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Food webs describe biological communities in terms of feeding interactions. This book integrates the latest work on community dynamics, ecosystems energetics, and stability to dispel categorisation of the field into separate subdiciplines of population, community, and ecosystem ecology.
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Food webs describe biological communities in terms of feeding interactions. This book integrates the latest work on community dynamics, ecosystems energetics, and stability to dispel categorisation of the field into separate subdiciplines of population, community, and ecosystem ecology.
Produktdetails
- Produktdetails
- Oxford Ecology and Evolution
- Verlag: Hodder Education Publishers
- Seitenzahl: 352
- Erscheinungstermin: Juli 2012
- Englisch
- Abmessung: 160mm x 236mm x 23mm
- Gewicht: 726g
- ISBN-13: 9780198566182
- ISBN-10: 0198566182
- Artikelnr.: 40326479
- Oxford Ecology and Evolution
- Verlag: Hodder Education Publishers
- Seitenzahl: 352
- Erscheinungstermin: Juli 2012
- Englisch
- Abmessung: 160mm x 236mm x 23mm
- Gewicht: 726g
- ISBN-13: 9780198566182
- ISBN-10: 0198566182
- Artikelnr.: 40326479
John Moore studied zoology and ecology at the University of California at Santa Barbara, and received an MS in zoology at Michigan State University and an MS in Statistics at Colorado State University. His PhD focused on trophic interactions and food web analyses in natural and agricultural ecosystems. From 1991-2006 he was a faculty member at the University of Northern Colorado (UNC) and as the director of the UNC Mathematics and Science Teaching Institute (2001-2006). In 2006 he was appointed as director of the Natural Resource Ecology Laboratory at Colorado State University, and in 2010 as founding department head for the new Department of Ecosystem Science and Sustainability within the Warner College of Natural Resources. His research interests are in the fields of soil ecology, ecosystem ecology, mathematical/theoretical ecology, and the application of the theory of complex adaptive systems to teaching and learning. Peter de Ruiter studied Biology and Mathematics at the Utrecht University. His PhD was a theoretical-empirical analysis of predator prey interactions in forest floor layers. Since then he has worked for 10 years at the DLO-Institute for Soil Fertility (Haren, NL), 10 years as chair-holder Environmental Sciences at the Utrecht University and, since 2006, as head of the Wageningen University Centre of Soil Science. In 2008 Peter de Ruiter was appointed as a 'personal professor' in the Wageningen University Biometris Institute that focuses on mathematical approaches in the life sciences. His main research interests are in the field of soil sciences, ecology, and mathematical/theoretical ecology. He is a member of various national and international scientific committees and research councils, including the Dutch Governmental Advisory Committee on Soil Protection.
* 1: Approaches to studying food webs
* Section I: Modelling Simple and Multispecies Communities
* 2: Models of Simple and Complex Systems
* 3: Connectedness Food Webs
* 4: Energy Flux Food Webs
* 5: Functional webs
* Section II: The Dynamics and Stability of Simple and Complex
Communities
* 6: Energetic Organization and Food Web Stability
* 7: Enrichment, Trophic Structure, and Dynamic Stability
* 8: Modeling Compartments
* 9: Productivity, Dynamic Stability, and Species Richness
* Section III: Dynamic Food Web Architectures
* 10: Species-based versus Biomass-based Food Web Descriptions
* 11: Dynamic Architectures and Stability of Complex Systems along
Productivity Gradients
* 12: Food Webs Dynamics Beyond Asymptotic Behavior
* References
* Index
* Section I: Modelling Simple and Multispecies Communities
* 2: Models of Simple and Complex Systems
* 3: Connectedness Food Webs
* 4: Energy Flux Food Webs
* 5: Functional webs
* Section II: The Dynamics and Stability of Simple and Complex
Communities
* 6: Energetic Organization and Food Web Stability
* 7: Enrichment, Trophic Structure, and Dynamic Stability
* 8: Modeling Compartments
* 9: Productivity, Dynamic Stability, and Species Richness
* Section III: Dynamic Food Web Architectures
* 10: Species-based versus Biomass-based Food Web Descriptions
* 11: Dynamic Architectures and Stability of Complex Systems along
Productivity Gradients
* 12: Food Webs Dynamics Beyond Asymptotic Behavior
* References
* Index
* 1: Approaches to studying food webs
* Section I: Modelling Simple and Multispecies Communities
* 2: Models of Simple and Complex Systems
* 3: Connectedness Food Webs
* 4: Energy Flux Food Webs
* 5: Functional webs
* Section II: The Dynamics and Stability of Simple and Complex
Communities
* 6: Energetic Organization and Food Web Stability
* 7: Enrichment, Trophic Structure, and Dynamic Stability
* 8: Modeling Compartments
* 9: Productivity, Dynamic Stability, and Species Richness
* Section III: Dynamic Food Web Architectures
* 10: Species-based versus Biomass-based Food Web Descriptions
* 11: Dynamic Architectures and Stability of Complex Systems along
Productivity Gradients
* 12: Food Webs Dynamics Beyond Asymptotic Behavior
* References
* Index
* Section I: Modelling Simple and Multispecies Communities
* 2: Models of Simple and Complex Systems
* 3: Connectedness Food Webs
* 4: Energy Flux Food Webs
* 5: Functional webs
* Section II: The Dynamics and Stability of Simple and Complex
Communities
* 6: Energetic Organization and Food Web Stability
* 7: Enrichment, Trophic Structure, and Dynamic Stability
* 8: Modeling Compartments
* 9: Productivity, Dynamic Stability, and Species Richness
* Section III: Dynamic Food Web Architectures
* 10: Species-based versus Biomass-based Food Web Descriptions
* 11: Dynamic Architectures and Stability of Complex Systems along
Productivity Gradients
* 12: Food Webs Dynamics Beyond Asymptotic Behavior
* References
* Index