Thematische Bibliographien / Diapirs South Australia Flinders Ranges / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Diapirs South Australia Flinders Ranges“

Autor: Grafiati
Veröffentlicht am 4. Juni 2021
Zuletzt aktualisiert am 1. Februar 2022

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1

Reilly, M. R. W., and S. C. Lang. "A PONDED BASIN FLOOR FAN OUTCROP ANALOGUE: BUNKERS SANDSTONE, NORTHERN FLINDERS RANGES, AUSTRALIA." APPEA Journal 43, no. 1 (2003): 537. http://dx.doi.org/10.1071/aj02028.

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The Donkey Bore Syncline in the Northern Flinders Ranges of South Australia contains a generally finegrained deepwater succession of Early Cambrian age (Bunkers Sandstone) that outcrops on three sides of a syncline and flanks an active salt diapir to the east (Wirrealpa Diapir). Within the succession lies a basal sand-prone interval interpreted as a basin floor fan (BFF) ponded within a mini-basin on a topographically complex slope.The BFF comprises over 30 m of section with deposits that are dominantly massive clean sandstone beds (0.1– 3 m thick) that are stacked or interbedded with siltston
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2

Backé, Guillaume, Graham Baines, David Giles, Wolfgang Preiss, and Andrew Alesci. "Basin geometry and salt diapirs in the Flinders Ranges, South Australia: Insights gained from geologically-constrained modelling of potential field data." Marine and Petroleum Geology 27, no. 3 (March 2010): 650–65. http://dx.doi.org/10.1016/j.marpetgeo.2009.09.001.

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3

Fernandes, Blaise I. L., Kathryn J. Amos, Tobias H. D. Payenberg, and Simon Lang. "An outcrop analogue for deepwater salt withdrawal mini-basins: lateral and vertical variations in basin-fill." APPEA Journal 58, no. 2 (2018): 809. http://dx.doi.org/10.1071/aj17200.

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Mini-basins are well known targets for petroleum exploration as they can contain significant hydrocarbon reserves, such as in the Gulf of Mexico. Though mini-basins have been studied before, their reservoir rock distributions remain poorly predictable. This is especially the case where mini-basins are near salt-diapirs. The Donkey Bore Syncline in the Flinders Ranges, South Australia, presents an excellently exposed deepwater mini-basin reservoir analogue. Detailed outcrop study, including vertical and lateral logged sections presented here, shed considerable light on the depositional system,
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4

Vidal‐Royo, Oskar, Mark G. Rowan, Oriol Ferrer, Mark P. Fischer, J. Carl Fiduk, David P. Canova, Thomas E. Hearon, and Katherine A. Giles. "The transition from salt diapir to weld and thrust: Examples from the Northern Flinders Ranges in South Australia." Basin Research 33, no. 5 (June 23, 2021): 2675–705. http://dx.doi.org/10.1111/bre.12579.

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5

Snow, Michael R., Allan Pring, and Nicole Allen. "Minerals of the Wooltana Cave, Flinders Ranges, South Australia." Transactions of the Royal Society of South Australia 138, no. 2 (January 2014): 214–30. http://dx.doi.org/10.1080/03721426.2014.11649009.

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6

Groves, I. M., C. E. Carman, and W. J. Dunlap. "Geology of the Beltana Willemite Deposit, Flinders Ranges, South Australia." Economic Geology 98, no. 4 (June 1, 2003): 797–818. http://dx.doi.org/10.2113/gsecongeo.98.4.797.

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7

Lemon, N. M. "A Neoproterozoic fringing stromatolite reef complex, Flinders Ranges, South Australia." Precambrian Research 100, no. 1-3 (March 2000): 109–20. http://dx.doi.org/10.1016/s0301-9268(99)00071-6.

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8

Walshe, Keryn. "Aboriginal occupation at Hawker Lagoon, southern Flinders Ranges, South Australia." Australian Archaeology 60, no. 1 (January 2005): 24–33. http://dx.doi.org/10.1080/03122417.2005.11681801.

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9

Woon, E., and M. W. Wallace. "Petrogenesis of Neoproterozoic Allochthonous Reef Carbonates, Flinders Ranges, South Australia." ASEG Extended Abstracts 2006, no. 1 (December 2006): 1–4. http://dx.doi.org/10.1071/aseg2006ab198.

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10

Jago, J. B., J. G. Gehling, M. J. Betts, G. A. Brock, C. R. Dalgarno, D. C. García-Bellido, P. G. Haslett, et al. "The Cambrian System in the Arrowie Basin, Flinders Ranges, South Australia." Australian Journal of Earth Sciences 67, no. 7 (December 11, 2018): 923–48. http://dx.doi.org/10.1080/08120099.2018.1525431.

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11

Liddle, Nerida R., Matthew C. McDowell, and Gavin J. Prideaux. "Insights into the pre-European mammalian fauna of the southern Flinders Ranges, South Australia." Australian Mammalogy 40, no. 2 (2018): 262. http://dx.doi.org/10.1071/am17035.

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Many Australian mammal species have suffered significant declines since European colonisation. During the first century of settlement, information on species distribution was rarely recorded. However, fossil accumulations can assist the reconstruction of historical distributions. We examine a fossil vertebrate assemblage from Mair’s Cave, one of few known from the southern Flinders Ranges, South Australia. The Mair’s Cave assemblage was dominated by mammals but also included birds and reptiles. Of the 18 mammals recovered, two have not previously been recorded from the southern Flinders Ranges
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12

Cooke, B. D., and L. P. Hunt. "Practical and economic aspects of rabbit control in hilly semiarid South Australia." Wildlife Research 14, no. 2 (1987): 219. http://dx.doi.org/10.1071/wr9870219.

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Poisoning, ripping of warrens and a combination of both techniques were assessed as means of controlling rabbits in steep areas of the southern Flinders Ranges in semiarid South Australia. The number of active warren entrances was reduced significantly by poisoning and by ripping. One month after treatment, untreated plots contained an average of 72.2 active entrances whereas the poisoned and ripped plots averaged 27.1 and 7.3 active entrances, respectively. A combination of both techniques reduced the number of active warren entrances even further, but this is not recommended because it incre
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13

Mahoney, J. A., M. J. Smith, and G. C. Medlin. "A new species of hopping-mouse, Notomys robustus sp. Nov. (Rodentia : Muridae), from cave deposits in the Flinders and Davenport Ranges, South Australia." Australian Mammalogy 29, no. 2 (2007): 117. http://dx.doi.org/10.1071/am07017.

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Notomys robustus sp. nov. is described from skulls found in whole and decomposed owl pellets from caves at Chambers Gorge in the Flinders Ranges, South Australia. The holotype was contained within a complete owl pellet, as were several paratypes. The species is distinguished by the unique conformation of the cusps of the upper first molar teeth. In adults, the anterodorsal region of the zygomatic arch is much wider than in any known species of Notomys. Since the original discoveries were made in 1976, the species has been found in more sites in the Flinders Ranges and at one other site near Mo
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14

Ahmed, Alaa, and Ian Clark. "Groundwater flow and geochemical evolution in the Central Flinders Ranges, South Australia." Science of The Total Environment 572 (December 2016): 837–51. http://dx.doi.org/10.1016/j.scitotenv.2016.07.123.

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15

FULLER, MARGARET, and RICHARD JENKINS. "REEF CORALS FROM THE LOWER CAMBRIAN OF THE FLINDERS RANGES, SOUTH AUSTRALIA." Palaeontology 50, no. 4 (July 2007): 961–80. http://dx.doi.org/10.1111/j.1475-4983.2007.00682.x.

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16

Giddings, J. A., M. W. Wallace, and E. M. S. Woon. "Interglacial carbonates of the Cryogenian Umberatana Group, northern Flinders Ranges, South Australia." Australian Journal of Earth Sciences 56, no. 7 (October 2009): 907–25. http://dx.doi.org/10.1080/08120090903005378.

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17

Chamalaun, F. H. "Geomagnetic deep sounding experiment in the central Flinders Ranges of South Australia." Physics of the Earth and Planetary Interiors 37, no. 2-3 (February 1985): 174–82. http://dx.doi.org/10.1016/0031-9201(85)90050-0.

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18

Gehling, James G., and J. Keith Rigby. "Long expected sponges from the Neoproterozoic Ediacara fauna of South Australia." Journal of Paleontology 70, no. 2 (March 1996): 185–95. http://dx.doi.org/10.1017/s0022336000023283.

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New fossils from the Neoproterozoic Ediacara fauna of South Australia are interpreted as the oldest known hexactinellid sponges. They occur within the Ediacara Member of the Rawnsley Quartzite (Pound Subgroup) from several locations in the Flinders Ranges. The new genus,Palaeophragmodictya, is characterized by disc-shaped impressions preserving characteristic spicular networks and is reconstructed as a convex sponge with a peripheral frill and an oscular disc at the apex.
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19

DONNELLAN, S., M. ANSTIS, L. PRICE, and L. WHEATON. "A new species of Crinia (Anura: Myobatrachidae) from the Flinders Ranges, South Australia." Zootaxa 3499, no. 1 (September 27, 2012): 1. http://dx.doi.org/10.11646/zootaxa.3499.1.1.

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We describe, as a new species, the northern Flinders Ranges populations of the myobatrachid frog Crinia riparia. It isdistinguished from C. riparia sensu stricto on the basis of reciprocal monophyly of mitochondrial genes, absence ofhaplotype sharing in a nuclear gene, fixed differences in allozyme loci and differences in larval oral disc morphologyconsistent with less adaptation to stream habitats. We were not able to reliably distinguish the taxa on the basis of adultmorphology. The geographic range of C. riparia sensu stricto is now reduced to a 75 kilometre section of the southernFlinders
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20

Mildren, S. D., and M. Sandiford. "Heat refraction and low‐pressure metamorphism in the northern Flinders Ranges, South Australia." Australian Journal of Earth Sciences 42, no. 3 (June 1995): 241–47. http://dx.doi.org/10.1080/08120099508728198.

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21

Williams, Martin, John R. Prescott, John Chappell, Donald Adamson, Bryan Cock, Keith Walker, and Peter Gell. "The enigma of a late Pleistocene wetland in the Flinders Ranges, South Australia." Quaternary International 83-85 (September 2001): 129–44. http://dx.doi.org/10.1016/s1040-6182(01)00035-0.

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22

Stobo-Wilson, Alyson M., Robert Brandle, Christopher N. Johnson, and Menna E. Jones. "Management of invasive mesopredators in the Flinders Ranges, South Australia: effectiveness and implications." Wildlife Research 47, no. 8 (2020): 720. http://dx.doi.org/10.1071/wr19237.

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Abstract ContextSignificant resources have been devoted to the control of introduced mesopredators in Australia. However, the control or removal of one pest species, such as, for example, the red fox (Vulpes vulpes), may inadvertently benefit other invasive species, namely feral cats (Felis catus) and rabbits (Oryctolagus cuniculus), potentially jeopardising native-species recovery. AimsTo (1) investigate the impact of a large-scale, long-term fox-baiting program on the abundance of foxes, feral cats and introduced and native prey species in the Flinders Ranges, South Australia, and (2) determ
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23

KALLIES, AXEL, and TED EDWARDS. "A new sun moth species from the Flinders Ranges in South Australia (Lepidoptera, Castniidae)." Zootaxa 4369, no. 2 (January 3, 2018): 292. http://dx.doi.org/10.11646/zootaxa.4369.2.9.

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Sun moths (Castniidae) constitute a small family of day-flying butterfly-like moths that have their centers of diversity in South America and Australia. Here we describe a new castniid from the Finders Ranges, South Australia. Synemon arkaroola spec. nov. is similar and related to Synemon brontias Meyrick, 1891 but differs by a number of external and genitalic characters, including the extensive bright orange markings on the hindwings. The new species inhabits dry creek beds and adjacent slopes where the hostplant, Scented Lemon Grass, Cymbopogon ambiguus (Hack.) A. Camus (Poaceae), grows.
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24

Rowan, M. G., T. E. Hearon IV, R. A. Kernen, K. A. Giles, C. E. Gannaway-Dalton, N. J. Williams, J. C. Fiduk, T. F. Lawton, P. T. Hannah, and M. P. Fischer. "A review of allochthonous salt tectonics in the Flinders and Willouran ranges, South Australia." Australian Journal of Earth Sciences 67, no. 6 (February 10, 2019): 787–813. http://dx.doi.org/10.1080/08120099.2018.1553063.

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25

Lafuste, Jean, Françoise Debrenne, Anna Gandin, and David Gravestock. "The oldest tabulate coral and the associated archaeocyatha, Lower Cambrian, Flinders Ranges, South Australia." Geobios 24, no. 6 (January 1991): 697–718. http://dx.doi.org/10.1016/s0016-6995(06)80298-6.

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26

Thomas, Matilda, Jonathan D. A. Clarke, Victor A. Gostin, George E. Williams, and Malcolm R. Walter. "The Flinders Ranges and surrounds, South Australia: a window on astrobiology and planetary geology." Episodes 35, no. 1 (March 1, 2012): 226–35. http://dx.doi.org/10.18814/epiiugs/2012/v35i1/022.

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27

Holden, C., and G. Mutze. "Impact of rabbit haemorrhagic disease on introduced predators in the Flinders Ranges, South Australia." Wildlife Research 29, no. 6 (2002): 615. http://dx.doi.org/10.1071/wr00101.

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The impact of rabbit haemorrhagic disease (RHD) on the population dynamics and diet of foxes and feral cats was studied in the Flinders Ranges, South Australia. Populations of both foxes and cats decreased substantially some 6–10 months after the advent of RHD, when rabbit numbers were reduced by 85%. The diet of foxes changed as a result of reduced rabbit numbers, with much less rabbit and more invertebrates and carrion being eaten. The physical condition of foxes showed little change after RHD. The diet of cats did not change markedly, but their physical condition was substantially poorer th
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28

Jell, P. A., J. B. Jago, and J. G. Gehling. "A new conocoryphid trilobite from the Lower Cambrian of the Flinders Ranges, South Australia." Alcheringa: An Australasian Journal of Palaeontology 16, no. 3 (January 1992): 189–200. http://dx.doi.org/10.1080/03115519208619118.

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29

Brugger, Joël, Ngaire Long, D. C. McPhail, and Ian Plimer. "An active amagmatic hydrothermal system: The Paralana hot springs, Northern Flinders Ranges, South Australia." Chemical Geology 222, no. 1-2 (October 2005): 35–64. http://dx.doi.org/10.1016/j.chemgeo.2005.06.007.

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30

Handley, Heather K., Simon P. Turner, Anthony Dosseto, David Haberlah, and Juan C. Afonso. "Considerations for U-series dating of sediments: Insights from the Flinders Ranges, South Australia." Chemical Geology 340 (February 2013): 40–48. http://dx.doi.org/10.1016/j.chemgeo.2012.12.003.

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31

Betts, Marissa J., Timothy P. Topper, James L. Valentine, Christian B. Skovsted, John R. Paterson, and Glenn A. Brock. "A new early Cambrian bradoriid (Arthropoda) assemblage from the northern Flinders Ranges, South Australia." Gondwana Research 25, no. 1 (January 2014): 420–37. http://dx.doi.org/10.1016/j.gr.2013.05.007.

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32

Eickhoff, K. H., C. C. Von Der Borch, and A. E. Grady. "Proterozoic canyons of the Flinders Ranges (South Australia): submarine canyons or drowned river valleys?" Sedimentary Geology 58, no. 2-4 (August 1988): 217–35. http://dx.doi.org/10.1016/0037-0738(88)90070-x.

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33

Yu, B., and CJ Rosewell. "Rainfall erosivity estimation using daily rainfall amounts for South Australia." Soil Research 34, no. 5 (1996): 721. http://dx.doi.org/10.1071/sr9960721.

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The rainfall erosivity model relating storm erosivity to daily rainfall amounts was tested for 4 sites in South Australia where seasonal rainfall erosivity is generally out of phase with seasonal rainfall because of the predominant winter rainfall. The model worked reasonably well, with the coefficient of efficiency varying from 0.54 to 0.77, and the average discrepancy between actual and estimated monthly distribution was no more than 3%. The model performance in the winter rainfall area is similar to that in the uniform and summer rainfall areas. A set of regional parameter values estimated
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34

Sandiford, Mike, Eike Paul, and Thomas Flottmann. "Sedimentary thickness variations and deformation intensity during basin inversion in the Flinders Ranges, South Australia." Journal of Structural Geology 20, no. 12 (December 1998): 1721–31. http://dx.doi.org/10.1016/s0191-8141(98)00088-1.

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35

Jago, J. B., C. G. Gatehouse, C. McA Powell, T. Casey, and E. M. Alexander. "The Dawson Hill Member of the Grindstone Range Sandstone in the Flinders Ranges, South Australia." Transactions of the Royal Society of South Australia 134, no. 1 (January 2010): 115–24. http://dx.doi.org/10.1080/3721426.2010.10887135.

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36

Schmallegger, Doris, Andrew Taylor, and Dean Carson. "Rejuvenating Outback Tourism through Market Diversification: the Case of the Flinders Ranges in South Australia." International Journal of Tourism Research 13, no. 4 (May 24, 2011): 384–99. http://dx.doi.org/10.1002/jtr.851.

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37

Quigley, Mark, Mike Sandiford, and Matt Cupper. "Landscape expressions of late Quaternary climate change and large flood events, Flinders Ranges, South Australia." ASEG Extended Abstracts 2006, no. 1 (December 2006): 1–2. http://dx.doi.org/10.1071/aseg2006ab144.

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38

Lubiniecki, D. C., R. C. King, S. P. Holford, M. A. Bunch, S. B. Hore, and S. M. Hill. "Cenozoic structural evolution of the Mount Lofty Ranges and Flinders Ranges, South Australia, constrained by analysis of deformation bands." Australian Journal of Earth Sciences 67, no. 8 (February 9, 2020): 1097–115. http://dx.doi.org/10.1080/08120099.2019.1695227.

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39

Hornsby, PE, and EY Corlett. "Differential responses by sympatric macropodids to severe drought." Australian Mammalogy 26, no. 2 (2004): 185. http://dx.doi.org/10.1071/am04185.

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Responses to severe drought by two sympatric macropodids, the yellow-footed rock-wallaby (Petrogale xanthopus) and the euro (Macropus robustus erubescens) were examined at a site in the North Flinders Ranges of South Australia. The results indicate that the two species respond differentially to drought conditions. It was observed that small fluctuations occurred in the P. xanthopus population. In contrast, M. r. erubescens evidenced significant mortality, especially among larger animals.
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40

Haberlah, David. "Loess and floods: late Pleistocene fine-grained valley-fill deposits in the Flinders Ranges, South Australia." Quaternary International 279-280 (November 2012): 183. http://dx.doi.org/10.1016/j.quaint.2012.08.288.

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41

Rajabi, Mojtaba, Mark Tingay, Oliver Heidbach, David Belton, Natalie Balfour, and Betina Bendall. "New constraints on the neotectonic stress pattern of the Flinders and Mount Lofty Ranges, South Australia." Exploration Geophysics 49, no. 1 (February 2018): 111–24. http://dx.doi.org/10.1071/eg16076.

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42

Rajabi, Mojtaba, Mark Tingay, Oliver Heidbach, David Belton, Natalie Balfour, and Betina Bendall. "New constraints on the neotectonic stress pattern of the Flinders and Mount Lofty Ranges, South Australia." Exploration Geophysics 49, no. 1 (February 2018): 125. http://dx.doi.org/10.1071/eg16076_co.

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43

Coutts, Felicity J., James G. Gehling, and Diego C. García-Bellido. "How diverse were early animal communities? An example from Ediacara Conservation Park, Flinders Ranges, South Australia." Alcheringa: An Australasian Journal of Palaeontology 40, no. 4 (October 1, 2016): 407–21. http://dx.doi.org/10.1080/03115518.2016.1206326.

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44

Skovsted, Christian B., Glenn A. Brock, Anna Lindström, John S. Peel, John R. Paterson, and Margaret K. Fuller. "Early Cambrian record of failed durophagy and shell repair in an epibenthic mollusc." Biology Letters 3, no. 3 (April 3, 2007): 314–17. http://dx.doi.org/10.1098/rsbl.2007.0006.

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Predation is arguably one of the main driving forces of early metazoan evolution, yet the fossil record of predation during the Ediacaran–Early Cambrian transition is relatively poor. Here, we present direct evidence of failed durophagous (shell-breaking) predation and subsequent shell repair in the Early Cambrian (Botoman) epibenthic mollusc Marocella from the Mernmerna Formation and Oraparinna Shale in the Flinders Ranges, South Australia. This record pushes back the first appearance of durophagy on molluscs by approximately 40 Myr.
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45

Hearon, Thomas E., Mark G. Rowan, Timothy F. Lawton, Patrick T. Hannah, and Katherine A. Giles. "Geology and tectonics of Neoproterozoic salt diapirs and salt sheets in the eastern Willouran Ranges, South Australia." Basin Research 27, no. 2 (May 20, 2014): 183–207. http://dx.doi.org/10.1111/bre.12067.

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46

Ahmed, Alaa, Abdullah Alrajhi, and Abdulaziz S. Alquwaizany. "Identification of Groundwater Potential Recharge Zones in Flinders Ranges, South Australia Using Remote Sensing, GIS, and MIF Techniques." Water 13, no. 18 (September 17, 2021): 2571. http://dx.doi.org/10.3390/w13182571.

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In Australia, water resource management is a major environmental, biological, and socio-economic issue, and will be an essential component of future development. The Hawker Area of the central Flinders Ranges, South Australia suffers from a lack of reliable data to help with water resource management and decision making. The present study aimed to delineate and assess groundwater recharge potential (GWRP) zones using an integration between the remote sensing (RS), geographic information system (GIS), and multi-influencing factors (MIF) approaches in the Hawker Area of the Flinders Ranges, Sout
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47

Read, J., P. Copley, and P. Bird. "The distribution, ecology and current status of Pseudomys desertor in South Australia." Wildlife Research 26, no. 4 (1999): 453. http://dx.doi.org/10.1071/wr97051.

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Recent surveys have shown that the desert mouse (Pseudomys desertor), which was once considered to be rare in South Australia, is relatively widespread throughout the north-west of the State. However, historical localities in the Flinders Ranges and Nullarbor Plain were not matched with contemporary records, suggesting a range contraction to the central desert regions. Habitat preferences were determined from 78 captures at 41 sites, which revealed that samphire, sedge and nitrebush habitats, along with spinifex grassland, were favoured. A high tolerance to high rabbit numbers, mining activity
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48

Balfour, N. J., P. R. Cummins, S. Pilia, and D. Love. "Localization of intraplate deformation through fluid-assisted faulting in the lower-crust: The Flinders Ranges, South Australia." Tectonophysics 655 (August 2015): 97–106. http://dx.doi.org/10.1016/j.tecto.2015.05.014.

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49

Bourne, J. A., R. Hillis, M. Rutty, and C. R. Twidale. "Fan, fill or covered pediment? Seismic investigation of alluvial cover thickness, Hayward ``Pediment'', Flinders Ranges, South Australia." Zeitschrift für Geomorphologie 46, no. 2 (July 3, 2002): 193–201. http://dx.doi.org/10.1127/zfg/46/2002/193.

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Kernen, R. A., K. A. Giles, P. L. Poe, C. E. Gannaway Dalton, M. G. Rowan, J. C. Fiduk, and T. E. Hearon. "Origin of the Neoproterozoic rim dolomite as lateral carbonate caprock, Patawarta salt sheet, Flinders Ranges, South Australia." Australian Journal of Earth Sciences 67, no. 6 (April 23, 2019): 815–32. http://dx.doi.org/10.1080/08120099.2019.1588695.

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