the most current literature. The result will be an important work for ecologists interested in the roots of their discipline, for educated readers looking for a good overview of the field, and for historians of science.
Cognitive Ecology II
Edited by Reuven Dukas and John M. Ratcliffe University of Chicago Press, 2009 Library of Congress QL785.C512 2009 | Dewey Decimal 591.513
Merging evolutionary ecology and cognitive science, cognitive ecology investigates how animal interactions with natural habitats shape cognitive systems, and how constraints on nervous systems limit or bias animal behavior. Research in cognitive ecology has expanded rapidly in the past decade, and this second volume builds on the foundations laid out in the first, published in 1998.
Cognitive Ecology II integrates numerous scientific disciplines to analyze the ecology and evolution of animal cognition. The contributors cover the mechanisms, ecology, and evolution of learning and memory, including detailed analyses of bee neurobiology, bird song, and spatial learning. They also explore decision making, with mechanistic analyses of reproductive behavior in voles, escape hatching by frog embryos, and predation in the auditory domain of bats and eared insects. Finally, they consider social cognition, focusing on alarm calls and the factors determining social learning strategies of corvids, fish, and mammals.
With cognitive ecology ascending to its rightful place in behavioral and evolutionary research, this volume captures the promise that has been realized in the past decade and looks forward to new research prospects.
How does the environment shape the ways an animal processes information and makes decisions? How do constraints imposed on nervous systems affect an animal's activities? To help answer these questions, Cognitive Ecology integrates evolutionary ecology and cognitive science, demonstrating how studies of perception, memory, and learning can deepen our understanding of animal behavior and ecology.
Individual chapters consider such issues as the evolution of learning and its influence on behavior; the effects of cognitive mechanisms on the evolution of signaling behavior; how neurobiological and evolutionary processes have shaped navigational activities; functional and mechanical explanations for altered behaviors in response to changing environments; how foragers make decisions and how these decisions are influenced by the risks of predation; and how cognitive mechanisms affect partner choice.
Cognitive Ecology will encourage biologists to consider how animal cognition affects behavior, and will also interest comparative psychologists and cognitive scientists.
Until now, the research of applied zooarchaeologists has not had a significant impact on the work of conservation scientists. This book is designed to show how zooarchaeology can productively inform conservation science. Conservation Biology and Applied Zooarchaeology offers a set of case studies that use animal remains from archaeological and paleontological sites to provide information that has direct implications for wildlife management and conservation biology. It introduces conservation biologists to zooarchaeology, a sub-field of archaeology and ethnobiology, and provides a brief historical account of the development of applied zooarchaeology.
The case studies, which utilize palaeozoological data, cover a variety of animals and environments, including the marine ecology of shellfish and fish, potential restoration sites for Sandhill Cranes, freshwater mussel biogeography and stream ecology, conservation of terrestrial mammals such as American black bears, and even a consideration of the validity of the Pleistocene “rewilding” movement. The volume closes with an important new essay on the history, value, and application of applied zooarchaeology by R. Lee Lyman, which updates his classic 1996 paper that encouraged zooarchaeologists to apply their findings to present-day environmental challenges.
Each case study provides detailed analysis using the approaches of zooarchaeology and concludes with precise implications for conservation biology. Essays also address issues of political and social ecology, which have frequently been missing from the discussions of conservation scientists. As the editors note, all conservation actions occur in economic, social, and political contexts. Until now, however, the management implications of zooarchaeological research have rarely been spelled out so clearly.
"The authors of The Distribution and Abundance of Animals have now written The Ecological Web, an extended and careful synthesis of theory and field research, which provides an illuminating analysis of how environment influences the distribution and abundance of animals. The work also provides the first comprehensive account, illustrated by numerous case histories, of P. J. den Boer's theory of 'spreading the risk.' . . . Andrewartha and Birch, by shifting the emphasis away from abstract theory and back to consideration of animals in their complex natural environments, have provided a useful guide for ecologically sound conservation and management."—Animal Behaviour
"The Ecological Web presents an entirely fresh look at ecology from the autecological perspective, and is a worthy successor to the authors' classic work, The Distribution and Abundance of Animals. The work is original—indeed unique—and the detailed coverage of case histories is unprecedented. The point of view will be controversial, but every ecologist will be impressed with the competence and completeness with which the arguments are mustered. A 'must' for every ecologist and environmental scientist."—Paul R. Ehrlich
"This book is the naturalist's vision of population ecology. The authors do not intend a formal description of the environment, but are seeking a way of functional analysis, a workable framework of theory within which to ask questions that will help us understand the distribution and abundance of animals in natural populations. The Ecological Web should be studied carefully by every population ecologist and should take a prominent place in the teaching of ecology. It marks a very significant period in our science as we change from one paradigm to another."—P. J. den Boer
From its creation by Charles Elton in 1932 to its demise when he retired in 1967, the Bureau of Animal Population at Oxford was a mecca for ecologists from around the world. Crowcroft provides an anecdotal history of this small research institute that so strongly influenced the development of modern animal ecology.
"[This] is a very good account of the work and personal interactions of a group that played an important part in the development of animal ecology in the period 1930-60."—John Krebs, TREE
Blue jeans, MTV, Coca-Cola, and… ecology? We don't often think of conservation sciences as a U.S. export, but in the second half of the twentieth century an astounding array of scientists and ideas flowed out from the United States into the world, preaching the gospel of conservation-oriented ecology.
Inventing Global Ecology grapples with how we should understand the development of global ecology in the twentieth century—a science that is held responsible for, literally, saving the world. Is the spread of ecology throughout the globe a subtle form of cultural imperialism, as some claim? Or is it a manifestation of an increasingly globalized world, where ideas, people, and things move about with greater freedom than ever before?
Using India as the case study, Professor Michael Lewis considers the development of conservation policies and conservation sciences since the end of World War II and the role of United States scientists, ideas, and institutions in this process. Was India subject to a subtle form of Americanization, or did Indian ecologists develop their own agenda, their own science, and their own way of understanding (and saving) the natural world? Does nationality even matter when doing ecology?
This readable narrative will carry you through the first fifty years of independent India, from the meadows of the Himalayan Mountains to the rainforests of southern India, from Gandhi and Nehru to Project Tiger. Of equal interest to the general reader, to scientists, and to scholars of history and globalization, Inventing Global Ecology combines ethnographic fieldwork and oral history conducted in India and the United States, as well as traditional archival research.
Serengeti: Dynamics of an Ecosystem
Edited by A. R. E. Sinclair and M. Norton-Griffiths University of Chicago Press, 1979 Library of Congress QL337.T3S43 | Dewey Decimal 574.5264
Originally published in 1979, Serengeti: Dynamics of an Ecosystem was immediately recognized as the first synthesis of the patterns and processes of a major ecosystem. A prototype for initial studies, Serengeti contains baseline data for further and comparative studies of ecosystems. The new Serengeti II builds on the information presented originally in Serengeti; both books together offer essential information and insights for ecology and conservation biology.
Serengeti II: Dynamics, Management, and Conservation of an Ecosystem brings together twenty years of research by leading scientists to provide the most most thorough understanding to date of the spectacular Serengeti-Mara ecosystem in East Africa, home to one of the largest and most diverse populations of animals in the world.
Building on the groundwork laid by the classic Serengeti: Dynamics of an Ecosystem, published in 1979 by the University of Chicago Press, this new book integrates studies of the ecosystem at every level—from the plants at the bottom of the visible food chain, to the many species of herbivores and predators, to the system as a whole. Drawing on new data from many long-term studies and from more recent research initiatives, and applying new theory and computer technology, the contributors examine the large-scale processes that have produced the Serengeti's extraordinary biological diversity, as well as the interactions among species and between plants and animals and their environment. They also introduce computer modeling as a tool for exploring these interactions, employing this new technology to test and anticipate the effects of social, political, and economic changes on the entire ecosystem and on particular species, and so to shape future conservation and management strategies.
Serengeti National Park is one of the world’s most diverse ecosystems, a natural laboratory for ecology, evolution, and conservation, with a history that dates back at least four million years to the beginnings of human evolution. The third book of a ground- breaking series, Serengeti III is the result of a long-term integrated research project that documents changes to this unique ecosystem every ten years.
Bringing together researchers from a wide range of disciplines—ecologists, paleontologists, economists, social scientists, mathematicians, and disease specialists— this volume focuses on the interactions between the natural system and the human-dominated agricultural system. By examining how changes in rainfall, wildebeest numbers, commodity prices, and human populations have impacted the Serengeti ecosystem, the authors conclude that changes in the natural system have affected human welfare just as changes in the human system have impacted the natural world. To promote both the conservation of biota and the sustainability of human welfare, the authors recommend community-based conservation and protected-area conservation. Serengeti III presents a timely and provocative look at the conservation status of one of earth’s most renowned ecosystems.
The vast savannas and great migrations of the Serengeti conjure impressions of a harmonious and balanced ecosystem. But in reality, the history of the Serengeti is rife with battles between human and non-human nature. In the 1890s and several times since, the cattle virus rinderpest—at last vanquished in 2008—devastated both domesticated and wild ungulate populations, as well as the lives of humans and other animals who depended on them. In the 1920s, tourists armed with the world’s most expensive hunting gear filled the grasslands. And in recent years, violence in Tanzania has threatened one of the most successful long-term ecological research centers in history.
Serengeti IV, the latest installment in a long-standing series on the region’s ecology and biodiversity, explores the role of our species as a source of both discord and balance in Serengeti ecosystem dynamics. Through chapters charting the complexities of infectious disease transmission across populations, agricultural expansion, and the many challenges of managing this ecosystem today, this book shows how the people and landscapes surrounding crucial protected areas like Serengeti National Park can and must contribute to Serengeti conservation. In order to succeed, conservation efforts must also focus on the welfare of indigenous peoples, allowing them both to sustain their agricultural practices and to benefit from the natural resources provided by protected areas—an undertaking that will require the strengthening of government and education systems and, as such, will present one of the greatest conservation challenges of the next century.
Wildlife and Recreationists defines and clarifies the issues surrounding the conflict between outdoor recreation and the health and well-being of wildlife and ecosystems. Contributors to the volume consider both direct and indirect effects of widlife-recreationist interactions, including:
wildlife responses to disturbance, and the origins of these responses
how specific recreational activities affect diverse types of wildlife
the human dimensions of managing recreationists
the economic importance of outdoor recreation
how wildlife and recreationists might be able to coexist
The book is a useful synthesis of what is known concerning wildlife and recreation. More important, it addresses both research needs and management options to minimize conflicts.
Wildlife-Habitat Relationships goes beyond introductory wildlife biology texts to provide wildlife professionals and students with an understanding of the importance of habitat relationships in studying and managing wildlife. The book offers a unique synthesis and critical evaluation of data, methods, and studies, along with specific guidance on how to conduct rigorous studies. Now in its third edition, Wildlife-Habitat Relationships combines basic field zoology and natural history, evolutionary biology, ecological theory, and quantitative tools in explaining ecological processes and their influence on wildlife and habitats. Also included is a glossary of terms that every wildlife professional should know. Michael L. Morrison is professor and Caesar Kleberg Chair in Wildlife Ecology and Conservation in the Department of Wildlife and Fisheries Sciences at Texas A&M University in College Station. Bruce G. Marcot is wildlife ecologist with the USDA Forest Service in Portland, Oregon. R. William Mannan is professor of wildlife ecology at the University of Arizona in Tucson.
The world's first national park is constantly changing. How we understand and respond to recent events putting species under stress will determine the future of ecosystems millions of years in the making. Marshaling expertise from over 30 contributors, Yellowstone's Wildlife in Transition examines three primary challenges to the park's ecology.
This photographic atlas, developed over twenty years of teaching in the field, expedites the work of the zooarchaeologist by integrating both osteology and wildlife ecology into a single volume. Zooarchaeology, the study of animal remains found at archaeological sites, is interdisciplinary in nature, requiring students and researchers to not only master the technical skills of identifying fragmentary bones and teeth but also to develop a deep understanding of the taxonomy, natural history, behavior, and ecology of the species identified. Until now, these topics have always been treated separately. This book is the only field guide and laboratory manual to combine animal ecology and natural history with the detailed osteology of all the vertebrate classes (fishes, amphibians, birds, and mammals) and all the primary orders native to western North America. Skeletal images are shown at a variety of magnifications and views and are accompanied by photographs of the animals in their characteristic habitats.