Landscape change and habitat fragmentation are key factors impacting biodiversity worldwide. These processes have many facets, each of which is usually studied in isolation. The Tumut Fragmentation Study has run for over 11 years and yielded extensive data on changes in both plant and animal populations in areas of native forest and pine plantation. The study is unique in the way that many different factors and processes, influencing a wide range of species groups, have been studied in the one large-scale natural experiment. Writing for academic researchers, professionals and graduate students, David Lindenmayer uses the study and other relevant research to provide an overview of the relationships between landscape change, habitat fragmentation and biodiversity conservation. Key lessons are drawn on throughout the book, on the design and implementation of large-scale ecological studies, biodiversity conservation in fragmented landscapes, and the management of plantation landscapes for enhanced nature conservation.

Landscape change and habitat fragmentation are key factors impacting biodiversity worldwide. These processes have many facets, each of which is usually studied in isolation. The Tumut Fragmentation Study has run for over 11 years and yielded extensive data on changes in both plant and animal populations in areas of native forest and pine plantation. The study is unique in the way that many different factors and processes, influencing a wide range of species groups, have been studied in the one large-scale natural experiment. Writing for academic researchers, professionals and graduate students, David Lindenmayer uses the study and other relevant research to provide an overview of the relationships between landscape change, habitat fragmentation and biodiversity conservation. Key lessons are drawn on throughout the book, on the design and implementation of large-scale ecological studies, biodiversity conservation in fragmented landscapes, and the management of plantation landscapes for enhanced nature conservation.

Salvage logging--removing trees from a forested area in the wake of a catastrophic event such as a wildfire or hurricane--is highly controversial. Policymakers and those with an economic interest in harvesting trees typically argue that damaged areas should be logged so as to avoid "wasting" resources, while many forest ecologists contend that removing trees following a disturbance is harmful to a variety of forest species and can interfere with the natural process of ecosystem recovery.

"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.

While most efforts at biodiversity conservation have focused primarily on protected areas and reserves, the unprotected lands surrounding those areas-the "matrix"-are equally important to preserving global biodiversity & maintaining forest health. In Conserving Forest Biodiversity, leading forest scientists David B. 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 latestscientific 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 connectivity, general principles for matrix management, using natural disturbance regimes to guide human disturbance, landscape-level and stand-level elements of matrix management, the role of adaptive management and monitoring, social dimensions and tensions in implementing matrix-based forest management

In 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 effectiveapproaches 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.