SEARCH

SEARCH BY CITATION

References

  • Arthington AH, Balcombe SR, Wilson GA, Thoms MC, Marshall J (2005) Spatial and temporal variation in fish-assemblage structure in isolated waterholes during the 2001 dry season of an arid-zone floodplain river, Cooper Creek, Australia. Marine and Freshwater Research, 56, 2535.
  • Ashcroft MB (2010) Identifying refugia from climate change. Journal of Biogeography, 37, 14071413.
  • Ashcroft MB, Gollan JR, Warton DI, Ramp D (2012) A novel approach to quantify and locate potential microrefugia using topoclimate, climate stability, and isolation from the matrix. Global Change Biology, 18, 18661879.
  • Bayly I (2001) Invertebrate occurrence and succession after episodic flooding of a central Australian rock-hole. Journal of the Royal Society of Western Australia, 84, 2932.
  • Bohonak AJ, Jenkins DG (2003) Ecological and evolutionary significance of dispersal by freshwater invertebrates. Ecology Letters, 6, 783796.
  • Bostock B, Adams M, Laurenson L, Austin C (2006) The molecular systematics of Leiopotherapon unicolor (Günther, 1859): testing for cryptic speciation in Australia's most widespread freshwater fish. Biological Journal of the Linnean Society, 87, 537552.
  • Boulton AJ, Brock MA (1999) Australian Freshwater Ecology: Processes and Management. Gleneagles Publishing, Adelaide.
  • Brendock L, Williams WD (2000) Biodiversity in wetlands of dry regions (drylands). In: Biodiversity in Wetlands: Assessment, Function and Conservation, Vol 1, (eds Gopal B, Junk WJ, Davis JA), pp. 181194. Backhuys Publishers, The Netherlands.
  • Brim Box J, Duguid A, Read RE, Kimber RG, Knapton A, Davis J, Bowland AE (2008) Central Australian waterbodies: the importance of permanence in a desert landscape. Journal of Arid Environments, 72, 13951413.
  • Bunn SE, Thoms MC, Hamilton SK, Capon SJ (2006) Flow variability in dryland rivers: boom, bust and the bits in between. River Research and Applications, 22, 179186.
  • Byrne M (2008) Evidence for multiple refugia at different timescales during Pleistocene climatic oscillations in southern Australia inferred from phylogeography. Quaternary Science Reviews, 27, 25762585.
  • Byrne M, Yeates DK, Joseph L et al. (2008) Birth of a biome: insights into the assembly and maintenance of the Australian arid zone biota. Molecular Ecology, 17, 43984417.
  • Carini G, Hughes JM (2004) Population structure of Macrobrachium australiense (Decapoda: Palaemonidae) in Western Queensland, Australia: the role of contemporary and historical processes. Heredity, 93, 350363.
  • Cooper SJB, Bradbury JH, Saint KM, Leys R, Austin AD, Humphreys WF (2007) Subterranean archipelago in the Australian arid zone: mitochondrial DNA phylogeography of amphipods from central Western Australia. Molecular Ecology, 16, 15331544.
  • Cooper SJB, Saint KM, Taiti S, Austin AD, Humphreys WF (2008) Subterranean archipelago: mitochondrial DNA phylogeography of stygobitic isopods (Oniscidea:Haloniscus) from the Yilgarn region of Western Australia. Invertebrate Systematics, 22, 195203.
  • Carini G, Hughes JM (2006) Subdivided population structure and phylogeography of an endangered freshwater snail, Notopala sublineata (Conrad, 1850) (Gastropoda: Viviparidae), in Western Queensland, Australia. Biological Journal of the Linnean Society, 88, 116.
  • Costelloe JF, Hudson PJ, Pritchard JC, Puckridge JT, Reid JRW (2007) ARIDFLO Scientific Report: environmental flow requirements of arid zone rivers with particular reference to the Lake Eyre Drainage Basin. In: Final Report to South Australian Department of Water, Land and Biodiversity Conservation and Commonwealth Department of Environment and Heritage pp. 1718. Government of South Australia, Department of Water, Land and Biodiversity Conservation, Adelaide, Australia.
  • Davis JA (1986) Revision of the Australian Psephenidae (Coleoptera): systematics, phylogeny and historical biogeography. Australian Journal of Zoology, 119 (Suppl. 1): 97, CSIRO, Melbourne.
  • Davis JA (1997) Conservation of aquatic invertebrate communities in central Australia. Memoirs of the Museum of Victoria, 56, 491503.
  • Davis J, Harrington S, Friend J (1993) Invertebrate communities of relict streams in the arid zone: the George Gill Range, Central Australia. Marine and Freshwater Research, 44, 483505.
  • De Deckker P (1986) What happened to the Australian aquatic biota 18000 years ago? In: Limnology in Australia (eds De Deckker P, Williams WD), pp. 487496. CSIRO, Melbourne.
  • Dobrowski SZ (2011) A climatic basis for microrefugia: the influence of terrain on climate. Global Change Biology, 17, 10221035.
  • Dudgeon D, Arthington AH, Gessner MO et al. (2006) Freshwater biodiversity: importance, threats, status and conservation challenges. Biological Reviews, 81, 163182.
  • Faulks LK, Gilligan DM, Beheregaray LB (2010) Islands of water in a sea of dry land: hydrological regime predicts genetic diversity and dispersal in a widespread fish from Australia's arid zone, the golden perch (Macquaria ambigua). Molecular Ecology, 19, 47234737.
  • Fensham RJ, Silcock JL, Kerezsy A, Ponder W (2011) Four desert waters: setting arid zone wetland conservation priorities through understanding patterns of endemism. Biological Conservation, 144, 24592467.
  • Frank BM, Piccolo JJ, Baret PV (2011) A review of ecological models for brown trout: towards a new demogenetic model. Ecology of Freshwater Fish, 20, 167198.
  • Game ET, Lipsett-Moore G, Saxon E, Peterson N, Sheppard S (2011) Incorporating climate change adaptation into national conservation assessments. Global Change Biology, 17, 31503160.
  • Groves CR, Game ET, Anderson MG et al. (2012) Incorporating climate change into systematic conservation planning. Biodiversity and Conservation, 21, 16511671.
  • Guzik MT, Cooper SJB, Humphreys WF, Austin AD (2009) Fine-scale comparative phylogeography of a sympatric sister species triplet of subterranean diving beetles from a single calcrete aquifer in Western Australia. Molecular Ecology, 18, 36833698.
  • Guzik MT, Austin AD, Cooper SJB et al. (2010) Is the Australian subterranean fauna uniquely diverse? Invertebrate Systematics, 24, 407418.
  • Guzik MT, Cooper SJB, Humphreys WF et al. (2011) Evidence for population fragmentation within a subterranean aquatic habitat in the Western Australian desert. Heredity, 107, 215230.
  • Harris C (1992) Mound springs: South Australian conservation initiatives. The Rangeland Journal, 14, 157173.
  • Harvey MS (2002) Short-range endemism amongst the Australian fauna: some examples from non-marine environments. Invertebrate Systematics, 16, 555570.
  • Harvey MS, Rix MG, Framenau VW et al. (2011) Protecting the innocent: studying short-range endemic taxa enhances conservation outcomes. Invertebrate Systematics, 25, 110.
  • Hatton TJ (2001) Land use and catchment water balance. Technical Report 18/01. CSIRO Land and Water Canberra.
  • Hatton T, Evans R (1998) Dependence of Ecosystems on Groundwater and its Significance to Australia. Land and Water Resources Research and Development Corporation, Canberra.
  • Hughes JM, Hillyer MJ (2003) Patterns of connectivity among populations of Cherax destructor (Decapoda: Parastacidae) in western Queensland, Australia. Marine & Freshwater Research, 54, 587596.
  • Hughes J, Hillyer M (2006) Mitochondrial DNA and allozymes reveal high dispersal abilities and historical movement across drainage boundaries in two species of freshwater fishes from inland rivers in Queensland, Australia. Journal of Fish Biology, 68, 270291.
  • Hughes J, Baker AM, Bartlett C, Bunn S, Goudkamp K, Somerville J (2004) Past and present patterns of connectivity among populations of four cryptic species of freshwater mussels Velesunio spp. (Hyriidae) in central Australia. Molecular Ecology, 13, 31973212.
  • Humphreys WF (2006) Aquifers: the ultimate groundwater-dependent ecosystems. Australian Journal of Botany, 54, 115132.
  • IPCC (2007a) Climate Change 2007: Summary for Policy Makers. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, UK.
  • IPCC (2007b) Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, UK.
  • Keppel G, Wardell-Johnson GW (2012) Refugia: keys to climate change management. Global Change Biology, 18, 23892391.
  • Keppel G, Van Niel KP, Wardell-Johnson GW et al. (2012) Refugia: identifying and understanding safe havens for biodiversity under climate change. Global Ecology and Biogeography, 21, 393404.
  • Kingsford R, Curtin A, Porter J (1999) Water flows on Cooper Creek in arid Australia determine ‘boom'and ‘bust’ periods for waterbirds. Biological Conservation, 88, 231248.
  • Kingsford RT, Biggs HC, Pollard SR (2011) Strategic adaptive management in freshwater protected areas and their rivers. Biological Conservation, 144, 11941203.
  • Lancaster J, Belyea LR (1997) Nested hierarchies and scale-dependence of mechanisms of flow refugium use. Journal of the North American Benthological Society, 16, 221238.
  • Leys R, Watts CHS, Cooper SJB, Humphreys WF (2003) Evolution of subterranean diving beetles (Coleoptera: Dytiscidae: Hydroporini, Bidessini) in the arid zone of Australia. Evolution, 57, 28192834.
  • Magoulick DD, Kobza RM (2003) The role of refugia for fishes during drought: a review and synthesis. Freshwater Biology, 48, 11861198.
  • Martin H (1998) Tertiary climatic evolution and the development of aridity in Australia. Proceedings of Linnean Society of New South Wales, 119, 115136.
  • Mawdsley JR, O'Malley R, Ojima DS (2009) A review of climate-change adaptation strategies for wildlife management and biodiversity conservation Conservation Biology, 23, 10801089.
  • Meffe GK, Vrijenhoek RC (1988) Conservation genetics in the management of desert fishes. Conservation Biology, 2, 157169.
  • Millette L, Xu S, Witt JDS, Cristecu ME (2011) Pleistocene-driven diversification in freshwater zooplankton: genetic patterns of refugial isolation and postglacial recolonization in Leptodora kindtii (Crustacea, Cladocera). Limnology & Oceanography, 56, 17251736.
  • Morgan K (1993) Development, sedimentation and economic potential of palaeoriver systems of the Yilgarn Craton of Western Australia. Sedimentary Geology, 85, 637656.
  • Moritz C (1994) Applications of mitochondrial DNA analysis in conservation: a critical review. Molecular Ecology, 3, 401411.
  • Morton SR, Smith DMS, Dickman CR et al. (2011) A fresh framework for the ecology of arid Australia. Journal of Arid Environments, 75, 313329.
  • Murphy NP, Austin CM (2004) Phylogeography of the widespread Australian freshwater prawn, Macrobrachium australiense (Decapoda, Palaemonidae). Journal of Biogeography, 31, 10651072.
  • Murphy NP, Adams M, Austin AD (2009) Independent colonization and extensive cryptic speciation of freshwater amphipods in the isolated groundwater springs of Australia's Great Artesian Basin. Molecular Ecology, 18, 109122.
  • Murphy NP, Breed MF, Guzik MT, Cooper SJB, Austin AD (2012) Trapped in desert springs: phylogeography of Australian desert spring snails. Journal of Biogeography., 39, 15731582.
  • Nguyen TTT, Austin CM, Meewan MM, Schultz MB, Jerry DR (2004) Phylogeography of the freshwater crayfish Cherax destructor Clark (Parastacidae) in inland Australia: historical fragmentation and recent range expansion. Biological Journal of the Linnean Society, 83, 5395.
  • Palmer MA, Reidy Liermann CA, Nilsson C, Flörke M, Alcamo J, Lake PS, Bond N (2008) Climate change and the world's river basins: anticipating management options. Frontiers in Ecology and the Environment, 6, 8189.
  • Perez KE, Ponder WF, Colgan DJ, Clark SA, Lydeard C (2005) Molecular phylogeny and biogeography of spring-associated hydrobiid snails of the Great Artesian Basin, Australia. Molecular Phylogenetics and Evolution, 34, 545556.
  • Pinder AM, Halse S, Shiel RJ, Mcrae JM (2010) An arid zone awash with diversity: patterns in the distribution of aquatic invertebrates in the Pilbara region of Western Australia. Records of the Western Australian Museum, 78, 205246.
  • Ponder W (2002) Desert springs of the Australian Great Artesian Basin. In: Conference Proceedings. Spring-fed Wetlands: Important Scientific and Cultural Resources of the Intermountain Region. (eds Sada DW, Sharpe SE), pp. 113. Las Vegas, NV. Available at: http://wetlands.dri.edu (accessed 5 April 2013).
  • Ponder W (2003) Endemic aquatic macro-invertebrates of artesian springs of the Great Artesian Basin — progress and future directions. Records of the South Australian Museum Monograph Series, 7, 101110.
  • Prescott JR, Habermehl M (2008) Luminescence dating of spring mound deposits in the southwestern Great Artesian Basin, northern South Australia. Australian Journal of Earth Sciences, 55, 167181.
  • Provan J, Bennett K (2008a) Phylogeographic insights into cryptic glacial refugia. Trends in Ecology & Evolution, 23, 564571.
  • Provan J, Bennett K (2008b) What do we mean by refugia? Quaternary Science Reviews, 27, 24492455.
  • Puckridge J, Sheldon F, Walker KF, Boulton A (1998) Flow variability and the ecology of large rivers. Marine and Freshwater Research, 49, 5572.
  • Rolston H III (1991) Fishes in the desert: paradox and responsibility. In: Battle Against Extinction: Native Fish Management in the American West (eds Minckley WL, Decon JE), pp. 93108. University of Arizona Press, Tuscon, USA.
  • Roshier DA, Robertson AI, Kingsford RT, Green DG (2001) Continental-scale interactions with temporary resources may explain the paradox of large populations of desert waterbirds in Australia. Landscape Ecology, 16, 547556.
  • Rull V (2009) Microrefugia. Journal of Biogeography, 36, 481484.
  • Sedell JR, Reeves GH, Hauer FR, Stanford JA, Hawkins CP (1990) Role of refugia in recovery from disturbances: modern fragmented and disconnected river systems. Environmental Management, 14, 711724.
  • Sheldon F, Bunn SE, Hughes JM, Arthington AH, Balcombe SR, Fellows CS (2010) Ecological roles and threats to aquatic refugia in arid landscapes: dryland river waterholes. Marine and Freshwater Research, 61, 885895.
  • Stanley EH, Fisher SG, Grimm NB (1997) Ecosystem expansion and contraction in streams. BioScience, 47, 427435.
  • Unmack PJ (2001a) Biogeography of Australian freshwater fishes. Journal of Biogeography, 28, 10531089.
  • Unmack PJ (2001b) Fish persistence and fluvial geomorphology in central Australia. Journal of Arid Environments, 49, 653669.
  • Van Der Graaff WJE, Crowe RWA, Bunting JA, Jackson MJ (1977) Relict Early Cainozoic drainages in arid Western Australia. Zeitschrift fir Geomorphologie, 21, 379400.
  • Veevers JJ (1984) Phanerozoic Earth History of Australia. Oxford University Press, Oxford.
  • Vörösmarty CJ, Mcintyre PB, Gessner MO et al. (2010) Global threats to human water security and river biodiversity. Nature, 467, 555561.
  • Wager R, Unmack PJ (2000) Fishes of the Lake Eyre Catchment of Central Australia. Queensland Department of Primary Industries, Queensland.
  • Weider LJ, Hobaek A (2003) Glacial refugia, haplotype distributions, and clonal richness of the Daphnia pulex complex in arctic Canada. Molecular Ecology, 12, 463473.
  • Wilson CC, Hebert PDN (1996) Phylogeographic origins of lake trout (Salvelinus namaycush) in eastern North America. Canadian Journal of Fisheries & Aquatic Sciences., 53, 27642775.
  • Woodward G, Perkins DM, Brown LE (2010) Climate change and freshwater ecosystems: impacts across multiple levels of organization. Philosophical Transactions of the Royal Society B: Biological Sciences, 365, 20932106.
  • Worthington Wilmer J, Elkin C, Wilcox C, Murray L, Niejalke D, Possingham H (2008) The influence of multiple dispersal mechanisms and landscape structure on population clustering and connectivity in fragmented artesian spring snail populations. Molecular Ecology, 17, 37333751.