Each year billions of animals are poisoned, dissected, displaced, killed for consumption, or held in captivity-usually for the benefit of humans. The animal world has never been under greater peril and this broad-ranging collection contributes to a much-needed, fundamental rethinking about our relation with it. Animal Geographies explores the diverse ways in which animals shape the formation of human identity. Essays on zoos and wolves, for example, reveal how animals figure in social constructions of race, gender, and nationality. From questions of identity and subjectivity, it moves to a consideration of the places where people and animals confront the realities of coexistence on an everyday basis, by way of case studies of species such as mountain lions and the golden eagle. It then examines the ways in which animals figure in the ongoing globalization of production and mass consumption-illustrated by essays on the US meatpacking industry and meat production in the Indian state of Rajasthan-and finally, takes up legal and ethical approaches to human-animal relations. Animal Geographies compels a profound rethinking of the nature of human-animal relations and offers a series of proposals for reconstituting this relationship on a progressive basis. Contributors: Kay Anderson, Glen Elder, Andrea Gullo, Unna Lassiter, William S. Lynn, Suzanne M. Michel, Chris Philo, James D. Proctor, Paul Robbins, Frances M. Ufkes, James L. Wescoat, Jr.

Using cases of plant migration documented by both historical and fossil evidence, Jonathan D. Sauer provides a landmark assessment of what is presently known, and not merely assumed, about the process.

A superb resource for understanding the diversity of the modern discipline of biogeography, and its history and future, especially within geography departments. I expect to refer to it often. - Professor Sally Horn, University of Tennessee "As you browse through this fine book you will be struck by the diverse topics that biogeographers investigate and the many research methods they use.... Biogeography is interdisciplinary, and a commonly-voiced concern is that one biogeographer may not readily understand another's research findings. A handbook like this is important for synthesising, situating, explaining and evaluating a large literature, and pointing the reader to informative publications." - Geographical Research "A valuable contribution in both a research and teaching context. If you are biologically trained, it provides an extensive look into the geographical tradition of biogeography, covering some topics that may be less familiar to those with an evolution/ecology background. Alternatively, if you are a geography student, researcher, or lecturer, it will provide a useful reference and will be invaluable to the non-biogeographer who suddenly has the teaching of an introductory biogeography course thrust upon them." - Adam C. Algar, Frontiers of Biogeography The SAGE Handbook of Biogeography is a manual for scoping the past, present and future of biogeography that enable readers to consider, where relevant, how similar biogeographical issues are tackled by researchers in different 'schools'. In line with the concept of all SAGE Handbooks, this is a retrospective and prospective overview of biogeography that will: Consider the main areas of biogeography researched by geographers Detail a global perspective by incorporating the work of different schools of biogeographers Ecplore the divergent evolution of biogeography as a discipline and consider how this diversity can be harnessed Examine the interdisciplinary debates that biogeographers are contributing to within geography and the biological sciences. Aimed at an international audience of research students, academics, researchers and practitioners in biogeography, the text will attract interest from environmental scientists, ecologists, biologists and geographers alike.

This book begins with the modeling of evolutionary constraints on morphological diversity in ecology and then extends to development and evolution. The authors have used tractable, traditional models and mathematics, and carefully linked traditional ecological equations with production and consumption. This book contains new, more powerful models and has applied them, for example, in chemical ecology of coral reef. The production space serves as an appropriate background space from which the environmentally induced curvature in the allometric relations of superorganisms such as siphonophores, polymorphic bryozoans and ants can be measured. Projective differential geometry is used to formula dynamical models of evolution by heterochrony and by symbiosis and a theory of stable and weakly chaotic production, important in ecology and in modeling the evolution of individuality is developed.