East Australia hotspot
The East Australia hotspot (which is now believed by some scientists to represent multiple hotspots including a southwestern Cosgrove hotspot) is a volcanic province in southeast Australia which includes the Peak Range in central Queensland, the Main Range on the Queensland-New South Wales border, Tweed Volcano in New South Wales, and the Newer Volcanics Province (NVP) in Victoria and South Australia. A number of the volcanoes in the province have erupted since Aboriginal settlement (46,000 BP). The most recent eruptions were about 5,600 years ago, and memories of them survive in Aboriginal folklore. These eruptions formed the volcanoes Mount Schank and Mount Gambier in the NVP. There have been no eruptions on the Australian mainland since European settlement.
Unlike most hotspots, the East Australia hotspot has had explosive eruptions similar to the runny lava flows of the Hawaii hotspot, the Iceland hotspot and the Réunion hotspot. The hotspot is thought to be explosive because basaltic magma interacts with groundwater in aquifers below the surface producing violent phreatomagmatic eruptions.[1]
The cause of volcanism in the area is uncertain. Theories typically fall into one of two categories: the mantle plume theory and the plate theory. On the basis of the long duration of volcanic activity, its vast lateral extent, geochemistry of lavas, and seismic data, it has been proposed that the region is underlain by one or more deep mantle plumes which have forced magma up through points of weakness in the Indo-Australian Plate as it has moved northward over the source.[2][3][4][5]
The lack of clear age progression across the province and the orientation of the NVP, which is orthogonal to plate motion, are inconsistent with a single plume model.[1] Furthermore, seismic anomalies terminate at a depth of around 200 km, making the presence of a mantle plume unlikely.[6] However subsections of the province such as the bimodal Central Volcanoes have definite linear age progression on the Hillsborourgh to Buckland linement and the Fraser to Comboyne linement.[7] Similarly the Cenozoic leucitite volcanics of eastern Australia, some of which are under thicker continental crust than the coastal volcanics, are progressively younger towards the south, from Byrock in northern NSW to Cosgrove in northern Victoria. This is now interpreted as the Crosgove hotspot and has been extended southward to the Macedon-Trentham central volcano and the Newer Volcanics Province lava field in Victoria.[7]
Various tectonic causes have been proposed. Some studies have argued that volcanic activity results from a combination of edge-driven convection (small-scale, shallow mantle convection caused by a change in lithospheric thickness at the continental margin where thick continental lithosphere meets thinner oceanic lithosphere) and decompression of the crust from normal faulting caused by plate stresses.[1][6] Another view is that extension from stresses brought about by changes in plate boundary configurations has caused severe lithospheric thinning resulting in decompression melting of the asthenosphere.[8] Both of these models invoke shallow processes closely related to the operation of plate tectonics and so fall under the plate theory.[9][10] Other models combine both plume and plate-tectonic processes.[11][12][13] A 2022 synthesis, based on age and composition, suggests three different processes exist for the Cenozoic volcanoes found in eastern Australia and some are not hot spot volcanoes:[7]
- Oceanic type, high volume, age-progressive volcanism from deep mantle plume(s)
- Continental, age progressive volcanism some from the same plume(s) mixed with different melts
- Continental, low volume, non-age-progressive volcanism related to passive melting.
See also
[edit]References
[edit]- ^ a b c Cas, R.A.F.; van Otterloo, J.; Blaikie, T.N.; van den Hove, J. (2017). "The dynamics of a very large intra-plate continental basaltic volcanic province, the Newer Volcanics Province, SE Australia, and implications for other provinces". In Németh, K.; Carrasco-Núñez, G.; Aranda-Gómez, J.J.; Smith, I.E.M. (eds.). Monogenetic volcanism. Geological Society, London, Special Publications, 446. Vol. 446. Geological Society of London. pp. 123–172. doi:10.1144/SP446.8. S2CID 132586800.
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ignored (help) - ^ Sutherland, F.L. (1991). "Cainozoic volcanism, Eastern Australian: a predictive model on migration over multiple 'hotspot' magma sources". In DeDeckker, P.; Kershaw, A.P. (eds.). The Cainozoic in Australia: A re-appraisal of the evidence. Geological Society of Australia, Special Publications, 18. Geological Society of Australia. pp. 15–43. ISBN 0-909869-76-6.
- ^ Graeber, F.M.; Houseman, G.A.; Greenhalgh, S.A. (2002). "Regional teleseismic tomography of the western Lachlan Orogen and the Newer Volcanic Province, southeast Australia". Geophysical Journal International. 149 (2): 249–266. Bibcode:2002GeoJI.149..249G. doi:10.1046/j.1365-246X.2002.01598.x.
- ^ Montelli, R.; Nolet, G.; Dahlen, F.A.; Masters, G. (2006). "A catalogue of deep mantle plumes: New results from finite-frequency tomography". Geochemistry, Geophysics, Geosystems. 7 (11): n/a. Bibcode:2006GGG.....711007M. doi:10.1029/2006GC001248.
- ^ Jones, I.; Verdel, C. (2015). "Basalt distribution and volume estimates of Cenozoic volcanism in the Bowen Basin region of eastern Australia: Implications for a waning mantle plume". Australian Journal of Earth Sciences. 62 (2): 255–263. Bibcode:2015AuJES..62..255J. doi:10.1080/08120099.2015.997796. S2CID 129289137.
- ^ a b Davies, D.R.; Rawlinson, N. (2014). "On the origin of recent intraplate volcanism in Australia". Geology. 42 (12): 1031–1034. Bibcode:2014Geo....42.1031D. doi:10.1130/G36093.1.
- ^ a b c Douglas (Smethurst), Amelia (2022). The East Australian, Tasmantid and Lord Howe volcanoes : exploring the origins of three, contemporaneous, parallel chains of volcanism. (PhD thesis and appendix) (Thesis). doi:10.7488/era/2805. Retrieved 30 March 2023.
- ^ Aivazpourporgou, S.; Thiel, S.; Hayman, P.C.; Moresi, L.N.; Heinson, G. (2015). "Decompression melting driving intraplate volcanism in Australia: Evidence from magnetotelluric sounding". Geophysical Research Letters. 42 (2): 346–354. Bibcode:2015GeoRL..42..346A. doi:10.1002/2014GL060088.
- ^ Foulger, G.R.; Natland, J.H. (2003). "Is "hotspot" volcanism a consequence of plate tectonics?". Science. 300 (5621): 921–922. doi:10.1126/science.1083376. PMID 12738845. S2CID 44911298.
- ^ Foulger, G.R. (2007). "The 'plate' model for the genesis of melting anomalies". In Foulger, G.R.; Jurdy, D.M. (eds.). Plates, plumes, and planetary processes: Geological Society of America Special Paper 430. The Geological Society of America. pp. 1–28. ISBN 978-0813724300.
- ^ Holt, S.J.; Holford, S.P.; Foden, J. (2014). "New insights into the magmatic plumbing system of the South Australian Quaternary Basalt province from 3D seismic and geochemical data". Australian Journal of Earth Sciences. 60 (8): 797–817. doi:10.1080/08120099.2013.865143. S2CID 140539249.
- ^ Davies, D.; Rawlinson, N.; Iaffaldano, G.; Campbell, I.H. (2015). "Lithospheric controls on magma composition along Earth's longest continental hotspot track". Nature. 525 (7570): 511–514. Bibcode:2015Natur.525..511D. doi:10.1038/nature14903. hdl:1885/102536. PMID 26367795. S2CID 4461777.
- ^ Rawlinson, N.; Davies, D.R.; Pilia, S. (2017). "The mechanisms underpinning Cenozoic intraplate volcanism in eastern Australia: Insights from seismic tomography and geodynamic modeling". Geophysical Research Letters. 44 (19): 9681–9690. Bibcode:2017GeoRL..44.9681R. doi:10.1002/2017GL074911. hdl:1885/249074. S2CID 133853369.