Essentials of Ecology 4th Edition
Essentials of Ecology, 4th Edition presents introductory ecology in an accessible, state-of-the-art format designed to cultivate the novice student’s understanding of, and fascination with, the natural world. This new edition has been updated throughout, with new, full-color illustrations, and comes with an accompanying website with downloadable illustrations, multiple-choice questions, and interactive models.
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Tropical forests represent the world’s most biodiverse ecosystems and play a key role in hydrology, carbon storage and exchange. Many of the human-induced pressures these regions are facing, e.g. fragmentation and deforestation, have been widely reported and well documented. However, there have been surprisingly few efforts to synthesize cutting-edge science in the area of tropical forest interaction with atmospheric change. At a time when our global atmosphere is undergoing a period of rapid change, both in terms of climate and in the cycling of essential elements such as carbon and nitrogen, a thorough and up-to-date analysis is now timely. This research level text, suitable for graduate level students as well as professional researchers in plant ecology, tropical forestry, climate change science, and conservation biology, explores the vigorous contemporary debate as to how rapidly tropical forests may be affected by atmospheric change, and what this may mean for their future.
About the Author
Oliver Phillips is Reader in Tropical Ecology in the Earth and Biosphere Institute, School of Geography, University of Leeds, UK, and Visiting Researcher at the Missouri Botanical Garden, St. Louis, USA. He was awarded the British Ecological Society’s ‘Founder Prize’ in 2004 for outstanding early career ecological research.
Many areas of unusual geology that contain ore bearing bodies also support unique ecological communities of plants and animals. Where we have increasing demand to exploit rich mineral deposits this can lead to a conflict between mining and conservation interests in such landscapes. The book of which the concept is based in the interface between geology and botany and mining and conservation, brings together experts in the field of mining and conservation. The book focusses on natural and semi-natural ecosystems, where landscape beauty, biodiversity and conservation value are at their highest measure and the mineral wealth they contain can bring affluence of regional or even national importance. Examples of conflicts ranging from threatened floristic endemics to human ecology has been covered, with examples from Africa, the Americas, and Australasia.
About the Author
Professor Mark Tibbett is a plant and soil scientist with over 25 years’ experience in research and teaching. He specialises in element cycling and plant-microbe-soil interactions with particular interest in soil microbial ecology, mycorrhiza and the rhizosphere. Having completed postdoctoral, academic and industry appointments in the UK, he spent 10 years in Australia at CSIRO Land & Water and as the director of the Centre for Land Rehabilitation at the University of Western Australia. He has published over 100 peer-reviewed scholarly articles, is the Co Editor-in-Chief of the international journal Soil Research and an associate editor of the Australian Journal of Botany and Restoration Ecology. He was an instigator and remains a co-chair of the global ‘Mine Closure’ series of conferences. He is currently Professor of Soil Ecology at the University of Reading, UK.
This fully updated new edition introduces the core concepts, central thinkers, and major works of the burgeoning field of political ecology.* Explores the key arguments and contemporary explanatory challenges facing the sub-discipline* Provides the first full history of the development of political ecology over the last century and its theoretical underpinnings* Considers the major challenges facing the field now and for the future* Study boxes introduce key figures in the development of the discipline and summarize their most important works* Fully updated to include recent events, such as the Gulf of Mexico Oil Spill, as well as both urban and rural examples, from the developed and underdeveloped world.
About the Author
Paul Robbins is Professor and Director of the School of Geography and Development at the University of Arizona. He is the author of numerous publications including World Regions in a Global Context: People, Places, and Environments (with S. Marston, P.Knox, D. Liverman and V. Del Casino, 2010), Environment and Society: A Critical Introduction (with J. Hintz and S. Moore, Wiley-Blackwell, 2010), and Global Political Ecology (co-edited with R. Peet and M. Watts, 2011).
Explains how GIS enhances the development of chemical fate and transport models
Over the past decade, researchers have discovered that geographic information systems (GIS) are not only excellent tools for managing and displaying maps, but also useful in the analysis of chemical fate and transport in the environment. Among its many benefits, GIS facilitates the identification of critical factors that drive chemical fate and transport. Moreover, GIS makes it easier to communicate and explain key model assumptions.
Based on the author’s firsthand experience in environmental assessment, GIS Based Chemical Fate Modeling explores both GIS and chemical fate and transport modeling fundamentals, creating an interface between the two domains. It then explains how GIS analytical functions enable scientists to develop simple, yet comprehensive spatially explicit chemical fate and transport models that support real-world applications. In addition, the book features:
- Practical examples of GIS based model calculations that serve as templates for the development of new applications
- Exercises enabling readers to create their own GIS based models
- Accompanying website featuring downloadable datasets used in the book’s examples and exercises
- References to the literature, websites, data repositories, and online reports to facilitate further research
- Coverage of important topics such as spatial decision support systems and multi-criteria analysis as well as ecological and human health risk assessment in a spatial context
GIS Based Chemical Fate Modeling makes a unique contribution to the environmental sciences by explaining how GIS analytical functions enhance the development and interpretation of chemical fate and transport models. Environmental scientists should turn to this book to gain a deeper understanding of the role of GIS in describing what happens to chemicals when they are released into the environment.
About the Author
ALBERTO PISTOCCHI, MSc Eng, MSc Phil, PhD, is Adjunct Professor of Spatial Decision Support Systems at the University of Trento, Italy, and the author of several scientific contributions to the fields of hydrology, environmental assessment, chemical fate and transport modeling, and spatial decision support systems. As a researcher, environmental analyst, and project manager, he has been working for the European Commission’s Joint Research Centre, the Emilia Romagna regional government, and other private and public organizations. He is a founding partner (2001) and the scientific director of GECOsistema, a research spin-off from the University of Bologna, Italy.