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Landscape evolution in the Finke (Larapinta) river transverse drainage, Central Mountain Ranges, Australia

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EN
Abstrakty
EN
The cross-axial pattern of the Finke (Larapinta) River across the central ranges of Australia developed through a complex combination of processes including early planation; deep weathering (late Mesozoic/early Cainozoic); long-term stream impression; etchplanation; progressive aridity, leading to late (Pliocene and Quaternary) changes in fluvial flood regimen; all associated with regressive river erosion, stream capture, and/or epeirogenic movements. An early phase of etchplanation explains the development on easily weathered rocks of intramontane basins and strike valleys. Combined with stream impression, this process led to the superposing of the Finke and the Hugh Rivers across resistant rock units. The most unusual aspect of the Finke is a palimpsest, developed in the Krichauff Ranges, in which an ancient, relict gorge, is incised into a local planation surface (the Shoulder Surface), and preserved as paleomeander segments, in which the original quartzite gravel fill has been cemented with iron oxides and silica. The Shoulder Surface was subsequently more deeply incised by a later manifestation of the river to produce the meandering contemporary gorge that is intertwined with the relict one. The incision of the contemporary gorge occurred in association with the change in flood regimen, and involved either (1) prior aggradation of the incised paleomeandering stream to permit alluvial meandering across the Shoulder Surface and subsequent incision into it, or (2) headward recession of a knick point created where the Finke flowed from resistant sandstones into what are now the strike valleys of the James Ranges, from which weathered mantles had been removed by etchplanation processes.
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Tom
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9--44
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Bibliogr. 70 poz., rys.
Twórcy
  • Department of Hydrology and Atmospheric Sciences, The University of Arizona
Bibliografia
  • Alley N. F., 1998. Cainozoic stratigraphy, palaeoenvironments and geological evolution of the Lake Eyre Basin. Palaeogeography, Palaeoclimatology, Palaeoecology 144, 239–263.
  • Baker V.R., 1973. Paleohydrology and Sedimentology of Lake Missoula Flooding in Eastern Washington. Geological Society of America Special Paper 144, Boulder, Colorado, 1–79.
  • Baker V.R., 1977. Stream channel response to floods with examples from central Texas. Geological Society of America Bulletin 88, 1057–1070.
  • Baker V.R., 1986. Regional landforms analysis. [in:] N.M. Short, R.W. Blair Jr. (eds.), Geomorphology from space: a global overview of regional landforms. National Aeronautics and Space Administration Spec. Publication 486, Washington, D.C., 126.
  • Baker V.R., 2009. Channeled Scabland morphology. [in:] D.M. Burr, P.A. Carling, V.R. Baker (eds.), Megaflooding on Earth and Mars. Cambridge University Press, Cambridge, 65–77.
  • Baker V.R., Costa J.E., 1987. Flood power. [in:] L. Mayer, D. Nash (eds.), Catastrophic flooding. Allen and Unwin, London, 124.
  • Baker V.R., Ritter D.F., 1975. Competence of rivers to transport coarse bedload material. Geological Society of America Bulletin 86, 975–978.
  • Baker V.R., Penteado-Orellana M.M., 1977. Adjustment to Quaternary climatic change by the Colorado River in central Texas. Journal of Geology 85, 395–422.
  • Baker, V.R., Penteado-Orellana M.M., 1978. Fluvial sedimentation conditioned by Quaternary climatic change. Journal of Sedimentary Petrology 48, 433–451.
  • Baker V.R., Pickup G., Polach H.A., 1983. Desert paleofloods in central Australia. Nature 301, 502–504.
  • Baker V.R., Pickup G., Webb R.H., 1987. Paleoflood hydrologic analysis at ungagged sites, central and northern Australia. [in:] V.P Singh (ed.) Regional flood frequency analysis. D. Reidel, Boston, 325–338.
  • Bourke M.C., Pickup G., 1999. [in:] A.J. Miller, A. Gupta (eds.), Varieties of fluvial form. Wiley, New York, 249–271.
  • Braun J., 2010. The many surface expressions of mantle dynamics. Nature Geoscience 3, 825–833.
  • Bremer H., 1967. Zur Morphologie von Zentralaustralien. Heidelberger Geographische Arbeiten 17, 1–224.
  • Bremer H., 1975. Intramontane Ebenen, Prozesse der Flächenbildung. Zeitschrift für Geomorphologie, Supplement-Band 23, 26–48.
  • Büdel J., 1957. Die “Doppelten Einebnungsflächen” in den feuchten Tropen. Zeitschrift für Geomorphologie 1, 201–228.
  • Büdel J., 1982, Climatic Geomorphology. Princeton University Press, Princeton, (Translation of Büdel J., 1977, Klima-Geomorphologie. Gebrüder Borntraeger, Berlin).
  • Chen XY., Barton CE., 1991. Onset of aridity and dune-building in Central Australia: sedimentological and magnetostratigraphic evidence from Lake Amadeus. Palaeogeography, Palaeoclimatology, Palaeoecology 84, 55–71.
  • Daily B., Twidale C.R., Milnes A.R., 1974. The age of the lateritized summit surface on Kangaroo Island and adjacent areas of South Australia. Journal of the Geological Society of Australia 21, 387–392.
  • Fujioka T., Chappell J., 2010. History of Australian aridity: chronology in the evolution of arid landscapes. [in] P. Bishop, B. Pillans (eds.), Australian Landscapes. Geological Society, London, Special Publications 346, 121–139, DOI: 10.1144/SP346.8.
  • Fujioka T., Chappell J., Honda M., Yatsevich I., Fifield K., Fabel D., 2005. Global cooling initiated stony deserts in central Australia 2–4 Ma, dated by cosmogenic 21Ne–10Be. Geology 33, 993–996.
  • Fudali R.F., Milton D.J., Fredriksson K., Dube A., 1980. Morphology of Lonar Crater, India: Comparisons and implications. The Moon and the Planets 23, 493–515.
  • Haines P.W., Hand M., Sandiford M., 2010. Palaeozoic synorogenic sedimentation in central and northern Australia: A review of distribution and timing with implications for the evolution of intracontinental orogens. Australian Journal of Earth Sciences 48, 911–928.
  • Heimsath A.M., Chappell J., Fifield K., 2010. Eroding Australia: Rates and processes from Bega Valley to Arnhem Land. [in:] P. Bishop, P.B. Pillans (eds.), The evolution of arid landscapes. Geological Society, London, Special Publications 346, 225–241.
  • Idnurm M., Senior B.R., 1978. Palaeomagnetic ages of late Cretaceous and Tertiary weathered profiles in the Eromanga Basin, Queensland. Palaeogeography, Palaeoclimatology, Palaeoecolology 24, 263–277.
  • King L.C., 1950. The cyclic land surfaces of Australia. Proceedings of the Royal Society of Victoria 62, 79–95.
  • Lambeck K., 1983. Structure and evolution of the intracratonic basins of central Australia. Geophysical Journal of the Royal Astronomical Society 74, 843–865.
  • Lambeck K., 1984,. Structure and evolution of the Amadeus, Officer and Ngalia Basins of central Australia. Australian Journal of Earth Sciences 31, 25–48.
  • Mabbutt J.A., 1961. ‘Basal surface’ or ‘weathering front’. Proceedings of the Geologists Association of London 72, 357–358.
  • Mabbutt J.A., 1965. The weathered land surface in central Australia. Zeitschrift für Geomorphologie 9, 82–114.
  • Mabbutt J.A., 1966. Landforms of the western MacDonnell Ranges. [in:] G.H. Dury (ed.), Essays in Geomorphology. Heinemann, New York, 83–119.
  • Mabbutt J.A., 1978. Lessons from pediments. [in:] J.L. Davies, M.A. Williams (eds.), Landform Evolution in Australasia. Australian National University Press, Canberra, 331–47.
  • Machette M.N., 1989. Calcic soils of the southwestern United States. [in:] D.L. Weide (ed.), Soils and Quaternary geology of the southwestern United States. Geological Society of America Special Paper 203, 1–21.
  • Madigan C.T., 1931. The physiography of the western Macdonnell Ranges, central Australia. Geographical Journal 78, 417–433.
  • Martin H.A., 2006. Cenozoic climatic change and the development of arid vegetation in Australia. Journal of Arid Environments 66, 533–563.
  • Milnes A.R., Twidale C.R., 1983. Silicification in Cainozoic landscapes of arid Australia. Australian Journal of Soil Research 21, 387–410.
  • Milton D.J., Sutter J.F., 1987. Revised age for the Gosses Bluff Impact Structure, Northern Territory, Australia, based on 40Ar/39Ar dating. Meteoritics 22, 281–289.
  • Milton D.J., Brett P.R., Gilkson A.Y., 1976. Detailed Geological Map of Gosses Bluff, Northern Territory. Bureau of Mineral Resources, Canberra, A.C.T.
  • Milton D.J., Barlow B.C., Brett R., Brown A.R., Gilkson A.Y., Manwaring E.A., Moss F.J., Sedmik E.C.E., Van Son J., Young G.A., 1972. Gosses Bluff Impact Structure, Australia. Science 175, 1199–1207.
  • Oberlander T., 1965. The Zagros Streams. Syracuse Geographical Series 1, 1–168.
  • Oberlander T., 1985. Origin of transverse drainage to structures in orogens. [in:] M. Morisawa, J.T. Hack (eds.), Tectonic Geomorphology. Allen and Unwin, Boston, 155–182.
  • Ollier C.D., Galloway R.W., 1990. The laterite profile, ferricrete and unconformity. Catena 17, 97–109.
  • Pain C.F., Ollier C.D., 1995. Inversion of relief—a component of landscape evolution. Geomorphology 12, 151–165.
  • Pain C.F., Pillans B.J., Roach I.C., Worrall L., Wilford J.R., 2012. Old, flat and red – Australia’s distinctive landscape. [in:] R.S. Blewett (ed.), Shaping a nation: a geology of Australia. Geoscience Australia and Australian National University Press, Canberra, 226–275.
  • Patton P.C., Pickup G., Price D.M., 1993. Holocene paleofloods of the Ross River, central Australia. Quaternary Research 40, 201–212.
  • Pickup G., 1991. Event frequency and landscape stability on the floodplain systems of arid Central Australia. Quaternary Science Reviews 10, 463–473.
  • Pickup G., Allan G., Baker V.R., 1988. History, palaeochannels, and palaeofloods of the Finke River, central Australia. [in:] R.F. Warner (ed.), Fluvial geomorphology of Australia. Academic Press, Sydney, 177–200.
  • Pillans B., 2007. Pre-Quaternary landscape inheritance in Australia. Journal of Quaternary Science 22, 439–447.
  • Pillans B.J., 2018. Seeing Red: Some Aspects of the Geological and Climatic History of the Australian Arid Zone. [in:] H. Lambers (ed.), On the ecology of Australia’s arid zone. Springer, Cham, Switzerland, 5–43.
  • Quinlan T., Forman D.J., 1968. Hermannsburg, Northern Territory – 1:250,000 Geological Series. Bureau of Mineral Resources, Geology and Geophysics, Canberra, Explanatory Notes SF/53–13, 1–19.
  • Sandiford M., 2007. The tilting continent: a new constraint on the dynamic topographic field from Australia. Earth and Planetary Science Letters 261, 152–163.
  • Sandiford M., Quigley M., de Broekert P., Jakica S., 2009. Tectonic framework for the Cenozoic cratonic basins of Australia. Australian Journal of Earth Sciences 56, S5–S18.
  • Senior B.R., 1972. Cainozoic laterite and sediments in the Alcoota Sheet area, Northern Territory. Bureau of Mineral Resources of Australia Record No. 1972–47.
  • Senior B.R., Truswell E.M., Idnurm M., Shaw R.D., Warren R.G., 1995. Cainozoic sedimentary basins in the eastern Arunta Block, Alice Springs region. AGSO Journal of Australian Geology and Geophysics 14, 421–444.
  • Tooth S., 1999. Floodouts in central Australia. [in:] A.J. Miller, A. Gupta (eds.), Varieties of Fluvial Form. Wiley, New York, 229–247.
  • Twidale C.R., 1972. The neglected third dimension. Zeitschrift für Geomorphologie 6, 283–300.
  • Twidale C.R., 1994. Gondwanan (Late Jurassic and Cretaceous) paleosurfaces of the Australian craton. Palaeogeography, Palaeoclimatology, Palaeoecology 112, 157–186.
  • Twidale C.R., 1997. Persistent and ancient rivers–some Australian examples. Physical Geography 18, 291–317.
  • Twidale C.R., 2002. The two-stage concept of landform and landscape development involving etching: origin, development and implications of an idea. Earth-Science Reviews 57, 37–74.
  • Twidale C.R., 2004. River patterns and their meaning. Earth-Science Reviews 67, 159–218.
  • Twidale C.R., 2007. Ancient Australian Landscapes. Rosenberg, New South Wales, Australia.
  • Twidale C.R., 2010. Uluru (Ayers Rock) and Kata Tjuta (The Olgas): inselbergs of central Australia. [in:] P. Migoń (ed.), Geomorphological Landscapes of the World. Springer, Vienna, 321–332.
  • Twidale C.R., 2016. Enigmatic Mesozoic paleoforms revisited: the Australian experience. Earth-Science Reviews 155, 82–92.
  • Twidale C.R., Bourne J.A., 1996. Development of the land surface. [in:] M. Davies, C.R. Twidale, M.J. Tyler (eds.), Natural History of the Flinders Ranges. Royal Society of South Australia, Adelaide, 46–62.
  • Veevers J.J., Powell C.M., Roots S.R., 1991. Review of seafloor spreading around Australia. I. Synthesis of the patterns of spreading. Australian Journal of Earth Sciences 38, 373–389.
  • Ward L.K., 1925. Notes on the geological structure of central Australia. Transactions of the Royal Society of South Australia 49, 61–84.
  • Warren R.G., Shaw R.D., 1995. Hermannsburg, Northern Territory – 1:250,000 Geological Series. Northern Territory Geological Survey, Explanatory Notes SF 53–13, 1–81.
  • White M.E., 2000. Running Down: Water in a Changing Land. Kangaroo Press, Sydney, Australia.
  • Wopfner H., Twidale C.R., 1967. Geomorphological history of the Lake Eyre basin. [in:] J.N. Jennings, J.A. Mabbutt (eds.), Landform Studies from Australia and New Guinea. Australian National University Press, Canberra, 117–143.
  • https://en.wikipedia.org/wiki/List_of_rivers_by_age
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ba310ce6-d9b1-48db-9dee-cacf2641bee0
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