Quantitative methods for conservation biology pdf

James Nichols, world leaders in tiger biology and quantitative ecology, respectively, address this key challenge. The have collaborated with an extraordinary array of 30 scientists with expertise in a range of necessary disciplines - biology and ecology of tigers, prey and habitats; advanced statistical theory and practice; computation and programming; practical field-sampling methods that employ technologies as varied as camera traps, genetic analyses and geographic information systems.

The book is a 'tour de force' of cutting-edge methodologies for assessing not just tigers but also other predators and their prey. The 14 chapters here are lucidly presented in a coherent sequence to provide tiger-specific answers to fundamental questions in animal population assessment: why monitor, what to monitor and how to monitor. While highlighting robust methods, the authors also clearly point out those that are in use, but unreliable.

The managerial dimension of tiger conservation described here, the task of matching monitoring objectives with skills and resources to integrate tiger conservation under an adaptive framework, also renders this volume useful to wildlife scientists as well as conservationists.

Lindenmayer Publisher: Island Press ISBN: Category: Science Page: View: While most efforts at biodiversity conservation have focused primarily on protected areas and reserves, the unprotected lands surrounding those area--the "matrix"--are equally important to preserving global biodiversity and maintaining forest health.

Lindenmayer and Jerry F. Franklin argue that the conservation of forest biodiversity requires a comprehensive and multiscaled approach that includes both reserve and nonreserve areas. They lay the foundations for such a strategy, bringing together the latest scientific information on landscape ecology, forestry, conservation biology, and related disciplines as they examine:the importance of the matrix in key areas of ecology such as metapopulation dynamics, habitat fragmentation, and landscape connectivitygeneral principles for matrix managementusing natural disturbance regimes to guide human disturbancelandscape-level and stand-level elements of matrix management the role of adaptive management and monitoringsocial dimensions and tensions in implementing matrix-based forest managementIn addition, they present five case studies that illustrate aspects and elements of applied matrix management in forests.

The case studies cover a wide variety of conservation planning and management issues from North America, South America, and Australia, ranging from relatively intact forest ecosystems to an intensively managed plantation. Conserving Forest Biodiversity presents strategies for enhancing matrix management that can play a vital role in the development of more effective approaches to maintaining forest biodiversity.

It examines the key issues and gives practical guidelines for sustained forest management, highlighting the critical role of the matrix for scientists, managers, decisionmakers, and other stakeholders involved in efforts to sustain biodiversity and ecosystem processes in forest landscapes.

This title provides a blueprint for advancing understanding of conservation in agricultural regions. As such, the book is appropriate for undergraduate and graduate students interested in quantitative conservation biology, managers charged with preserving endangered species, and, in short, for any conservation biologist or ecologist seeking to better understand the analysis and modeling of population data.

William F. Daniel F. The book is sure to appeal to a wide audience and should serve as a useful resource for those who wish to better understand PVAs, as well as for more experienced theoreticians and conservation practitioners. The book is a thorough, quantitative treatment and should be approachable by conservation biologists and ecologists with an interest in learning the details and application of PVA. Clark, Landscape Ecology. PVA is not only a bridge between science and policy, it is the flagship technology of conservation biology.

When applied to strongly interacting species, it is also a foundational tool of ecosystem conservation. Thank goodness, therefore, that this book is readable.

Morris and Doak draw on a treasury of experience and eschew complexity except where necessary. Mark Burgman, Bruce R. Maslin, David Andrewartha, Marie R. Whaling Models for Cetacean Conservation.

Selina S. Heppell, Deborah T. Crouse, Larry B. Yiannis G. Matsinos, Wilfried F. Conservation Genetics: Case Histories from Nature. Genetic conservation in captive populations and endangered species. Inbreeding and Extinction: A Threshold Effect. View 1 excerpt, references background. Genetic diversity and the agony of choice. Do Habitat Corridors Provide Connectivity.

Skeptics have questioned the empirical evidence that corridors provide landscape connectivity. Some also have suggested dangers of corridors. We reviewed published studies that empirically addressed … Expand. Related Papers.