Book contents
- Frontmatter
- Contents
- List of contributors
- Acknowledgements
- 1 Connectivity conservation: maintaining connections for nature
- PART I Approaches to connectivity research
- PART II Assessing connectivity
- PART III Challenges and implementation of connectivity conservation
- Introduction: Don't fence me in
- 18 Hyperconnectivity, invasive species, and the breakdown of barriers to dispersal
- 19 Disease and connectivity
- 20 Maintaining and restoring connectivity in landscapes fragmented by roads
- 21 Where to draw the line: integrating feasibility into connectivity planning
- 22 South Coast Missing Linkages: restoring connectivity to wildlands in the largest metropolitan area in the USA
- 23 Incorporating connectivity into broad-scale conservation planning
- 24 Escaping the minimalist trap: design and implementation of large-scale biodiversity corridors
- 25 The role of connectivity in Australian conservation
- 26 The future of connectivity conservation
- Index
- References
26 - The future of connectivity conservation
Published online by Cambridge University Press: 24 May 2010
Book contents
- Frontmatter
- Contents
- List of contributors
- Acknowledgements
- 1 Connectivity conservation: maintaining connections for nature
- PART I Approaches to connectivity research
- PART II Assessing connectivity
- PART III Challenges and implementation of connectivity conservation
- Introduction: Don't fence me in
- 18 Hyperconnectivity, invasive species, and the breakdown of barriers to dispersal
- 19 Disease and connectivity
- 20 Maintaining and restoring connectivity in landscapes fragmented by roads
- 21 Where to draw the line: integrating feasibility into connectivity planning
- 22 South Coast Missing Linkages: restoring connectivity to wildlands in the largest metropolitan area in the USA
- 23 Incorporating connectivity into broad-scale conservation planning
- 24 Escaping the minimalist trap: design and implementation of large-scale biodiversity corridors
- 25 The role of connectivity in Australian conservation
- 26 The future of connectivity conservation
- Index
- References
Summary
The present threat to Earth's biodiversity from the human enterprise is unprecedented in historic time. Understanding the consequences of environmental change, and developing effective strategies to maintain plant and animal species and the ecological processes on which all of life hinges, present enormous challenges. The growing awareness of environmental change has been mirrored, albeit with a lag, by a shift in focus of scientific endeavors in the ecological sciences. The last three decades have seen strong growth in disciplines that emphasize the importance of using scientific knowledge and skills to address threats to the future of ecosystems throughout the world.
Conservation biology emerged in the 1980s as a “mission-oriented” crisis discipline (Soulé and Wilcox 1980; Soulé 1985). It was to be a “new rallying point for biologists wishing to pool their knowledge and techniques to solve problems” (Soulé and Wilcox 1980). Rapid growth in this field has been accompanied by new journals, such as Animal Conservation, Biodiversity and Conservation, Conservation Biology, Ecological Applications, Ecology and Society, and Pacific Conservation Biology, in which setting out the conservation implications of the published research is regarded as a necessary and important part of the contribution. Likewise, rapid growth in the discipline of landscape ecology has been based on the premise that conceptual advances and empirical studies of the ways in which spatial pattern affects ecological processes will deliver insights for improved land management (Forman 1995; Turner et al. 2001; Wu and Hobbs 2002).
- Type
- Chapter
- Information
- Connectivity Conservation , pp. 676 - 694Publisher: Cambridge University PressPrint publication year: 2006
References
, , and . 1996. Optimal width of movement corridors for root voles: not too narrow and not too wide. Journal of Applied Ecology 33:63–70CrossRefGoogle Scholar
Baranga, J. 1991. Kibale Forest Game Corridor: man or wildlife? Pp. 371–375 in (eds.) Nature Conservation, vol. 2, The Role of Corridors. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.Google Scholar
1993. Determining minimum habitat areas and habitat corridors for cougars. Conservation Biology 7:94–108CrossRefGoogle Scholar
, and . 1998. Do habitat corridors provide connectivity? Conservation Biology 12:1241–1252CrossRefGoogle Scholar
1990. Habitat corridors and the conservation of small mammals in a fragmented forest environment. Landscape Ecology 4:109–122CrossRefGoogle Scholar
1999. Linkages in the Landscape: The Role of Corridors and Connectivity in Wildlife Conservation. Gland, Switzerland: IUCN.Google Scholar
, , and . 1994. Corridor use and the elements of corridor quality: chipmunks and fencerows in a farmland mosaic. Biological Conservation 68:155–165CrossRefGoogle Scholar
1975. The island dilemma: lessons of modern biogeographic studies for the design of natural reserves. Biological Conservation 7:129–146CrossRefGoogle Scholar
2003. Effects of habitat fragmentation on biodiversity. Annual Reviews of Ecology, Evolution and Systematics 34:487–515CrossRefGoogle Scholar
Ferris-Kaan, R. 1995. Management of linear habitats for wildlife in British forests. Pp. 67–77 in D. A. Saunders, J. L. Craig, and E. M. Mattiske (eds.) Nature Conservation, vol. 4, The Role of Networks. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.
1995. Land Mosaics: The Ecology of Landscapes and Regions. Cambridge, UK: Cambridge University Press.Google Scholar
, and . 2002. How does landscape structure influence landscape connectivity?Oikos 99:552–570CrossRefGoogle Scholar
Groves, C. R. 2003. Drafting a Conservation Blueprint: A Practitioner's Guide to Planning for Biodiversity. Washington, DC: Island Press,.
1995. Dispersal and use of corridors by birds in wooded patches on an agricultural landscape. Conservation Biology 9:845–854CrossRefGoogle Scholar
Harris L. D., and J. Scheck. 1991. From implications to applications: the dispersal corridor principle applied to the conservation of biological diversity. Pp. 189–220 in (eds.) Nature Conservation, vol. 2, The Role of Corridors. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.Google Scholar
, and . 1990. The elements of connectivity where corridor quality is variable. Landscape Ecology 4:157–170CrossRefGoogle Scholar
1992. The role of corridors in conservation: solution or bandwagon?Trends in Ecology and Evolution 7:389–391CrossRefGoogle ScholarPubMed
1997. Future landscapes and the future of landscape ecology. Landscape and Urban Planning 37:1–9CrossRefGoogle Scholar
1995. Nature conservation planning in Europe: developing ecological networks. Landscape and Urban Planning 32:169–183CrossRefGoogle Scholar
, and . 2002. Effects of corridors on home range sizes and interpatch movements of three small mammal species. Landscape Ecology 17:629–636CrossRefGoogle Scholar
, and . 1989. Habitat continuity and social organisation of the mountain pygmy-possum restored by tunnel. Journal of Wildlife Management 53:701–707CrossRefGoogle Scholar
Merriam, G. 1991. Corridors and connectivity: animal populations in heterogeneous environments. Pp. 133–142 in (eds.) Nature Conservation, vol. 2, The Role of Corridors. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.Google Scholar
O'Donnell, C. F. J. 1991. Application of the wildlife corridors concept to temperate rainforest sites, North Westland, New Zealand. Pp. 85–98 in (eds.) Nature Conservation, vol. 2, The Role of Corridors. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.Google Scholar
, , , and . 1995. The landscape ecological approach in bird conservation: integrating the metapopulation concept into spatial planning. Ibis 137:S139–S146CrossRefGoogle Scholar
Parmesan, C. 2005. Biotic response: range and abundance changes. Pp. 41–61 in (eds.) Climate Change and Biodiversity. New Haven, CT: Yale University Press.Google Scholar
1991. Movement paths of koalas in the urban-rural fringes of Ballarat, Victoria: implications for management. Pp. 259–272 in (eds.) Nature Conservation,, vol. 2, The Role of Corridors. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.Google Scholar
, , and . 1997. Biological corridors: form, function and efficacy. BioScience 47:677–687CrossRefGoogle Scholar
, and (eds.) 1991. Nature Conservation,, vol. 2, The Role of Corridors. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.Google Scholar
, , and (eds.) 1995. Nature Conservation, vol. 4, The Role of Networks. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.Google Scholar
, and . 1987. Consequences and costs of conservation corridors. Conservation Biology 1:63–71CrossRefGoogle Scholar
, , , and . 1992. Movement corridors: conservation bargains or poor investments?Conservation Biology 6:493–504CrossRefGoogle Scholar
Smith D. S. 1993. Greenway case studies. Pp. 161–208 in and P. C. Hellmund (eds.) Ecology of Greenways. Minneapolis, MN: University of Minnesota Press.Google Scholar
, and (eds.) 1993. Ecology of Greenways. Minneapolis, MN: University of Minnesota Press.Google Scholar
Soulé M. E. 1995. An unflinching vision: networks of people defending networks of lands. Pp. 1–8 in , , and E. M. Mattiske (eds.) Nature Conservation, vol. 4, The Role of Networks. Chipping Norton, NSW, Australia: Surrey Beatty and Sons.Google Scholar
, and . 1999. Continental Conservation: Scientific Foundations of Regional Reserve Networks. Washington, DC: Island Press.Google Scholar
, and (eds.) 1980. Conservation Biology: An Evolutionary – Ecological Perspective. Sunderland, MA: Sinauer Associates.Google Scholar
, and . 1996. Open corridors appear to facilitate dispersal by ringlet butterflies (Aphantopus hyperantus) between woodland clearings. Conservation Biology 10:1359–1365CrossRefGoogle Scholar
, , , and . 1993. Connectivity is a vital element of landscape structure. Oikos 68:571–573CrossRefGoogle Scholar
, and . 1993. Partial recovery of a skipper butterfly (Hesperia comma) from population refuges: lessons for conservation in a fragmented landscape. Journal of Animal Ecology 62:472–481CrossRefGoogle Scholar
, and . 2000. On the usage and measurement of landscape connectivity. Oikos 90:7–19CrossRefGoogle Scholar
, , and . 1999. Independent effects of forest cover and fragmentation on the distribution of forest breeding birds. Ecological Applications 9:586–593CrossRefGoogle Scholar
, , and . 2001. Landscape Ecology in Theory and Practice: Pattern and Process. New York: Springer-Verlag.Google Scholar
, , , , and . 2001. Introducing the key patch approach for habitat networks with persistent populations: an example for marshland birds. Biological Conservation 100:89–101CrossRefGoogle Scholar
, and . 2002. Key issues and research priorities in landscape ecology: an idiosyncratic synthesis. Landscape Ecology 17:355–365CrossRefGoogle Scholar
- 14
- Cited by