Fishery Ecosystem Dynamics
Price: 2200.00 INR
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ISBN:
9780198768944
Publication date:
20/10/2020
Paperback
336 pages
Price: 2200.00 INR
We sell our titles through other companies
Disclaimer :You will be redirected to a third party website.The sole responsibility of supplies, condition of the product, availability of stock, date of delivery, mode of payment will be as promised by the said third party only. Prices and specifications may vary from the OUP India site.
ISBN:
9780198768944
Publication date:
20/10/2020
Paperback
336 pages
Michael J. Fogarty, Jeremy S. Collie
A concise, authoritative text on fishery ecosystem dynamics,Provides "real world" examples of the practical application of methods in both marine and freshwater ecosystems,Examines the environmental drivers of fisheries in the context of climate change,Includes an electronic supplement with example data sets, as well as R code for analysis and graphical representation
Rights: OUP UK (INDIAN TERRITORY)
Michael J. Fogarty, Jeremy S. Collie
Description
Fisheries supply a critically important ecosystem service by providing over three billion people with nearly 20% of their daily animal protein intake. Yet one third of the world's fish stocks are currently harvested at unsustainable levels. Calls for the adoption of more holistic approaches to management that incorporate broader ecosystem principles are now being translated into action worldwide to meet this challenge. The transition from concept to implementation is accompanied by the need to further establish and evaluate the analytical framework for Ecosystem-Based Fishery Management (EBFM). The objectives of this novel textbook are to provide an
introduction to this topic for the next generation of scientists who will carry on this work, to illuminate the deep and often underappreciated connections between basic ecology and fishery science, and to explore the implications of these linkages in formulating management strategies for the 21st century.
Fishery Ecosystem Dynamics will be of great use to graduate level students as well as academic researchers and professionals (both governmental and NGO) in the fields of fisheries ecology and management.
About the author
Michael J. Fogarty, Chief of the Ecosystem Assessment Program, NOAA Fisheries Service, Northeast Fisheries Science Centre, USA, and Jeremy S. Collie, Professor of Oceanography, Graduate School of Oceanography, The University of Rhode Island, USAMichael Fogarty is a senior scientist in the Ecosystem Dynamics and Assessment Branch of the Northeast Fisheries Science Center. He is a Visiting Scientist in the Marine Policy Center of the Woods Hole Oceanographic Institution and an Adjunct Professor in the Department of Oceanography of the University of Rhode Island and the School of Marine Science of the University of Massachusetts.
Jeremy Collie worked in British Columbia and Alaska before joining the faculty of the Graduate School of Oceanography at the University of Rhode Island. He teaches Fish Population Dynamics, Fisheries Oceanography, and Ecosystem-Based Fisheries Science and Management.
Michael J. Fogarty, Jeremy S. Collie
Table of contents
1:Introduction
Ecological Models: an overview
2:Density-Independent Population Growth
3:Density-Dependent Population Growth
4:Interspecific Interactions I: Predation and Parasitism
5:Interspecific Interactions II: Competition and Mutualism
6:Community Dynamics
7:Spatial Processes
Ecological Production
8:Production at the Individual Level
9:Production at the Cohort and Population Levels
10:Production at the Ecosystem Level
Harvesting Models and Strategies
11:Harvesting at the Cohort and Population Levels
12:Harvesting at the Community Level
13:Harvesting at the Ecosystem Level
14:Empirical Dynamic Modeling
15:Towards EBFM
Michael J. Fogarty, Jeremy S. Collie
Description
Fisheries supply a critically important ecosystem service by providing over three billion people with nearly 20% of their daily animal protein intake. Yet one third of the world's fish stocks are currently harvested at unsustainable levels. Calls for the adoption of more holistic approaches to management that incorporate broader ecosystem principles are now being translated into action worldwide to meet this challenge. The transition from concept to implementation is accompanied by the need to further establish and evaluate the analytical framework for Ecosystem-Based Fishery Management (EBFM). The objectives of this novel textbook are to provide an
introduction to this topic for the next generation of scientists who will carry on this work, to illuminate the deep and often underappreciated connections between basic ecology and fishery science, and to explore the implications of these linkages in formulating management strategies for the 21st century.
Fishery Ecosystem Dynamics will be of great use to graduate level students as well as academic researchers and professionals (both governmental and NGO) in the fields of fisheries ecology and management.
About the author
Michael J. Fogarty, Chief of the Ecosystem Assessment Program, NOAA Fisheries Service, Northeast Fisheries Science Centre, USA, and Jeremy S. Collie, Professor of Oceanography, Graduate School of Oceanography, The University of Rhode Island, USAMichael Fogarty is a senior scientist in the Ecosystem Dynamics and Assessment Branch of the Northeast Fisheries Science Center. He is a Visiting Scientist in the Marine Policy Center of the Woods Hole Oceanographic Institution and an Adjunct Professor in the Department of Oceanography of the University of Rhode Island and the School of Marine Science of the University of Massachusetts.
Jeremy Collie worked in British Columbia and Alaska before joining the faculty of the Graduate School of Oceanography at the University of Rhode Island. He teaches Fish Population Dynamics, Fisheries Oceanography, and Ecosystem-Based Fisheries Science and Management.
Table of contents
1:Introduction
Ecological Models: an overview
2:Density-Independent Population Growth
3:Density-Dependent Population Growth
4:Interspecific Interactions I: Predation and Parasitism
5:Interspecific Interactions II: Competition and Mutualism
6:Community Dynamics
7:Spatial Processes
Ecological Production
8:Production at the Individual Level
9:Production at the Cohort and Population Levels
10:Production at the Ecosystem Level
Harvesting Models and Strategies
11:Harvesting at the Cohort and Population Levels
12:Harvesting at the Community Level
13:Harvesting at the Ecosystem Level
14:Empirical Dynamic Modeling
15:Towards EBFM
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