DescriptionAll life on earth occurs in natural assemblages called communities. Community ecology is the study of patterns and processes involving these collections of two or more species. Communities are typically studied using a diversity of techniques, including observations of natural history, statistical descriptions of natural patterns, laboratory and field experiments, and mathematical modelling. Community patterns arise from a complex assortment of processes including competition, predation, mutualism, indirect effects, habitat selection, which result in the most complex biological entities on earth – including iconic systems such as rain forests and coral reefs.
This book introduces the reader to a balanced coverage of concepts and theories central to community ecology, using examples drawn from terrestrial, freshwater, and marine systems, and focusing on animal, plant, and microbial species. The historical development of key concepts is described using descriptions of classic studies, while examples of exciting new developments in recent studies are used to point toward future advances in our understanding of community organization. Throughout, there is an emphasis on the crucial interplay between observations, experiments, and mathematical models.
This second updated edition is a valuable resource for advanced undergraduates, graduate students, and established scientists who seek a broad overview of community ecology. The book has developed from a course in community ecology that has been taught by the author since 1983.
Figures and tables can be downloaded for free from www.wiley.com/go/morin/communityecology
Preface to the First Edition.
Part I: Communities: Basic Patterns and Elementary Processes.
2. Competition: Mechanisms, Models, and Niches.
3. Competition: Experiments, Observations, and Null Models.
4. Predation and Communities. Empirical patterns.
5. Models of predation in simple communities.
6. Food Webs.
Part II: Factors Influencing Interactions Among Species.
9. Temporal Patterns: Seasonal Dynamics, Priority Effects, and Assembly Rules.
10. Habitat Selection.
11. Spatial Dynamics.
Part III: Large-scale, Integrative Community Phenomena.
12. Causes and Consequences of Diversity.
14. Applied Community Ecology.
Appendix: Stability Analysis.
“The book arose from courses the author has been giving since 1983, so is well-tailored to final year graduate and particularly postgraduate students in ecology, but will also be of value to biodiversity scientists wishing to understand more of within-community interactions.” (Biodiversity and Conservation, 1 October 2012)
“This text is written with the postgraduate ecologist in mind, and the basic concepts, biological and mathematical, are Assumed . . . Given the relatively advanced level at which it is pitched, the text is pleasingly accessible to the non-specialist.” (Bulletin of the British Ecological Society, 1 June 2012)
“With a strong editorial input to improve readability and the employment of good graphic design and typography, Community Ecology could be an excellent, highly useful resource for coursework and self-study. Summing Up: Recommended. Upper-division undergraduates through researchers/faculty.” (Choice, 1 April 2012)""As such I recommend it to anyone involved in teaching introductory ecology at undergraduate level."" (Elsevier's Biological Conservation, 1 January 2012)
""One might query the balance of coverage of various topics but nevertheless this remains the
only textbook exclusively devoted to this scale of study."" (Frontiers of Biogeography, 3 March 2011)
""However, conservation biologists have got to be trained in community ecology and this is a very good and authoritative book covering the basics. As such I recommend it to anyone involved in teaching introductory ecology at undergraduate level."" (Biological Conservation, 12 December 2011)
- An advanced-level, market-leading textbook covering the field of community ecology: the study of the patterns and processes involving two or more species
- Explores the rapid developments in the field over the last two decades, driven by new and more sophisticated research techniques, advances in mathematical theory and modeling, and the increasing pressure on the environment wrought by humans
- Features a number of revisions to bring the second edition right up-to-date, including expanded material on food webs and causes and consequences of diversity
- Includes new material on modeling, which is often one of the hardest sections of community ecology courses for students to grasp