A comprehensive review of South Australia’s Great Artesian Basin spring and discharge wetlands biota
P. G. Beasley-Hall A B * , B. A. Hedges A , S. J. B. Cooper A B , A. D. Austin A B and M. T. Guzik A BA
B
Abstract
The Great Artesian Basin (GAB) feeds thousands of springs in Australia’s arid centre, supporting relictual species not found elsewhere on Earth. Springs are considerably threatened by ongoing water abstraction by industry. Robust management plans are needed to prevent further extirpations of GAB taxa, but fundamental biodiversity knowledge is lacking.
We aimed to characterise major organismal groups in South Australian GAB springs and surrounding wetlands, their conservation and taxonomic status, and potential biodiversity hotspots and connectivity of spring ecosystems.
Focusing on South Australia as a case study, we conducted a comprehensive review of GAB spring biota based on the published scientific and grey literature.
Almost 500 taxa have been recorded from GAB springs, the majority being invertebrates. Community composition is highly heterogeneous among spring clusters and the true extent of spring biodiversity is far greater than currently known.
GAB springs have intrinsic value as refugia for both endemics and cosmopolitan taxa. GAB invertebrates are poorly conserved and largely lacking in taxonomic knowledge. We highlight several potential biodiversity hotspots that have been overlooked in the literature.
Fundamental biodiversity information on the GAB is crucial for decision making in conservation management, for industry, and for Traditional Custodians.
Keywords: aquifers, mound springs, biodiversity, biogeography, Great Artesian Basin, groundwater-dependent ecosystems, springs.
References
Andersen M, Barron O, Bond N, Burrows R, Eberhard S, Emelyanova I, Fensham R, Froend R, Kennard M, Marsh N, Pettit N, Rossini R, Rutlidge R, Valdez D, Ward D (2016) Research to inform the assessment of ecohydrological responses to coal seam gas extraction and coal mining. (Department of the Environment and Energy, Commonwealth of Australia) Available at https://www.dcceew.gov.au/sites/default/files/documents/assessment-ecohydrological-responses.pdf
Arabana Aboriginal Corporation (2021) Submission to the inquiry into the destruction of 46,000-year-old caves at the Juukan Gorge in the Pilbara Region of Western Australia. (Commonwealth of Australia: Canberra, ACT Australia) Available at https://www.aph.gov.au/DocumentStore.ashx?id=41e65957-4b2f-4245-bc55-f0198241c6ce&subId=690905
Australian Government (2023) Australian place names. In ‘Australian Government Style Manual’. (Commonwealth of Australia) Available at https://www.stylemanual.gov.au/grammar-punctuation-and-conventions/names-and-terms/australian-place-names
Badman FJ (1985) Birds of the mound springs and bores, south and west of Lake Eyre, with special reference to the Coward Spring area. In ‘South Australia’s mound springs’. (Eds J Greenslade, L Joseph, L Reeves) pp. 84–92. (Nature Conservation Society of South Australia Inc., Hyde Park Press: Plympton, SA, Australia)
Beasley-Hall PG, Murphy NP, King RA, White NE, Hedges BA, Cooper SJB, Austin AD, Guzik MT (2023a) Time capsules of biodiversity: future research directions for groundwater-dependent ecosystems of the Great Artesian Basin. Frontiers in Environmental Science 10, 1021987.
| Crossref | Google Scholar |
Beasley-Hall PG, Hedges BA, Cooper SJB, Austin AD, Guzik MT (2023b) Database collating information on the fauna, flora, and funga of South Australia’s Great Artesian Basin springs. Dataset. (The University of Adelaide) doi:10.25909/24457105
Beasley-Hall PG, Hedges BA, Cooper SJB, Austin AD, Guzik MT (2023c) Species richness and endemicity rankings for each South Australian spring group. Dataset. (The University of Adelaide) doi:10.25909/24457120
Beasley-Hall PG, Hedges BA, Cooper SJB, Austin AD, Guzik MT (2024) A comprehensive review of South Australia’s Great Artesian Basin spring and discharge wetlands biota. bioRxiv 2023.10.29.564639 [Preprint, posted 16 July 2024].
| Crossref | Google Scholar |
Belbin L, Wallis E, Hobern D, Zerger A (2021) The Atlas of living Australia: history, current state and future directions. Biodiversity Data Journal 9, e65023.
| Crossref | Google Scholar | PubMed |
Brack W, Altenburger R, Schüürmann G, Krauss M, López Herráez D, van Gils J, Slobodnik J, Munthe J, Gawlik BM, van Wezel A, Schriks M, Hollender J, Tollefsen KE, Mekenyan O, Dimitrov S, Bunke D, Cousins I, Posthuma L, van den Brink PJ, López de Alda M, Barceló D, Faust M, Kortenkamp A, Scrimshaw M, Ignatova S, Engelen G, Massmann G, Lemkine G, Teodorovic I, Walz K-H, Dulio V, Jonker MTO, Jäger F, Chipman K, Falciani F, Liska I, Rooke D, Zhang X, Hollert H, Vrana B, Hilscherova K, Kramer K, Neumann S, Hammerbacher R, Backhaus T, Mack J, Segner H, Escher B, de Aragão Umbuzeiro G (2015) The SOLUTIONS project: challenges and responses for present and future emerging pollutants in land and water resources management. Science of The Total Environment 503–504, 22-31.
| Crossref | Google Scholar | PubMed |
Chao A, Gotelli N, Hsieh T, Sander E, Ma K, Colwell R, Ellison A (2014) Rarefaction and extrapolation with Hill numbers: a framework for sampling and estimation in species diversity studies. Ecological Monographs 84, 45-67.
| Crossref | Google Scholar |
Department of Climate Change, Energy, the Environment and Water (2023) Species profile and threats database. Available at http://www.environment.gov.au/cgi-bin/sprat/public/sprat.pl [Verified 26 April 2023]
Department of the Environment (2022) Species Profile and Threats Database: the community of native species dependent on natural discharge of groundwater from the Great Artesian Basin. (Australian Government Department of the Environment: Canberra, ACT, Australia) Available at https://www.environment.gov.au/cgi-bin/sprat/public/publicshowcommunity.pl?id=26
Fairfax RJ, Fensham RJ (2002) In the footsteps of J. Alfred Griffiths: a cataclysmic history of Great Artesian Basin Springs in Queensland, Australia. Australian Geographical Studies 40, 210-230.
| Crossref | Google Scholar |
Famiglietti JS (2014) The global groundwater crisis. Nature Climate Change 4, 945-948.
| Crossref | Google Scholar |
Fatchen TJ (2000) Mound springs management planning: management issues, strategies, and prescriptions for mound springs in Far North South Australia. Report prepared for the South Australian Department of Environment and Heritage with the support of the Natural Heritage Trust. (Government of South Australia: Adelaide, SA, Australia) Available at https://data.environment.sa.gov.au/Content/Publications/MoundSpringsManagementPlanning-FarNorthSA_2000.pdf
Fensham RJ, Laffineur B (2022) Response of spring wetlands to restored aquifer pressure in the Great Artesian Basin, Australia. Journal of Hydrology 612, 128152.
| Crossref | Google Scholar |
Fensham RJ, Price RJ (2004) Ranking spring wetlands in the Great Artesian Basin of Australia using endemicity and isolation of plant species. Biological Conservation 119, 41-50.
| Crossref | Google Scholar |
Fensham RJ, Ponder WF, Fairfax RJ (2010) Recovery plan for the community of native species dependent on natural discharge of groundwater from the Great Artesian Basin. Report to Department of the Environment, Water, Heritage and the Arts, Canberra, ACT, Australia. (Queensland Department of Environment and Resource Management: Brisbane, Qld, Australia) Available at https://www.dcceew.gov.au/sites/default/files/documents/great-artesian-basin-ec.pdf
Fensham RJ, Silcock JL, Powell O, Habermehl MA (2016) In search of lost springs: a protocol for locating active and inactive springs. Groundwater 54, 374-383.
| Crossref | Google Scholar |
Gotch TB, Adams M, Murphy NP, Austin AD (2008) A molecular systematic overview of wolf spiders associated with Great Artesian Basin springs in South Australia: evolutionary affinities and an assessment of metapopulation structure in two species. Invertebrate Systematics 22, 151-165.
| Crossref | Google Scholar |
Gotch T, Keppel M, Fels K, McKenzie J (2016) Lake Eyre Basin Springs Assessment: ecohydrological conceptual models of springs in the western Lake Eyre Basin, South Australia. DEWNR Technical report 2016/02, Government of South Australia, through Department of Environment, Water and Natural Resources, Adelaide, SA, Australia.
Great Artesian Basin Coordinating Committee (2019) Great Artesian Basin Strategic Management Plan 2019. (Department of Climate Change, Energy, the Environment and Water) Available at https://www.dcceew.gov.au/sites/default/files/documents/strategic-management-plan.pdf
Green G, Berens V (2013) Relationship between aquifer pressure changes and spring discharge rates. In ‘Allocating Water and Maintaining Springs in the Great Artesian Basin, Volume III: groundwater discharge of the western Great Artesian Basin’. pp. 101–114. (National Water Commission: Canberra, ACT, Australia)
Guzik MT, Adams MA, Murphy NP, Cooper SJB, Austin AD (2012) Desert springs: deep phylogeographic structure in an ancient endemic crustacean (Phreatomerus latipes). PLoS ONE 7, e37642.
| Crossref | Google Scholar | PubMed |
Guzik MT, Stringer DN, Murphy NP, Cooper SJB, Taiti S, King RA, Humphreys WF, Austin AD (2019) Molecular phylogenetic analysis of Australian arid-zone oniscidean isopods (Crustacea: Haloniscus) reveals strong regional endemicity and new putative species. Invertebrate Systematics 33, 556-574.
| Crossref | Google Scholar |
Habermehl MA (2020) Review: the evolving understanding of the Great Artesian Basin (Australia), from discovery to current hydrogeological interpretations. Hydrogeology Journal 28, 13-36.
| Crossref | Google Scholar |
Harris CR (1992) Mound springs: South Australian conservation initiatives. The Rangeland Journal 14, 157-173.
| Crossref | Google Scholar |
Harvey MS (1989) A review of the water mite family Anisitsiellidae in Australia (Acarina). Invertebrate Systematics 3, 629-646.
| Crossref | Google Scholar |
Hutchinson KJ, King KL (1980) The effects of sheep stocking level on invertebrate abundance, biomass and energy utilization in a temperate, sown Grassland. Journal of Applied Ecology 17, 369-387.
| Crossref | Google Scholar |
Keane D (1997) The sustainability of use of groundwater from the southwestern edge of the Great Artesian Basin, with particular reference to the impact on the mound springs of the borefields of Western Mining Corporation. Environmental Engineering Design thesis, RMIT University. Available at https://nuclear.foe.org.au/wp-content/uploads/Keane-Mound-Springs-97.pdf
Kerezsy A (2015) Development of a technique for quarantining Great Artesian Basin springs from colonisation by the invasive fish Eastern Gambusia (Gambusia holbrooki). Ecological Management & Restoration 16, 229-232.
| Crossref | Google Scholar |
King R (2009) Two new genera and species of chiltoniid amphipods (Crustacea: Amphipoda: Talitroidea) from freshwater mound springs in South Australia. Zootaxa 2293, 35-52.
| Crossref | Google Scholar |
King RA, Leys R (2014) Molecular evidence for mid-Pleistocene divergence of populations of three freshwater amphipod species (Talitroidea: Chiltoniidae) on Kangaroo Island, South Australia, with a new spring-associated genus and species. Australian Journal of Zoology 62, 137-156.
| Crossref | Google Scholar |
Kodric-Brown A, Wilcox C, Bragg JG, Brown JH (2007) Dynamics of fish in Australian desert springs: role of large-mammal disturbance. Diversity and Distributions 13, 789-798.
| Crossref | Google Scholar |
Kovac K-J (2003) Bird surveys at Dalhousie Springs. In ‘Expedition Witjira: Interim Report, 12–26 July 2003’. p. 30. (Scientific Expedition Group with National Parks and Wildlife and Department of Environment and Heritage, Unley, SA, Australia) Available at https://data.environment.sa.gov.au/Content/Publications/ExpeditionWitjira12-26July2003-BiodiversitySurveyMoundSprings-INTREPORT_2006.pdf
Kovac K-J, Mackay DA (2009) An experimental study of the impacts of cattle on spider communities of artesian springs in South Australia. Journal of Insect Conservation 13, 57-65.
| Crossref | Google Scholar |
Lewis S, Harris C (2020) Improving conservation outcomes for Great Artesian Basin springs in South Australia. The Proceedings of the Royal Society of Queensland 126, 271-287.
| Crossref | Google Scholar |
Mudd GM (2000) Mound springs of the Great Artesian Basin in South Australia: a case study from Olympic Dam. Environmental Geology 39, 463-476.
| Crossref | Google Scholar |
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, 109-122.
| Crossref | Google Scholar | PubMed |
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, 1573-1582.
| Crossref | Google Scholar |
Murphy NP, Adams M, Guzik MT, Austin AD (2013) Extraordinary micro-endemism in Australian desert spring amphipods. Molecular Phylogenetics and Evolution 66, 645-653.
| Crossref | Google Scholar | PubMed |
Murphy NP, Guzik MT, Cooper SJB, Austin AD (2015) Desert spring refugia: museums of diversity or evolutionary cradles? Zoologica Scripta 44, 693-701.
| Crossref | Google Scholar |
Noack D (1994) Date palms and the exotic flora of Dalhousie Springs. South Australian Geographical Journal 93, 81-89.
| Google Scholar |
Obura DO, Aeby G, Amornthammarong N, Appeltans W, Bax N, Bishop J, Brainard RE, Chan S, Fletcher P, Gordon TAC, Gramer L, Gudka M, Halas J, Hendee J, Hodgson G, Huang D, Jankulak M, Jones A, Kimura T, Levy J, Miloslavich P, Chou LM, Muller-Karger F, Osuka K, Samoilys M, Simpson SD, Tun K, Wongbusarakum S (2019) Coral reef monitoring, reef assessment technologies, and ecosystem-based management. Frontiers in Marine Science 6, 580.
| Crossref | Google Scholar |
Ordens CM, McIntyre N, Underschultz JR, Ransley T, Moore C, Mallants D (2020) Preface: advances in hydrogeologic understanding of Australia’s Great Artesian Basin. Hydrogeology Journal 28, 1-11.
| Crossref | Google Scholar |
Ponder WF, Hershler R, Jenkins BJ (1989) An endemic radiation of hydrobiid snails from artesian springs in northern South Australia: their taxonomy, physiology, distribution and anatomy. Malacologia 31, 1-140.
| Google Scholar |
Ponder WF, Eggler P, Colgan DJ (1995) Genetic differentiation of aquatic snails (Gastropoda: Hydrobiidae) from artesian springs in arid Australia. Biological Journal of the Linnean Society 56, 553-596.
| Crossref | Google Scholar |
Queensland Department of Regional Development, Manufacturing and Water (2023) Queensland’s plan to protect our Great Artesian Basin. ArcGIS StoryMaps. Available at https://storymaps.arcgis.com/stories/259e2ef480944f799fb2465ba2821877 [Verified 20 April 2023]
Queensland Government (2018) Springs database. Open Data Portal. Available at https://www.data.qld.gov.au/dataset/springs [Verified 1 May 2023]
Read JL (1997) Stranded on desert islands? Factors shaping animal populations in Lake Eyre South. Global Ecology and Biogeography Letters 6, 431-438.
| Crossref | Google Scholar |
Rossini RA (2020) Current state and reassessment of threatened species status of invertebrates endemic to Great Artesian Basin Springs. The Proceedings of the Royal Society of Queensland 126, 225-248.
| Crossref | Google Scholar |
Rossini RA, Fensham RJ, Stewart-Koster B, Gotch T, Kennard MJ (2018) Biogeographical patterns of endemic diversity and its conservation in Australia’s artesian desert springs. Diversity and Distributions 24, 1199-1216.
| Crossref | Google Scholar |
Saccò M, Guzik MT, van der Heyde M, Nevill P, Cooper SJB, Austin AD, Coates PJ, Allentoft ME, White NE (2022) eDNA in subterranean ecosystems: applications, technical aspects, and future prospects. Science of The Total Environment 820, 153223.
| Crossref | Google Scholar |
Sokol A (1987) Yabbies at Dalhousie Springs, northern South Australia: morphological evidence for long-term isolation. Transactions of the Royal Society of South Australia, Incorporated 111, 207-210.
| Google Scholar |
Vaughan H, Brydges T, Fenech A, Lumb A (2001) Monitoring long-term ecological changes through the ecological monitoring and assessment network: science-based and policy relevant. Environmental Monitoring and Assessment 67, 3-28.
| Crossref | Google Scholar | PubMed |
Vörös J (2017) Hunting the olm with eDNA. Herpetological Review 48, 266.
| Google Scholar |
West KM, Richards ZT, Harvey ES, Susac R, Grealy A, Bunce M (2020) Under the karst: detecting hidden subterranean assemblages using eDNA metabarcoding in the caves of Christmas Island, Australia. Scientific Reports 10, 21479.
| Crossref | Google Scholar | PubMed |