Are A‐type granites the high‐temperature felsic granites? Evidence from fractionated granites of the Wangrah Suite
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AndersonJ. L.1983. <i>Proterozoic anorogenic granite plutonism of North America</i> . Geological Society of America Memoir161, 133–154.
BalsleyS. D. & GregoryR. T.1998. <i>Low‐18O silicic magmas: why are they so rare?</i> . Earth and Planetary Science Letters162, 123–136.
Bea, F. (1996) Controls on the trace element composition of crustal melts <i>Transactions of the Royal Society of Edinburgh: Earth Sciences</i>, 87, pp. 33 - 41.
Becker, A. and Holtz, F. and Johannes, W. (1998) Liquidus temperatures and phase compositions in the system Qz‐Ab‐Or at 5 kbar and very low water activities <i>Contributions to Mineralogy and Petrology</i>, 130, pp. 213 - 224.
Bédard, J. (1990) Enclaves from the A‐type granite of the Mégantic Complex, White Mountain magma series: clues to granite magma genesis <i>Journal of Geophysical Research</i>, 95, pp. 17797 - 17819.
Bohlen, S. R. and Essene, E. J. (1977) Feldspar and oxide thermometry of granulites in the Adirondack highlands <i>Contributions to Mineralogy and Petrology</i>, 62, pp. 153 - 169.
Burnham, C. W.(1979) Magmas and hydrothermal fluids. In <i>Geochemistry of Hydrothermal Ore Deposits</i>. ( pp. 71 - 136 ). New York : John Wiley and Sons.
Candela, P. A.(1989) Felsic magmas, volatiles and metallogenesis. In <i>Ore Deposition Associated with Magmas</i>. ( pp. 223 - 233 ). El Paso : Society of Economic Geologists.
Carrington, D. P. and Harley, S. L. (1995) Partial melting and phase relations in high‐grade metapelites: an experimental petrogenetic grid in the KFMASH system <i>Contributions to Mineralogy and Petrology</i>, 120, pp. 270 - 291.
Chappell, B. W. (1999) Aluminium saturation in I‐ and S‐type granites and the characterization of fractionated haplogranites <i>Lithos</i>, 46, pp. 535 - 551.
Chappell, B. W. and Bryant, C. J. and Wyborn, D. and White, A. J. R. and Williams, I. S. (1998) High‐ and low‐temperature I‐type granites <i>Resource Geology</i>, 48, pp. 225 - 236.
Chappell, B. W. and English, P. M. and King, P. L. and White, A. J. R. and Wyborn, D.<i>Granites and Related Rocks of the Lachlan Fold Belt (1:1 250 000 Scale Map)</i> .Bureau of Mineral Resources, Canberra. 1991
Chappell, B. W. and White, A. J. R. (1992) I‐ and S‐type granites in the Lachlan Fold Belt <i>Transactions of the Royal Society of Edinburgh: Earth Sciences</i>, 83, pp. 1 - 26.
Chappell, B. W. and White, A. J. R. (1998) Development of P‐rich granites by sequential restite fractionation and fractional crystallisation: the Koetong Suite in the Lachlan Fold Belt <i>Acta Universitatis Carolinae Geologica</i>, 42, pp. 23 - 27.
Chappell, B. W. and White, A. J. R. and Williams, I. S. and Wyborn, D. and Wyborn, L. A. I. (2000) Lachlan Fold Belt granites revisited: high‐ and low‐temperature granites and their implications <i>Australian Journal of Earth Sciences</i>, 47, pp. 123 - 138.
Clemens, J. D. and Holloway, J. R. and White, A. J. R. (1986) Origin of an A‐type granite: experimental constraints <i>American Mineralogist</i>, 71, pp. 317 - 324.
Collins, W. J. and Beams, S. D. and White, A. J. R. and Chappell, B. W. (1982) Nature and origin of A‐type granites with particular reference to south‐eastern Australia <i>Contributions to Mineralogy and Petrology</i>, 80, pp. 189 - 200.
Creaser, R. A. and Price, R. C. and Wormald, R. J. (1991) A‐type granites revisited: assessment of a residual‐source model <i>Geology</i>, 19, pp. 163 - 166.
Czamanske, G. K. and Ishihara, S. and Atkin, S. A. (1981) Chemistry of rock‐forming minerals of the Cretaceous‐Paleocene batholith in south‐western Japan and implications for magma genesis <i>Journal of Geophysical Research</i>, 86, pp. 10431 - 10469.
Dall'Agnol, R. and Scaillet, B. and Pichavant, M. (1999) An experimental study of a Lower Proterozoic A‐type granite from the eastern Amazonian Craton, Brazil <i>Journal of Petrology</i>, 40, pp. 1673 - 1698.
Erklund, O. and Shebanov, A. D. (1999) The origin of rapakivi texture by sub‐isothermal decompression <i>Precambrian Research</i>, 95, pp. 129 - 146.
Ernst, W. G. and Liu, J. (1998) Experimental phase‐equilibrium study of Al‐and Ti‐contents of calcic amphibole in MORB—a semiquantitative thermobarometer <i>American Mineralogist</i>, 83, pp. 952 - 969.
Frost, C. D. and Frost, B. R. (1997) Reduced rapakivi‐type granites: the tholeiite connection <i>Geology</i>, 25, pp. 647 - 650.
Frost, C. D. and Frost, B. R. and Chamerlain, K. R. and Edwards, B. R. (1999) Petrogenesis of the 1.43 Ga Sherman Batholith, SE Wyoming, USA: a reduced, rapakivi‐type anorogenic granite <i>Journal of Petrology</i>, 40, pp. 1771 - 1802.
Gansecki, C. A. and Mahood, G. A. and McWilliams, M. (1998) New ages for the climactic eruptions at Yellowstone: Single‐crystal 40Ar/39Ar dating identifies contamination <i>Geology</i>, 26, pp. 343 - 346.
Gunow, A. J. and Ludington, S. and Munoz, J. L. (1980) Fluorine in micas from the Henderson molybdenite deposit, Colorado <i>Economic Geology</i>, 75, pp. 1127 - 1137.
HaydenP.1980. <i>Structure and metamorphism of the Ordovician rocks of the Cullarin Horst near Jerangle, NSW</i> . PhD thesis, Australian National University, Canberra (unpubl.).
Hildreth, W. and Halliday, A. N. and Christiansen, R. L. (1991) Isotopic and chemical evidence concerning the genesis and contamination of basaltic and rhyolitic magma beneath the Yellowstone Plateau volcanic field <i>Journal of Petrology</i>, 32, pp. 63 - 138.
HillR. I.1975. <i>Geology of an area east of Michelago</i> . BSc (Hons) thesis, Australian National University, Canberra (unpubl.).
Johannes, W. and Holtz, F.(1990) Formation and composition of H2O‐undersaturated granitic melts. In <i>High‐temperature Metamorphism and Crustal Anatexis</i>. ( pp. 87 - 104 ). London : Unwin Hyman.
Joplin, G. A. and Noakes, L. C. and Perry, W. J.<i>Canberra 4‐Mile Geological Sheet (SI 55–16)</i> .Bureau of Mineral Resources, Canberra. 1953
KingP. L.1992. <i>A‐type granites from the Lachlan Fold Belt: a case study and reassessment</i> . BSc (Hons) thesis, Australian National University Canberra (unpubl.).
King, P. L. (1993) The Jerangle Metamorphic Complex: relationship to granites, structures and fluids, mid‐ to lower‐crustal metamorphism and fluids <i>Geological Society of Australia Abstracts</i>, 35, pp. 68 - 69.
King, P. L. and White, A. J. R. and Chappell, B. W. (1997) Characterization and origin of aluminous A type granites of the Lachlan Fold Belt, southeastern Australia <i>Journal of Petrology</i>, 36, pp. 371 - 391.
Landenberger, B. and Collins, W. J. (1996) Derivation of A‐type granites from a dehydrated charnockitic lower crust: evidence from the Chaelundi Complex, Eastern Australia <i>Journal of Petrology</i>, 37, pp. 145 - 170.
Lewis, P. C. and Glen, R. A. and Pratt, G. W. and Clarke, I.(1994) <i> Explanatory Notes: Bega‐Mallacoota 1:250 000 Geological Sheet SJ/55–4, SJ/55–8</i>. Sydney : Geological Survey of New South Wales.
Loiselle, M. C. and Wones, D. R. (1979) Characteristics and origin of anorogenic granites <i>Geological Society of America Abstracts</i>, 11, pp. 468.
Lowenstern, J. B. and Clynne, M. A. and Bullen, T. D. (1997) Comagmatic A‐type granophyre and rhyolite from the Alid Volcanic Center, Eritrea, northeast Africa <i>Journal of Petrology</i>, 38, pp. 1707 - 1721.
Nakamura, N. (1974) Determination of REE, Ba, Fe, Mg, Na and K in carbonaceous and ordinary chondrites <i>Geochimica et Cosmochimica Acta</i>, 38, pp. 757 - 773.
Noakes, L. C. and Öpik, A. A.(1954) Geology and geomorphology. In <i>Canberra, a Natioʼns Capital</i>. ( pp. 115 - 152 ). Canberra : ANZAAS. 30th Congress
Patin¯o Douce, A. E. (1997) Generation of metaluminous A‐type granites by low‐pressure melting of calc‐alkaline granitoids <i>Geology</i>, 25, pp. 743 - 746.
Patin¯o Douce, A. E. and Beard, J. S. (1995) Dehydration melting of biotite gneiss and quartz amphibolite from 3 to 15 kbar <i>Journal of Petrology</i>, 36, pp. 707 - 738.
RämöO. T.1991. <i>Petrogenesis of the Proterozoic granite and related basic rocks of southeastern Fennoscandia: Nd and Pb isotopic and general geochemistry</i> . Geological Survey of Finland Bulletin355.
Rämö, O. T. and Haapala, I.(1990) The rapakivi granites of eastern Fennoscandia: a review with insights into their origin in the light of new Sm–Nd isotopic data. In <i>Mid‐Proterozoic Laurentia‐Baltica</i>. ( pp. 447 - 457 ). St. Johʼns Newfoundland: Geological Association of Canada.
RichardsD. N.1967. <i>The geology of the Jerangle district</i> . BSc (Hons) thesis, Australian National University, Canberra (unpubl.).
Richardson, S. J.(1979) <i> Geology of the Michelago 1:100 000 Sheet (8726)— Explanatory Notes</i>. Sydney : Geological Survey of New South Wales.
RowleyD. K.1975. <i>Potassium‐argon dating of seven samples from New South Wales</i> . Australian Mineral Development Laboratories Report AN 3898/75(unpubl.).
Schmidt, B. C. and Holtz, F. and Scaillet, B. and Pichavant, M. (1997) The influence of H2O–H2 fluids and redox conditions on melting temperatures in the haplogranite system <i>Contributions to Mineralogy and Petrology</i>, 126, pp. 386 - 400.
Skjerlie, K. P. and Johnston, A. D. (1993) Fluid‐absent melting behavior of an F‐rich tonalitic gneiss at mid‐crustal pressures: implications for the generation of anorogenic granites <i>Journal of Petrology</i>, 34, pp. 785 - 815.
Spencer, K. J. and Lindsley, D. H. (1981) A solution model for coexisting iron‐titanium oxides <i>American Mineralogist</i>, 66, pp. 1189 - 1201.
Thompson, A. B.(1999) Some time‐space relationships for crustal melting and granitic intrusion at various depths. In <i>Understanding Granites: Integrating New and Classical Techniques</i>. ( pp. 7 - 25 ).
Wark, D. A. and Stimac, J. A. (1992) Origin of mantled (rapakivi) feldspars: experimental evidence of a dissolution‐ and diffusion‐controlled mechanism <i>Contributions to Mineralogy and Petrology</i>, 111, pp. 345 - 361.
Watson, E. B. (1996) Dissolution, growth and survival of zircons during crustal fusion: kinetic principles, geological models and implications for isotopic inheritance <i>Transactions of the Royal Society of Edinburgh: Earth Sciences</i>, 87, pp. 43 - 56.
WatsonE. B. & BrenanJ. M.1987. <i>Fluids in the lithosphere, I: Experimentally determined wetting characteristics of CO2–H2O fluids and their implications for fluid transport, host‐rock physical properties, and fluid inclusion formation</i> . Earth and Planetary Science Letters85, 497–515.
WatsonE. B. & HarrisonT. M.1983. <i>Zircon saturation revisited: temperature and composition effects in a variety of crustal magma types</i> . Earth and Planetary Science Letters64, 295–304.
Whalen, J. B. and Currie, K. L. and Chappell, B. W. (1987) A‐type granites: geochemical characteristics, discrimination and petrogenesis <i>Contributions to Mineralogy and Petrology</i>, 95, pp. 407 - 419.
White, A. J. R. and Allen, C. M. and Beams, S. D. and Carr, P. F. and Champion, D. C. and Chappell, B. W. and Wyborn, D. and Wyborn, L. A. I. (2001) Granite suites and supersuites of eastern Australia <i>Australian Journal of Earth Sciences</i>, 48, pp. 515 - 530.
White, A. J. R. and Chappell, B. W.(1989) <i> Geology of the Numbla 1:100 000 Sheet 8624</i>. Sydney : New South Wales Geological Survey.
White, A. J. R. and Williams, I. S. and Chappell, B. W. (1976) The Jindabyne Thrust and its tectonic, physiographic and petrogenetic significance <i>Journal of the Geological Society of Australia</i>, 23, pp. 105 - 112.
Williams, I. S. (1992) Some observations on the use of zircon U–Pb geochronology in the study of granitic rocks <i>Transactions of the Royal Society of Edinburgh: Earth Sciences</i>, 83, pp. 447 - 458.
Williams, I. S. and Chappell, B. W. and McCulloch, M. T. and Crook, K. A. W. (1991) Inherited and detrital zircons—clues to the early growth of crust in the Lachlan Fold Belt <i>Geological Society of Australia Abstracts</i>, 29, pp. 58.