Sources, sinks and sustainability
"Source-sink theories provide a simple yet powerful framework for understanding how the patterns, processes and dynamics of ecological systems vary and interact over space and time. Integrating multiple research fields, including population biology and landscape ecology, this book presents the...
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| Format: | Electronic eBook |
| Language: | English |
| Published: |
Cambridge ; New York :
Cambridge University Press,
2011.
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| Series: | Cambridge studies in landscape ecology.
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| Subjects: | |
| Online Access: | An electronic book accessible through the World Wide Web; click to view |
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Table of Contents:
- Machine generated contents note: Preface; Acknowledgements; List of contributors; Part I. Introduction: 1. Impact of a classic paper by H. Ronald Pulliam: the first 20 years Vanessa Hull, Anita T. Morzillo and Jianguo Liu; Part II. Advances in Source-Sink Theory: 2. Evolution in source-sink environments: implications for niche conservatism Robert D. Holt; 3. Source-sink dynamics emerging from unstable ideal-free habitat selection Douglas W. Morris; 4. Sources and sinks in the evolution and persistence of mutualisms Craig W. Benkman and Adam M. Siepielski; 5. Effects of climate change on dynamics and stability of multiregional populations Mark C. Andersen; 6. Habitat quality, niche breadth, temporal stochasticity, and the persistence of populations in heterogeneous landscapes Scott M. Pearson and Jennifer M. Fraterrigo; 7. When sinks rescue sources in dynamic environments Matthew R. Falcy and Brent J. Danielson; 8. Sinks, sustainability, and conservation incentives Alessandro Gimona, Gary Polhill and Ben Davies; Part III. Progress in Source-Sink Methodology: 9. On estimating demographic and dispersal parameters for niche and source-sink models H. Ronald Pulliam, John M. Drake and Juliet R. C. Pulliam; 10. Source-sink status of small and large wetland fragments and growth rate of a population network Gilberto Pasinelli, Jonathan P. Runge and Karin Schiegg; 11. Demographic and dispersal data from anthropogenic grasslands: what should we measure? John B. Dunning, Jr, Daniel M. Scheiman and Alexandra Houston; 12. Network analysis: a tool for studying the connectivity of source-sink systems Ferenc Jord�an; 13. Sources, sinks, and model accuracy Matthew A. Etterson, Brian J. Olsen, Russell Greenberg and W. Gregory Shriver; 14. Scale-dependence of habitat sources and sinks Jeffrey M. Diez and Itamar Giladi; 15. Effects of experimental population removal for the spatial population ecology of the alpine butterfly, Parnassius smintheus Stephen F. Matter and Jens Roland; Part IV. Improvement of Source-Sink Management: 16. Contribution of source-sink theory to protected area science Andrew Hansen; 17. Evidence of source-sink dynamics in marine and estuarine species Romuald N. Lipcius and Gina M. Ralph; 18. Population networks with sources and sinks along productivity gradients in the Fiordland Marine Area, New Zealand: a case study on the sea urchin Evechinus chloroticus Stephen R. Wing; 19. Source-sinks, metapopulations, and forest reserves: conserving northern flying squirrels in the temperate rainforests of Southeast Alaska Winston P. Smith, David K. Person and Sanjay Pyare; 20. Does habitat fragmentation generate breeding sources, sinks, and ecological traps in migratory songbirds? Scott K. Robinson and Jeffrey P. Hoover; 21. Source-sink population dynamics and sustainable leaf harvest of the understory palm Chamaedorea radicalis Eric J. Berry, David L. Gorchov and Bryan A. Endress; 22. Assessing positive and negative ecological effects of corridors Nick Haddad, Brian Hudgens, Ellen I. Damschen, Douglas J. Levey, John L. Orrock, Joshua J. Tewksbury and Aimee J. Weldon; Part V. Synthesis: 23. Sources and sinks: what is the reality? John Wiens and Beatrice Van Horne; Index.