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RESEARCH ARTICLE
Contents Vol 35(2)

Understanding ecosystem dynamics in South Australia’s arid lands: a framework to assist biodiversity conservation

Allen P. McIlwee A B E , Daniel Rogers B D , Phil Pisanu B , Robert Brandle C and John McDonald B
+ Author Affiliations
- Author Affiliations

A Australian Wildlife Research and Monitoring Services, SA 5163, Australia.

B Landscapes Team, Science Monitoring and Knowledge, South Australian Department of Environment, Water and Natural Resources, SA 5001, Australia.

C Sustainable Landscapes, South Australian Arid Lands Region, South Australian Department of Environment, Water and Natural Resources, SA 5700, Australia.

D School of Earth and Environmental Sciences, University of Adelaide, Adelaide, SA 5005, Australia.

E Corresponding author. Email: mcil0024@flinders.edu.au

The Rangeland Journal 35(2) 211-224 https://doi.org/10.1071/RJ12102
Submitted: 4 December 2012  Accepted: 17 May 2013   Published: 18 June 2013

Abstract

Determining what level of investment is required, and where and how it is used, to maintain biodiversity across vast areas is difficult. In response to this challenge, the South Australian Department of Environment, Water and Natural Resources has developed an information framework known as the ‘Aridlands Landscape Assessment Framework’ (ALAF) to provide a systematic basis for identifying landscape-specific, coarse-filter priorities for conservation investment across the arid zone. The ALAF is an analytical and conceptual framework that seeks to define ecosystem components and ecological processes operating at a landscape level, and understand where these processes are not meeting the requirements of extant biodiversity. This requires a systematic process to identify plant communities that occur in distinct biophysical settings. The next step is to document the dynamic processes that drive change within these communities in space and time. When coupled with knowledge of the requirements of indicator flora and fauna, this understanding will allow identification of those components that are at greatest risk, where, and for what reasons. This paper provides an overview of each step in the ALAF process and outlines how the framework has been used thus far to inform conservation planning across Witjira National Park.

Additional keywords: arid zone, conservation planning, information framework, landscape assessment, pastoral zone, state and transition models.


References

Allen, T. F. H., and Starr, T. B. (1982). ‘Hierarchy, Perspectives for Ecological Complexity.’ (University of Chicago Press: Chicago, IL.)

Avena, G. C., Ricotta, C., and Volpe, F. (1999). The influence of principal component analysis on the spatial structure of a multispectral dataset. International Journal of Remote Sensing 20, 3367–3376.
The influence of principal component analysis on the spatial structure of a multispectral dataset.Crossref | GoogleScholarGoogle Scholar |

Beisner, B. E., Haydon, D. T., and Cuddington, K. (2003). Alternative stable states in ecology. Frontiers in Ecology and the Environment 1, 376–382.
Alternative stable states in ecology.Crossref | GoogleScholarGoogle Scholar |

Bestelmeyer, B. T. (2006). Threshold concepts and their use in rangeland management and restoration: the good, the bad, and the insidious. Restoration Ecology 14, 325–329.
Threshold concepts and their use in rangeland management and restoration: the good, the bad, and the insidious.Crossref | GoogleScholarGoogle Scholar |

Bestelmeyer, B. T., Havstad, K. M., Damindsuren, B., Han, G., Brown, J. R., Herrick, J. E., Steele, C. M., and Peters, D. P. C. (2009). Resilience theory in models of rangeland ecology and restoration: the evolution and application of a paradigm. In: ‘New Models for Ecosystem Dynamics and Restoration’. (Eds R. J. Hobbs and K. N. Suding.) (Island Press: Washington, DC.)

Bottrill, M. C., Joseph, L. N., Carwardine, J., Bode, M., Cook, C., Game, E. T., Grantham, H., Kark, S., Linke, S., McDonald-Madden, E., Pressey, R. L., Walker, S., Wilson, K. A., and Possingham, H. P. (2008). Is conservation triage just smart decision making? Trends in Ecology & Evolution 23, 649–654.
Is conservation triage just smart decision making?Crossref | GoogleScholarGoogle Scholar |

Boyd, C. S., and Svejcar, T. J. (2009). Managing complex problems in rangeland ecosystems. Rangeland Ecology and Management 62, 491–499.
Managing complex problems in rangeland ecosystems.Crossref | GoogleScholarGoogle Scholar |

Brandle, R. (1998). ‘A Biological Survey of the Stony Deserts, South Australia, 1994–1997.’ (Department for Environment and Heritage South Australia: Adelaide, SA.)

Briske, D. D., Bestelmeyer, B. T., Stringham, T. K., and Shaver, P. L. (2008). Recommendations for development of resilience-based state-and-transition models. Rangeland Ecology and Management 61, 359–367.
Recommendations for development of resilience-based state-and-transition models.Crossref | GoogleScholarGoogle Scholar |

Chandra, A., and Idrisova, A. (2011). Convention on biological diversity: a review of national challenges and opportunities for implementation. Biodiversity and Conservation 20, 3295–3316.
Convention on biological diversity: a review of national challenges and opportunities for implementation.Crossref | GoogleScholarGoogle Scholar |

Chavez, P. S. (1988). An improved dark-object subtraction technique for atmospheric scattering correction of multi-spectral data. Remote Sensing of Environment 24, 459–479.
An improved dark-object subtraction technique for atmospheric scattering correction of multi-spectral data.Crossref | GoogleScholarGoogle Scholar |

Chavez, P. S. (1996). Image-based atmospheric corrections revisited and improved. Photogrammetric Engineering and Remote Sensing 62, 1025–1036.

Christian, C. S. (1958). The concept of land units and landsystems. Proceedings of the Ninth Pacific Science Congress 20, 74–81.

Compagnucci, R. H., and Richman, M. B. (2008). Can principal component analysis provide atmospheric circulation or teleconnection patterns? International Journal of Climatology 28, 703–726.
Can principal component analysis provide atmospheric circulation or teleconnection patterns?Crossref | GoogleScholarGoogle Scholar |

Connor, E. F., Courtney, A. C., and Yoder, J. M. (2000). Individuals-area relationships: the relationship between animal population density and area. Ecology 81, 734–748.

Failing, L., and Gregory, R. (2003). Ten common mistakes in designing biodiversity indicators for forest policy. Journal of Environmental Management 68, 121–132.
Ten common mistakes in designing biodiversity indicators for forest policy.Crossref | GoogleScholarGoogle Scholar | 12781752PubMed |

Gilbert, N. (2010). Conservation biodiversity hope faces extinction. Nature 467, 764.
Conservation biodiversity hope faces extinction.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXht1yhsb3M&md5=d860422ce12907de09ab318cfe240668CAS | 20944706PubMed |

Gillson, L., and Hoffman, M. T. (2007). Rangeland ecology in a changing world. Science 315, 53–54.
Rangeland ecology in a changing world.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXksVOnsg%3D%3D&md5=6b33566d685619dad3a60409da8fb3d3CAS | 17204634PubMed |

Gilpin, M. E., and Soule, M. E. (1986) Minimum viable populations: processes of species extinction. In: ‘Conservation Biology. The Science of Scarcity and Diversity’. (Ed. M. E. Soule.) pp. 19–34. (Sinauer Associates: Massachusetts, MA.)

Groves, C. R., Jensen, D. B., Valutis, L. L., Redford, K. H., Shaffer, M. L., Scott, J. M., Baumgartner, J. V., Higgins, J. V., Beck, M. W., and Anderson, M. G. (2002). Planning for biodiversity conservation: putting conservation science into practice. BioScience 52, 499–512.
Planning for biodiversity conservation: putting conservation science into practice.Crossref | GoogleScholarGoogle Scholar |

Hobbs, R. J. (1995). Landscape ecology. In: ‘Landscape Ecology’. (Ed. W. A. Nierenberg.) pp. 417–428. (Academic Press: San Diego, CA.)

Hobbs, R. J. (2007). Goals, targets and priorities for landscape-scale restoration. In: ‘Managing and Designing Landscapes for Conservation.’ (Eds D. B. Lindenmayer and R. J. Hobbs.) pp. 511–526. (Blackwell Publishing: Oxford, UK.)

Holling, C. S. (Ed.) (1978). ‘Adaptive Environmental Assessment and Management.’ (Wiley: Chichester, UK.)

Hunter, M. L. (1991). Coping with ignorance: the coarse-filter strategy for maintaining biodiversity. In: ‘Balancing on the Brink of Extinction. The Endangered Species Act and Lessons for the Future’. (Ed. K. A. Kohm.) pp. 266–281. (Island Press: Washington, DC.)

Hunter, M. L. (2005). A mesofilter conservation strategy to complement fine and coarse filters. Conservation Biology 19, 1025–1029.
A mesofilter conservation strategy to complement fine and coarse filters.Crossref | GoogleScholarGoogle Scholar |

Hunter, M. L., Jacobson, G. L., and Webb, T. (1988). Paleoecology and the coarse-filter approach to maintaining biological diversity. Conservation Biology 2, 375–385.
Paleoecology and the coarse-filter approach to maintaining biological diversity.Crossref | GoogleScholarGoogle Scholar |

Januchowski-Hartley, S. R., Hermoso, V., Pressey, R. L., Linke, S., Kool, J., Pearson, R. G., Pusey, B. J., and Van Der Wal, J. (2011). Coarse-filter surrogates do not represent freshwater fish diversity at a regional scale in Queensland, Australia. Biological Conservation 144, 2499–2511.
Coarse-filter surrogates do not represent freshwater fish diversity at a regional scale in Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |

Kauth, R. J., and Thomas, G. (1976). The Tasselled cap – A Graphic Description of the Spectral-Temporal Development of Agricultural Crops as seen by LANDSAT. LARS Symposia Paper 159. Available at: http://docs.lib.purdue.edu/lars_symp/159.

King, A. W. (2005). Hierarchy theory and the landscape…level? or, words do matter. In: ‘Issues and Perspectives in Landscape Ecology’. (Eds J. A. Wiens and M. A. Moss.) pp. 29–35. (Cambridge University Press: Cambridge, UK.)

King, E. G., and Hobbs, R. J. (2006). Identifying linkages among conceptual models of ecosystem degradation and restoration: towards an integrative framework. Restoration Ecology 14, 369–378.
Identifying linkages among conceptual models of ecosystem degradation and restoration: towards an integrative framework.Crossref | GoogleScholarGoogle Scholar |

Landsberg, J., James, C. D., Morton, S. R., Muller, W. J., and Stol, J. (2003). Abundance and composition of plant species along grazing gradients in Australian rangelands. Journal of Applied Ecology 40, 1008–1024.
Abundance and composition of plant species along grazing gradients in Australian rangelands.Crossref | GoogleScholarGoogle Scholar |

Laut, P., Heylingers, P. C., Keig, G., Löffler, E., Margules, C., and Scott, R. M. (1977). ‘Environments of South Australia Handbook.’ (Division of Land Use Research, CSIRO: Canberra, ACT.)

Letnic, M., and Dickman, C. R. (2010). Resource pulses and mammalian dynamics: conceptual models for hummock grasslands and other Australian desert habitats. Biological Reviews of the Cambridge Philosophical Society 85, 501–521.
| 1:STN:280:DC%2BC3cjgtlCkuw%3D%3D&md5=626e4d0a29f85bef41ea0a102c99e981CAS | 20015313PubMed |

Lindenmayer, D., Hobbs, R. J., Montague-Drake, R., Alexandra, J., Bennett, A., Burgman, M., Cale, P., Calhoun, A., Cramer, V., Cullen, P., Driscoll, D., Fahrig, L., Fischer, J., Franklin, J., Haila, Y., Hunter, M., Gibbons, P., Lake, S., Luck, G., MacGregor, C., McIntyre, S., MacNally, R., Manning, A., Miller, J., Mooney, H., Noss, R., Possingham, H., Saunders, D., Schmiegelow, F., Scott, M., Simberloff, D., Sisk, T., Tabor, G., Walker, B., Wiens, J., Woinarski, J., and Zavaleta, E. (2008). A checklist for ecological management of landscapes for conservation. Ecology Letters 11, 78–91.
| 17927771PubMed |

Ludwig, J. A., and Smith, M. D. S. (2005). Interpreting and correcting cross-scale mismatches in resilience analysis: a procedure and examples from Australia’s rangelands. Ecology and Society 10, 20–27.

Ludwig, J. A., Wiens, J. A., and Tongway, D. J. (2000). A scaling rule for landscape patches and how it applies to conserving soil resources in savannas. Ecosystems 3, 84–97.
A scaling rule for landscape patches and how it applies to conserving soil resources in savannas.Crossref | GoogleScholarGoogle Scholar |

Ludwig, J. A., Eager, R. W., Bastin, G. N., Chewings, V. H., and Liedloff, A. C. (2002). A leakiness index for assessing landscape function using remote sensing. Landscape Ecology 17, 157–171.
A leakiness index for assessing landscape function using remote sensing.Crossref | GoogleScholarGoogle Scholar |

Mac Nally, R., Bennett, A. F., Brown, G. W., Lumsden, L. F., Yen, A., Hinkley, S., Lillywhite, P., and Ward, D. A. (2002). How well do ecosystem-based planning units represent different components of biodiversity? Ecological Applications 12, 900–912.
How well do ecosystem-based planning units represent different components of biodiversity?Crossref | GoogleScholarGoogle Scholar |

Mace, G. M., Possingham, H., and Leader-Williams, N. (2006). Prioritizing choices in conservation. In: ‘Key Topics in Conservation Biology’. (Eds D. MacDonald and K. Service.) pp. 17–34. (Blackwell Publishers: Oxford, UK.)

Margules, C. R., and Pressey, R. L. (2000). Systematic conservation planning. Nature 405, 243–253.
Systematic conservation planning.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3cXjsFyjsLg%3D&md5=ee0fe19b2787242f309985a5fe4b6049CAS | 10821285PubMed |

McDonald, R. C., Isbell, R. F., Speight, J. G., Walker, J., and Hopkins, M. S. (2009). ‘Australian Soil and Land Survey: Field Handbook.’ (Department of Primary Industries and Energy and CSIRO: Canberra, ACT.)

Miller, J. R., and Hobbs, R. J. (2007). Habitat restoration – do we know what we’re doing? Restoration Ecology 15, 382–390.
Habitat restoration – do we know what we’re doing?Crossref | GoogleScholarGoogle Scholar |

Morton, S. R., Stafford Smith, D. M., Friedel, M. H., Griffin, G. F., and Pickup, G. (1995). The stewardship of arid Australia – ecology and landscape management. Journal of Environmental Management 43, 195–217.
The stewardship of arid Australia – ecology and landscape management.Crossref | GoogleScholarGoogle Scholar |

Morton, S. R., Smith, D. M. S., Dickman, C. R., Dunkerley, D. L., Friedel, M. H., McAllister, R. R. J., Reid, J. R. W., Roshier, D. A., Smith, M. A., Walsh, F. J., Wardle, G. M., Watson, I. W., and Westoby, M. (2011). A fresh framework for the ecology of arid Australia. Journal of Arid Environments 75, 313–329.
A fresh framework for the ecology of arid Australia.Crossref | GoogleScholarGoogle Scholar |

Newsome, A. E. (1994). Vertebrate pests versus wildlife conservation in semi-arid New South Wales: a profound imbalance. In: ‘Future of the Fauna of Western New South Wales’. (Eds D. Lunney, S. Hand, P. Reed and D. Butcher.) pp. 43–51. (Royal Zoological Society of New South Wales: Sydney.)

Noble, I. (1977). Long-term biomass dynamics in an arid chenopod shrub community at Koonamore, South Australia. Australian Journal of Botany 25, 639–653.
Long-term biomass dynamics in an arid chenopod shrub community at Koonamore, South Australia.Crossref | GoogleScholarGoogle Scholar |

Noss, R. F. (1987). From plant communities to landscapes in conservation inventories: a look at the nature conservancy (USA). Biological Conservation 41, 11–37.
From plant communities to landscapes in conservation inventories: a look at the nature conservancy (USA).Crossref | GoogleScholarGoogle Scholar |

O’Neill, R. V., Johnson, A. R., and King, A. W. (1989). A hierarchical framework for the analysis of scale. Landscape Ecology 3, 193–205.
A hierarchical framework for the analysis of scale.Crossref | GoogleScholarGoogle Scholar |

Possingham, H. (Ed.) (2001). ‘The Business of Biodiversity: Applying Decision Theory Principles to Nature Conservation.’ (Australian Conservation Foundation: Melbourne.)

Pringle, H., and Tinley, K. (2003). Are we overlooking critical geomorphic determinants of landscape change in Australian rangelands? Ecological Management & Restoration 4, 180–186.
Are we overlooking critical geomorphic determinants of landscape change in Australian rangelands?Crossref | GoogleScholarGoogle Scholar |

Rogers, D. J., Willoughby, N., Pisanu, P., McIlwee, A. P., and Gates, J. A. (2012) ‘Landscape Assessment: A Process for Identifying Ecosystem Priorities for Nature Conservation.’ (Department for Environment and Natural Resources South Australia: Adelaide, SA.)

Sparrow, B., and Foulkes, J. (2002). Evaluating a method for combining ecological and remote sensing data for structural vegetation mapping. In: ‘Proceedings of the 11th Australian Remote Sensing and Photogrammetry Conference’. Brisbane, 2–6 September 2002. pp. 209–221.

Stafford Smith, M., and McAllister, R. R. J. (2008). Managing arid zone natural resources in Australia for spatial and temporal variability – an approach from first principles. Rangeland Journal 30, 15–27.
Managing arid zone natural resources in Australia for spatial and temporal variability – an approach from first principles.Crossref | GoogleScholarGoogle Scholar |

Stafford-Smith, D. M., and Morton, S. (1993). Hierarchical design for conservation of biodiversity. In: ‘Australian rangelands in a changing environment. Seventh Biennial Conference of the Australian Rangeland Society’. (Australian Rangeland Society: Cobar, NSW.)

Stringham, T. K., Krueger, W. C., and Shaver, P. L. (2003). State and transition modeling: an ecological process approach. Journal of Range Management 56, 106–113.
State and transition modeling: an ecological process approach.Crossref | GoogleScholarGoogle Scholar |

Suding, K. N., and Hobbs, R. J. (2009). Models of ecosystem dynamics as frameworks for restoration ecology. In: ‘Models of Ecosystem Dynamics as Frameworks for Restoration Ecology’. (Eds R. J. Hobbs and K. N. Suding.) pp. 3–21. (Island Press: Washington, DC.)

Suding, K. N., Gross, K. L., and Houseman, G. R. (2004). Alternative states and positive feedbacks in restoration ecology. Trends in Ecology & Evolution 19, 46–53.
Alternative states and positive feedbacks in restoration ecology.Crossref | GoogleScholarGoogle Scholar |

Thackway, R., and Creswell, I. (1995). ‘An Interim Bioregionalisation for Australia: A Framework for Establishing the National System of Reserves.’ (Australian Nature Conservation Agency: Canberra, ACT.)

Tucker, C. J., Vanpraet, C. L., Sharman, M. J., and Vanittersum, G. (1985). Satellite remote sensing of total herbaceous biomass production in the Senegalese Sahel 1980–1984. Remote Sensing of Environment 17, 233–249.
Satellite remote sensing of total herbaceous biomass production in the Senegalese Sahel 1980–1984.Crossref | GoogleScholarGoogle Scholar |

Tueller, P. T. (1987). Remote-sensing science applications in arid environments. Remote Sensing of Environment 23, 143–154.
Remote-sensing science applications in arid environments.Crossref | GoogleScholarGoogle Scholar |

Westoby, M., Walker, B. H., and Noy-Meir, I. (1989). Oportunistic management for rangelands not at equilibrium. Journal of Range Management 42, 266–273.
Oportunistic management for rangelands not at equilibrium.Crossref | GoogleScholarGoogle Scholar |

Wiens, J. A. (1989). Spatial scaling in ecology. Functional Ecology 3, 385–397.
Spatial scaling in ecology.Crossref | GoogleScholarGoogle Scholar |

Wiens, J. A., and Bachelet, D. (2010). Matching the multiple scales of conservation with the multiplesScales of climate change. Conservation Biology 24, 51–62.
Matching the multiple scales of conservation with the multiplesScales of climate change.Crossref | GoogleScholarGoogle Scholar | 20121841PubMed |

Wilson, K. A., McBride, M. F., Bode, M., and Possingham, H. P. (2006). Prioritizing global conservation efforts. Nature 440, 337–340.
Prioritizing global conservation efforts.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XitlKguro%3D&md5=259c2acd1901b6804c59169d241a3f53CAS | 16541073PubMed |