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Sustainability and Diversity of Forest Ecosystems
Biodiversity is decreasing at the fastest rate in the history of the earth. The sustainable use of ecosystems allowing maintenance of biological diversity is an urgent problem that must be solved. The work featured in this book presents the results achieved by the RIHN project, together with reports on other international activities and related efforts, as ecologists, forestry scientists, environmental economists, and sociologists share in discussions of the issues.
Forest Ecosystems and Environments
Coastal East and Southeast Asia are characterized by wet growing seasons, and species-rich forest ecosystems develop throughout the latitudinal and altitudinal gradients. In this region, the Global Change Impacts on Terrestrial Ecosystems in Monsoon Asia (TEMA) project was carried out as a unique contribution to the international project Global Change and Terrestrial Ecosystems. TEMA aimed to integrate forest ecosystem processes, from leaf physiology to meteorological budget and prediction of long-term change of vegetation composition and architecture through demographic processes. Special attention was given to watershed processes, where forest ecosystem metabolism affects the properties and biogeochemical budgets of freshwater ecosystems, and where rivers, wetlands, and lakes are subject to direct and indirect effects of environmental change. This volume presents the scaling-up concept for better understanding of ecosystem functioning.
Biodiversity
Despite acknowledgment that loss of living diversity is an international biological crisis, the ecological causes and consequences of extinction have not yet been widely addressed. In honor of Edward O. Wilson, winner of the 1993 International Prize for Biology, an international group of distinguished biologists bring ecological, evolutionary, and management perspectives to the issue of biodiversity. The roles of ecosystem processes, community structure and population dynamics are considered in this book. The goal, as Wilson writes in his introduction, is "to assemble concepts that unite the disciplines of systematics and ecology, and in so doing to create a sound scientific basis for the future management of biodiversity."
Biodiversity and Ecosystem Function
The biota of the earth is being altered at an unprecedented rate. We are witnessing wholesale exchanges of organisms among geographic areas that were once totally biologically isolated. We are seeing massive changes in landscape use that are creating even more abundant succes sional patches, reductions in population sizes, and in the worst cases, losses of species. There are many reasons for concern about these trends. One is that we unfortunately do not know in detail the conse quences of these massive alterations in terms of how the biosphere as a whole operates or even, for that matter, the functioning of localized ecosystems. We do know that the biosphere interacts strongly with the atmo...
Integrative Observations and Assessments
This volume focuses on new trends in monitoring biodiversity in the Asia-Pacific region, one of the most rapidly changing areas in the world. It provides reviews of the challenges in studying the spatial variability of biodiversity across various ecosystems. This book also describes newly developed concepts and methods for biodiversity observation including ubiquitous genotyping, systematic conservation, monitoring of the functions and services of ecosystems and biodiversity informatics. These contributions will lead to establishing integrative observations and assessments of biodiversity, essential for reporting the current status and for the effective conservation and sustainable use of biodiversity. This work will interest biodiversity researchers not only in the Asia-Pacific region but also across the entire globe.
Mainstreaming biodiversity in forestry
Forests harbour a large proportion of the Earth’s terrestrial biodiversity, which continues to be lost at an alarming rate. Deforestation is the single most important driver of forest biodiversity loss with 10 million ha of forest converted every year to other land uses, primarily for agriculture. Up to 30 percent of tree species are now threatened with extinction. As a consequence of overexploitation, wildlife populations have also been depleted across vast areas of forest, threatening the survival of many species. Protected areas, which are considered the cornerstone of biodiversity conservation, cover 18 percent of the world’s forests while a much larger 30 percent are designated prim...
The Biodiversity Observation Network in the Asia-Pacific Region
Biological diversity is important for ecosystem function and services, which in turn is essential for human well-being. Under the Convention on Biological Diversity, international efforts have been made to achieve a significant reduction in the current rate of biodiversity loss. The loss continues, however. The Asia-Pacific region includes both developing countries with high biodiversity and developed countries with sophisticated data collection and analyses, but only limited information about the status quo of biodiversity in this region has been available. Many Asia-Pacific countries have rapidly grown their economies and social infrastructures, causing a loss of biodiversity and requiring...
Diversity and Interaction in a Temperate Forest Community
The studies in the Ogawa Forest Reserve (OPR) were initiated by a group of plant ecologists and gradually expanded into a comprehensive project covering various aspects of biology, soil science, and silviculture. The project was integrated as part of the Forest Ecosystem Team under the BIO-COSMOS Program funded by the Ministry of Agriculture, Forestry and Fisheries. As the coordinators of the Forest Ecosystem Team, we are pleased that reports of the long-term studies carried out in the OFR are being published in this first volume on Japanese ecosystems in the Ecological Studies series. Scientists and researchers have made numerous contributions to the field of forest ecology during more than...
Trees and Forests of Tropical Asia
Informed by decades of researching tropical Asian forests, a comprehensive, up-to-date, and beautifully illustrated synthesis of the natural history of this unique place. Trees and Forests of Tropical Asia invites readers on an expedition into the leafy, humid, forested landscapes of tropical Asia—the so-called tapovan, a Sanskrit word for the forest where knowledge is attained through tapasya, or inner struggle. Peter Ashton and David Lee, two of the world’s leading scholars on Asian tropical rain forests, reveal the geology and climate that have produced these unique forests, the diversity of species that inhabit them, the means by which rain forest tree species evolve to achieve unique ecological space, and the role of humans in modifying the landscapes over centuries. Following Peter Ashton’s extensive On the Forests of Tropical Asia, the first book to describe the forests of the entire tropical Asian region from India east to New Guinea, this new book provides a more condensed and updated overview of tropical Asian forests written accessibly for students as well as tropical forest biologists, ecologists, and conservation biologists.
Fig Trees and Humans
Humans and figs form hybrid communities within the context of anthropogenic landscapes, supported by biocultural mutualisms driven by traits of Ficus species and people’s imagination and practices, and where humans also positively influence Ficus species ecology. Fig Trees and Humans examines the interactions between the biology and ecology of the genus Ficus and how humans use and think of Ficus species across the tropics and in the Mediterranean region. It demonstrates a high level of convergence of material and symbolic uses of human-fig interactions that affect various aspects of human culture, as well as the ecology of wild or cultivated Ficus species.
