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11 - Applying landscape-ecological principles to regional conservation: the WildCountry Project in Australia

Published online by Cambridge University Press:  12 January 2010

By
Brendan G. MacKey ,
Michael E. Soulé ,
Henry A. Nix ,
Harry F. Recher ,
Robert G. Lesslie ,
Jann E. Williams ,
John C. Z. Woinarski ,
Richard J. Hobbs  and
Hugh P. Possingham
Edited by
Jianguo Wu  and
Richard J. Hobbs
Brendan G. MacKey
Affiliation:
Faculty of Science, The Australian National University, Canberra ACT 0200, Australia
Jianguo Wu
Affiliation:
Arizona State University
Richard J. Hobbs
Affiliation:
Murdoch University, Western Australia
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Summary

Introduction

One of the great challenges facing humanity in the twenty-first century is the conservation and restoration of biodiversity (Convention on Biodiversity 1992). In this chapter we present the landscape-ecological underpinnings of a new nongovernment organization (NGO)-driven conservation initiative in Australia, namely the WildCountry Project.

Global and national analyses highlight the extent of environmental degradation and the need for urgent protection and restoration of biodiversity (e.g., SEAC 1996, Environment Australia 2001, World Resources Institute 2001, NLWRA 2002). Such analyses also suggest that existing conservation strategies and plans are insufficient to prevent continuing losses.

The primary question, at the most general level, is: how can a conservation system be designed and implemented for Australia that is likely to maintain biodiversity for centuries to millennia? Dedicated protected areas are a core component of a nation's biodiversity conservation system. By our calculations (Fig. 11.1) only about 6 percent of Australia is in a secure protected area. There is no theoretical or empirical basis to the proposition that this level of reservation, while necessary, is sufficient for securing the conservation of Australia's biodiversity. In any case, protected area networks are largely the result of various historical contingencies rather than the principles of modern reserve design (Margules and Pressey 2000). We suggest that the percentage of Australia reserved in protected areas is unlikely to ever exceed 10–15 percent.

Type
Chapter
Information
Key Topics in Landscape Ecology , pp. 192 - 213
Publisher: Cambridge University Press
Print publication year: 2007

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References

AFFA. 2003. Regional Forest Agreements web site. Australian Government Department of Agriculture, Fisheries and Forestry (http://www.affa.gov.au/).
Andelman, S. J., I. Ball, F. W. Davis, and D. M. Stoms. 1999. SITES V 1.0: an Analytical Toolbox for Designing Ecoregional Conservation Portfolios. Unpublished manual prepared for the nature conservancy. (available at http://www.biogeog.ucsb.edu/projects/tnc/toolbox.html).
ANZECC. 2001. Australian and New Zealand Environment and Conservation: Review of the National Strategy of the Conservation of Australia's Biological Diversity. Canberra: Commonwealth of Australia.
Austin, J. M., Mackey, B. G., and Niel, K. P.. 2003. Estimating forest biomass using satellite radar: an exploratory study in a temperate Australian Eucalyptus forest. Forest Ecology and Management 176, 575–83.CrossRefGoogle Scholar
Bach, C. S. 2002. Phenological patterns in monsoon rainforests in the Northern Territory, Australia. Austral Ecology 27, 477–89.CrossRefGoogle Scholar
Beck, M. W. 1996. On discerning the case of late Pleistocene megafaunal extinctions. Paleobiology 22, 91–103.CrossRefGoogle Scholar
Bowman, D. M. J. S., Price, O., Whitehead, P. J., and Walsh, A.. 2001. The “wilderness effect” and the decline of Callitris intratropica on the Arnhem Land Plateau, northern Australia. Australian Journal of Botany 49, 665–72.CrossRefGoogle Scholar
Bradstock, R. A., Williams, J. E., and Gill, A. M. (eds.). 2002. Flammable Australia: The Fire Regimes and Biodiversity of a Continent. Cambridge: Cambridge University Press.Google Scholar
Cannon, R. and Gardner, M. G.. 1999. Assessing the risk of windborne spread of foot and mouth disease in Australia. Environment International 25, 713–23.CrossRefGoogle Scholar
Catchpole, W. 2002. Fire properties and burn patterns in heterogeneous landscapes. Pages 49–75 in Bradstock, R. A., Williams, J. E., and Gill, A. M. (eds.). Flammable Australia: The Fire Regimes and Biodiversity of a Continent. Cambridge: Cambridge University Press.Google Scholar
Caughley, G., Grigg, G., Caughley, J., and Hill, G. J. E.. 1980. Does dingo predation control the densities of kangaroos and emus?Australian Wildlife Research 7, 1–12.CrossRefGoogle Scholar
Commonwealth of Australia. 1997. Nationally Agreed Criteria for the Establishment of a Comprehensive, Adequate and Representative Reserve System for Forests in Australia. Canberra: Government Printer.
Commonwealth of Australia. 1999. National Forest Policy Statement. (http://www.affa.gov.au/content/publications.cfm?ObjectID=CDA4CAF9-D118-4E13-AAC472AC7603EBE5).
Commonwealth of Australia. 2001a. National Objectives and Targets for Biodiversity Conservation 2001–2005. Canberra: Government Printer.
Commonwealth of Australia. 2001b. Australian Native Vegetation Assessment 2001. Canberra: National Land and Water Resources Audit.
Commonwealth of Australia. 2002. The Regional Forest Agreements (http://www.rfa.gov.au).
Convention on Biodiversity. 1992. Website of the Secretariat on the Convention on Biodiversity (http://www.biodiv.org).
Cosser, P. 1997. Nutrients in Marine and Estuarine Environments. Canberra: Australian Government Department of Environment and Heritage.Google Scholar
Crooks, K. R. and Soulé, M. E.. 1999. Mesopredator release and avifaunal extinctions in a fragmented system. Nature 400, 5–6.CrossRefGoogle Scholar
CSIRO. 2001. Climate Change Projections for Australia. Melbourne: CSIRO Atmospheric Research (http://www.dar.csiro.au/publications/projections2001.pdf).
Davies, K. F., Melbourne, B. A., and Margules, C. R.. 2001. Effects of within- and between-patch processes on community dynamics in a fragmentation experiment. Ecology 82, 1830–46.CrossRefGoogle Scholar
Dilworth, R., Gowdie, T., and Rowley, T.. 2000. Living landscapes: the future landscapes of the Western Australian wheatbelt?Ecological Management and Restoration 1, 165–74.CrossRefGoogle Scholar
Dobson, D., K. Ralls, M. Foster, et al. 1999. Reconnecting fragmented landscapes. Pages 129–70 in Soulé, M. E. and Terborgh, J. (eds.). Continental Conservation: Scientific Foundations for Regional Conservation Networks. Washington, DC: Island Press.Google Scholar
Drake, V. A., P. C. Gregg, I. T. Harman, et al. 2001. Characterizing insect migration systems in inland Australia with novel and traditional methodologies. Pages 207–34 in Woiwood, I. P., Reynolds, D. R., and Thomas, C. D. (eds.). Insect Movement: Mechanisms and Consequences. Wallingford: CABI Publishing.Google Scholar
Environment Australia. 2001. State of the Environment Report. Canberra: Commonwealth of Australia (http://www.ea.gov.au/soe/).
Finlayson, H. H. 1961. On central Australian mammals. Records of the South Australian Museum 14, 141–91.Google Scholar
Foreman, D. 1999. The Wildlands Project and the rewilding of North America. Denver University Law Review 77, 535–53.Google Scholar
Frankel, O. H. and Soulé, M. E. 1981. Conservation and Evolution. Cambridge: Cambridge University Press.Google Scholar
Franklin, D. 1999. Evidence of disarray amongst granivorous bird assemblages in the savannas of northern Australia, a region of sparse human settlement. Biological Conservation 90, 53–68.CrossRefGoogle Scholar
Friedel, M. H., Foran, B. D., and Smith, D. M. Stafford. 1990. Where the creeks run dry or ten feet high: pastoral management in arid Australia. Proceedings of the Ecological Society of Australia 16, 185–94.Google Scholar
GBRMPA. 2003. Explanatory Statement, Great Barrier Reef Marine Park Zoning Plan 2003. Australian Government, Great Barrier Reef Marine Park Authority (http://www.reefed.edu.au/rap/pdf/ES_25-11-03.pdf).
Gill, A. M. and Williams, J. E.. 1996. Fire regimes and biodiversity: the effects of fragmentation of southeastern eucalypt forests by urbanization, agriculture and pine plantations. Forest Ecology and Management 85, 261–78.CrossRefGoogle Scholar
Gorshkov, G. V., Gorshkov, V. V., and Makarieva, A. M., 2000. Biotic Regulation of the Environment. Chichester: Spinger-Praxis.Google Scholar
Greening Australia. 2004. http://www.greeningaustralia.org.au/GA/NAT/.
Hale, P. and Lamb, D. (eds.). 1997. Conservation Outside Nature Reserves. Brisbane: Centre for Conservation Biology, University of Queensland.Google Scholar
Hannah, L. and Lovejoy, T. E. (eds.). 2003. Climate Change and Biodiversity: Synergistic Impacts. Washington, DC: Conservation International.Google Scholar
Hobbs, R. J. 2002a. Habitat networks and biological conservation. Pages 150–70 in Gutzwiller, K. J. (ed.). Applying Landscape Ecology in Biological Conservation. New York: Springer.CrossRefGoogle Scholar
Hobbs, R. J. 2002b. Fire regimes and their effects in Australian temperate woodlands. Pages 305–26 in Bradstock, R., Williams, J. E., and Gill, A. M. (eds.). Flammable Australia: Fire Regimes and the Biodiversity of a Continent. Cambridge: Cambridge University Press.Google Scholar
Hobbs, J. E., Lindesay, J. A., and Bridgman, H. A.. 1998. Climates of the Southern Continents: Past, Present and Future. Chichester: John Wiley & Sons Ltd.Google Scholar
Hobbs, R. J., D. A. Saunders, and A. R. Main. 1993. Conservation management in fragmented systems. Pages 279–96 in Hobbs, R. J. and Saunders, D. A. (eds.). Reintegrating Fragmented Landscapes:Towards Sustainable Production and Nature Conservation. New York: Springer.Google Scholar
Horn, A. M. 1995. Surface Water Resources of Cape York Peninsula. Canberra: CYPLUS – Queensland and Commonwealth Governments.Google Scholar
Horn, A. M., Derrington, E. A., Herbert, G. C., Lait, R. W., and Miller, J. R.. 1995. Groundwater Resources of Cape York Peninsula. Canberra: CYPLUS – Queensland and Commonwealth Governments.Google Scholar
Hutchinson, M. F., J. A. Stein, and J. L. Stein. 2000. Upgrade of the 9 Second Australian Digital Elevation Model. CRES, The Australian National University (http://cres.anu.edu.au/dem).
IPCC. 2002. Climate Change 2001: The Scientific Basis. Intergovernmental Panel on Climate Change (http://www.ipcc.ch/).
Isard, S. A. and Gage, S. H.. 2001. Flow of Life in the Atmosphere: an Airscape Approach to Understanding Invasive Organisms. East Lansing: Michigan State University Press.Google Scholar
Keith, D., J. E. Williams, and J. Woinarski. 2002. Fire management and biodiversity conservation – key approaches and principles. Pages 401–428 in Bradstock, R. A., Williams, J. E., and Gill, A. M. (eds.). Flammable Australia: The Fire Regimes and Biodiversity of a Continent. Cambridge: Cambridge University Press.Google Scholar
Lambeck, R. J. 1997. Focal species: a multi-species umbrella for nature conservation. Conservation Biology 11, 849–56.CrossRefGoogle Scholar
Landcare Australia. 2004. http://www.landcareaustralia.com.au/.
Landsberg, J. J. and Waring, R. H.. 1997. A generalized model of forest productivity using simplified concepts of radiation-use efficiency, carbon balance and partitioning. Forest Ecology and Management 95, 209–28.CrossRefGoogle Scholar
Lesslie, R. G. 2001. Landscape classification and strategic assessment for conservation: an analysis of native cover loss in far southeast Australia. Biodiversity and Conservation 10, 427–42.CrossRefGoogle Scholar
Lewis, D. 2002. Slower Than the Eye Can See: Environmental Change in Northern Australia's Cattle Lands: A Case Study from the Victoria River District, Northern Territory. Darwin: Tropical Savannas Cooperative Research Centre.Google Scholar
Lindenmayer, D. B. and Franklin, J. F.. 2002. Conserving Forest Biodiversity: A Comprehensive Multiscaled Approach. Washington DC: Island Press.Google Scholar
Lindenmayer, D. B. and Nix, H. A.. 1993. Ecological principles for the design of wildlife corridors. Conservation Biology 7, 627–30.CrossRefGoogle Scholar
Lindenmayer, D. B. and Recher, H. F.. 1998. Aspects of ecologically sustainable forestry in temperate eucalypt forests – beyond an expanded reserve system. Pacific Conservation Biology 4, 4–10.CrossRefGoogle Scholar
Lovejoy, T. E. 1982. Designing refugia for tomorrow. Pages 673–80 in Prance, G. T. (ed.). Biological Diversification in the Tropics. New York: Columbia University Press.Google Scholar
Mackey, B. G. and Lindenmayer, D. B.. 2001. Towards a hierarchical framework for modeling the spatial distribution of animals. Journal of Biogeography 28, 1147–66.CrossRefGoogle Scholar
Mackey, B. G., Lindenmayer, D. B., Gill, M., McCarthy, M., and Lindesay, J.. 2002. Wildlife, Fire and Future Climate: A Forest Ecosystem Analysis. Melbourne: CSIRO Publishing.Google Scholar
Mackey, B. G., Nix, H. A., and Hitchcock, P.. 2001. The Natural Heritage Significance of Cape York Peninsula. Canberra: ANU Tech P/L.Google Scholar
Mackey, B. G., Nix, H. A., Hutchinson, M. F., McMahon, J. P., and Fleming, P. M.. 1988. Assessing representativeness of places for conservation reservation and heritage listing. Environmental Management 12, 501–14.CrossRefGoogle Scholar
Mackey, B. G., Nix, H. A., Stein, J., Cork, E., and Bullen, F. T.. 1989. Assessing the representativeness of the Wet Tropics of Queensland World Heritage Property. Biological Conservation 50, 279–303.CrossRefGoogle Scholar
Mackey, B. G. and Sims, R.. 1993. A climatic analysis of selected boreal tree species and potential responses to global climate change. World Resources Review 5, 469–87.Google Scholar
Margules, C. R. and Pressey, R. L., 2000. Systematic conservation planning. Nature 405, 243–53.CrossRefGoogle ScholarPubMed
McIntyre, S. and Hobbs, R. J.. 1999. A framework for conceptualizing human impacts on landscapes and its relevance to management and research. Conservation Biology 13, 1282–92.CrossRefGoogle Scholar
Morton, S. R. 1990. The impact of European settlement on the vertebrate animals of arid Australia: a conceptual model. Proceedings of the Ecological Society of Australia 16, 201–13.Google Scholar
Morton, S. R., Smith, D. M. Stafford, Friedel, M. H., Griffin, G. F., and Pickup, G.. 1995. The stewardship of arid Australia: ecology and landscape management. Journal of Environmental Management 43, 195–218.CrossRefGoogle Scholar
NASA. 2003. The Moderate Resolution Imaging Spectroradiometer (MODIS) (http://modis.gsfc.nasa.gov/).
Nix, H. A. 1974. Environmental control of breeding, post-breeding dispersal and migration of birds in the Australian region. Pages 272–305 in Frith, H. J. and Calaby, J. A. (eds.). Proceedings of the XVI International Ornithological Congress. Canberra: Australian Academy of Sciences.Google Scholar
Nix, H. A., Faith, D. P., Hutchinson, M. F., et al. 2001. The Biorap Toolbox: A National Study of Biodiversity Assessment and Planning for Papua New Guinea. Canberra: The Centre for Resource and Environmental Studies, The Australian National University.Google Scholar
NLWRA. 2002. Australian Terrestrial Biodiversity Assessment. Canberra: National Land and Water Resources Audit.
Noss, R. F., Carroll, C., Vance-Borland, K., and Wuerthner, G.. 2002. A multicriteria assessment of the irreplaceability and vulnerability of sites in the Greater Yellowstone Ecosystem. Conservation Biology 16, 895–908.CrossRefGoogle Scholar
Noss, R. F. and Cooperrider, A. Y.. 1994. Saving Nature's Legacy. Washington, DC: Island Press.Google Scholar
NTK. 2003. Developing a National Biodiversity and Climate Change Action Plan. National Task Group on the Management of Climate Change Impacts on Biodiversity. Canberra: Australian Government, Department of Environment and Heritage.
Oksanen, L. and Oksanen, T.. 2000. The logic and realism of the hypothesis of exploitation ecosystems. The American Naturalist 155, 703–23.CrossRefGoogle ScholarPubMed
Palmer, C. and Woinarski, J. C. Z.. 1999. Seasonal roosts and foraging movements of the black flying fox Pteropus alecto in the Northern Territory: resource tracking in a landscape mosaic. Wildlife Research 26, 823–38.CrossRefGoogle Scholar
Paton, D. C., A. M. Prescott, R. J. Davies, and L. M. Heard. 2000. The distribution, status and threats to temperate woodlands in South Australia. Pages 57–85 in Hobbs, R. J. and Yates, C. J. (eds.). Temperate Eucalypt Woodlands in Australia: Biology, Conservation, Management and Restoration. Chipping Norton, NSW: Surrey Beatty & Sons.Google Scholar
Possingham, H. P., Andelman, S. J., Noon, B. R., Trombulak, S. and Pulliam, H. R. 2001. Making smart conservation decisions. Pages 225–44 in Orians, G. and Soule, M. (eds.). Research Priorities for Conservation Biology. Covelo: Island Press.Google Scholar
Possingham, H. P., I. R. Ball, and S. Andelman. 2000. Mathematical methods for identifying representative reserve networks. Pages 291–306 in Ferson, S. and Burgman, M. (eds.). Quantitative Methods for Conservation Biology. New York: Springer.Google Scholar
Price, O. and , D. M. J. S.. 1994. Fire-stick forestry: a matrix model in support of skillful fire management of Callitris intratropica R. T. Baker by north Australian Aborigines. Journal of Biogeography 21, 573–80.CrossRefGoogle Scholar
Reid, J. R. W., Kerle, A., and Morton, S. R.. 1993. Uluru Fauna: the Distribution and Abundance of Vertebrate Fauna of Uluru (Ayers Rock – Mount Olga) National Park. Canberra: N. T. ANPWS.Google Scholar
Roshier, D. A., Whetton, P. H., Allan, R. J., and Robertson, A. I.. 2001. Distribution and persistence of temporary wetland habitats in arid Australia in relation to climate. Austral Ecology 26, 371–84.CrossRefGoogle Scholar
Russell-Smith, J., Ryan, P. G., Klessa, D., Waight, G., and Harwood, R.. 1998. Fire regimes, fire-sensitive vegetation and fire management of the sandstone Arnhem Plateau, monsoonal northern Australia. Journal of Applied Ecology 35, 829–46.CrossRefGoogle Scholar
Saunders, D. A. and Hobbs, R. J. (eds.). 1991. Nature Conservation 2: The Role of Corridors. Chipping Norton, NSW: Surrey Beatty and Sons.Google Scholar
SEAC. 1996. Australia: State of the Environment 1996. Collingwood: CSIRO Publications. (http://www.deh.gov.au/soe/).
Shapcott, A. 2000. Conservation and genetics in the fragmented monsoon rainforest in the Northern Territory, Australia: a case study of three frugivore dispersed species. Australian Journal of Botany 48, 397–407.CrossRefGoogle Scholar
Singleton, P. H., W. Gaines, and J. F. Lehmkuhl. 2001. Using weighted distance and least-cost corridor analysis to evaluate regional-scale large carnivore habitat connectivity in Washington. Pages 583–94 in The Proceedings of the International Conference on Ecology and Transportation, Keystone, CO. September 24–27.
Soulé, M. E., Estes, J., Berger, J., and Rio, C. Martinez del. 2003. Ecological effectiveness: conservation goals for interactive species. Conservation Biology 17, 1238–50.CrossRefGoogle Scholar
Soulé, M. E. and Noss, R. F.. 1998. Rewilding and biodiversity: Complementary goals for continental conservation. Wild Earth 8, 18–28.Google Scholar
Soulé, M. E. and Terborgh, J. (eds.). 1999. Continental Conservation: Scientific Foundations of Regional Reserve Networks. Washington DC: Island Press.Google Scholar
Smith, Stafford D. M. and Morton, S. R.. 1990. A framework for the ecology of arid Australia. Journal of Arid Environment 18, 225–78.Google Scholar
Starr, B. J., Wasson, R. J., and Caitcheon, G.. 1999. Soil Erosion, Phosphorous and Dryland Salinity in the Upper Murrumbidgee: Past Changes and Current Findings. “Pine Gully,” Wagga, NSW, Australia: Murrumbidgee Catchment Management Committee.Google Scholar
Terborgh, J., J. A. Estes, P. C. Paquet, et al. 1999. Role of top carnivores in regulating terrestrial ecosystems. Pages 39–64 in Soulé, M. E. and Terborgh, J. (eds.). Continental Conservation: Design and Management Principles for Long-term, Regional Conservation Networks. Washington DC: Island Press.Google Scholar
Thomas, C. D., Cameron, A., Green, R. E., et al. 2004. Extinction risk from climate change. Nature 427, 1–4.CrossRefGoogle ScholarPubMed
Vertessey, R. A., Benyon, R., and Haydon, S.. 1994. Melbourne's forest catchment: effect of age on water yield. Water 21, 17–20Google Scholar
Whelan, R. J. 1995. The Ecology of Fire. Cambridge: Cambridge University Press.Google Scholar
Williams, J. E. and Gill, A. M.. 1995. The Impact of Fire Regimes on Native Forests in Eastern NSW. Sydney: NSW National Parks and Wildlife Service.Google Scholar
Williams, J. E., Whelan, R. J., and Gill, A. M.. 1994. Fire and environmental heterogeneity in southern temperate forest ecosystems: implications for management. Australian Journal of Botany 42, 125–37.CrossRefGoogle Scholar
Woinarski, J., Whitehead, P., Bowman, D., and Russell-Smith, J.. 1992. Conservation of mobile species in a variable environment: the problem of reserve design in the Northern Territory, Australia. Global Ecology and Biogeography Letters 2, 1–10.CrossRefGoogle Scholar
Woinarski, J. C. Z., Milne, D. J., and Wanganeen, G.. 2001. Changes in mammal populations in relatively intact landscapes of Kakadu National Park, Northern Territory, Australia. Austral Ecology 26, 360–70.CrossRefGoogle Scholar
World Resources Institute. 2001. World Resources 2000–2001. People and Ecosystems. United Nations Development Programme, United Nations Environment Programme, World Bank, and World Resources Institute.
Yibarbuk, D., Whitehead, P. J., J. Russell-Smith, et al. 2001. Fire ecology and Aboriginal land management in central Arnhem Land, northern Australia: a tradition of ecosystem management. Journal of Biogeography 28, 325–44.CrossRefGoogle Scholar

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