The Riverine Ecosystem Synthesis

Informationen zum Autor Dr. James H. Thorp is a professor and senior scientist at the University of Kansas (Lawrence, KS, United States). Prior to 2001, he was a distinguished professor and dean at Clarkson University, department chair and professor at the University of Louisville, associate professor and director of the Calder Ecology Center at Fordham University, and research ecologist at Georgia's Savannah River Ecology Laboratory. He received his Baccalaureate from the University of Kansas and Masters and PhD degrees from North Carolina State. Prof. Thorp has been on the editorial board of three freshwater journals and is a former president of the International Society for River Science. His research interests run the gamut from organismal biology to community, ecosystem, and macrosystem ecology. While his research emphasizes aquatic invertebrates, he also studies fish ecology, especially food webs related. He has published more than 150 research articles and 10 books, including five volumes so far in the fourth edition of Thorp and Covich's Freshwater Invertebrates . Michael Delong is a Professor of Biology and Director of the Large River Studies Center at Winona State University, Winona, Minnesota USA. Delong has studied rivers for over 30 years, with a focus on community and ecosystem ecology and has engaged in research in a number of rivers in the U.S. as well as rivers in Australia. A primary focus of his research has been on food web ecology, with both applied and basic implications. As director of the LRSC, Delong engaged over 160 undergraduate students in research of aquatic systems. Delong has published 30 peer-reviewed journal articles and contributed to three books on river science. Klappentext This book presents the most comprehensive model yet for describing the structure and functioning of running freshwater ecosystems. This "riverine ecosystem synthesis" (RES) is a result of combining several theories published in recent decades, dealing with aquatic and terrestrial systems. New analyses are fused with a variety of new perspectives on how river network ecosystems are structured and function, and how they change along longitudinal, lateral, and temporal dimensions. Among these novel perspectives is a dramatically new view of the role of hydrogeomorphic forces in forming functional process zones from headwaters to the mouths of great rivers. Designed as a useful tool for aquatic scientists worldwide whether they work on small streams or great rivers and in forested or semi-arid regions, this book will provide a means for scientists to understand the fundamental and applied aspects of rivers in general and includes a practical guide and protocols for analyzing individual rivers. This combination of theoretical and applied analysis is quite unique in running freshwater ecology. Specific examples of rivers in at least four continents (Africa, Australia, Europe and North America) serve to illustrate the power and utility of the RES concept. Zusammenfassung Presents a model for describing the structure and functioning of running freshwater ecosystems. This book presents a fresh view of the role of hydrogeomorphic forces in forming functional process zones from headwaters to the mouths of great rivers. Inhaltsverzeichnis Framework for the Riverine Ecosystem Synthesis (RES); Introduction to the RES; Historical Perspectives on Lotic Concepts; Functional Process Zones along a River's Longitudinal Dimension; Hierarchical Patch Dynamics in River Networks; Some Proposed Model Tenets; Applying the RES to Individual Rivers; Defining the Hydrogeomorphic Character of a River Network; Applying Hierarchical Patch Dynamics in Lotic Research; Systems to Modern Working Rivers; Practical Applications of the RES; Concluding Remarks...

Autorentext

Dr. James H. Thorp is a professor and senior scientist at the University of Kansas (Lawrence, KS, United States). Prior to 2001, he was a distinguished professor and dean at Clarkson University, department chair and professor at the University of Louisville, associate professor and director of the Calder Ecology Center at Fordham University, and research ecologist at Georgia's Savannah River Ecology Laboratory. He received his Baccalaureate from the University of Kansas and Masters and PhD degrees from North Carolina State. Prof. Thorp has been on the editorial board of three freshwater journals and is a former president of the International Society for River Science. His research interests run the gamut from organismal biology to community, ecosystem, and macrosystem ecology. While his research emphasizes aquatic invertebrates, he also studies fish ecology, especially food webs related. He has published more than 150 research articles and 10 books, including five volumes so far in the fourth edition of Thorp and Covich's Freshwater Invertebrates.

Michael Delong is a Professor of Biology and Director of the Large River Studies Center at Winona State University, Winona, Minnesota USA. Delong has studied rivers for over 30 years, with a focus on community and ecosystem ecology and has engaged in research in a number of rivers in the U.S. as well as rivers in Australia. A primary focus of his research has been on food web ecology, with both applied and basic implications. As director of the LRSC, Delong engaged over 160 undergraduate students in research of aquatic systems. Delong has published 30 peer-reviewed journal articles and contributed to three books on river science.

Klappentext
This book presents the most comprehensive model yet for describing the structure and functioning of running freshwater ecosystems. This "riverine ecosystem synthesis" (RES) is a result of combining several theories published in recent decades, dealing with aquatic and terrestrial systems. New analyses are fused with a variety of new perspectives on how river network ecosystems are structured and function, and how they change along longitudinal, lateral, and temporal dimensions. Among these novel perspectives is a dramatically new view of the role of hydrogeomorphic forces in forming functional process zones from headwaters to the mouths of great rivers.
Designed as a useful tool for aquatic scientists worldwide whether they work on small streams or great rivers and in forested or semi-arid regions, this book will provide a means for scientists to understand the fundamental and applied aspects of rivers in general and includes a practical guide and protocols for analyzing individual rivers. This combination of theoretical and applied analysis is quite unique in running freshwater ecology. Specific examples of rivers in at least four continents (Africa, Australia, Europe and North America) serve to illustrate the power and utility of the RES concept.

Zusammenfassung
Presents a model for describing the structure and functioning of running freshwater ecosystems. This book presents a fresh view of the role of hydrogeomorphic forces in forming functional process zones from headwaters to the mouths of great rivers.

Inhalt

Framework for the Riverine Ecosystem Synthesis (RES); Introduction to the RES; Historical Perspectives on Lotic Concepts; Functional Process Zones along a River's Longitudinal Dimension; Hierarchical Patch Dynamics in River Networks; Some Proposed Model Tenets; Applying the RES to Individual Rivers; Defining the Hydrogeomorphic Character of a River Network; Applying Hierarchical Patch Dynamics in Lotic Research; Systems to Modern Working Rivers; Practical Applications of the RES; Concluding Remarks