SEARCH

SEARCH BY CITATION

References

  • Anderson, D. J., D. H. Lindsley, and P. M. Davidson (1993), QUILF: A Pascal program to assess equilibria among Fe-Mg-Mn oxides, pyroxenes, olivine, and quartz, Comput. Geosci., 19, 13331350.
  • Arculus, R. A. (1985), Oxidation status of the mantle: Past and present, Annu. Rev. Earth Planet. Sci., 13, 7595.
  • Botcharnikov, R. E., R. R. Almeev, J. Koepke, and F. Holtz (2008), Phase relations and liquid lines of descent in hydrous ferrobasalt—Implications for the Skaergaard intrusion and Columbia River basalts, J. Petrol., 49, 16871727.
  • Bowen, N. L. (1916), Discussion of “Magmatic differentiation in effusive rocks,” Trans. AIME, 54, 455457.
  • Buddington, A. F., and D. H. Lindsley (1964), Iron-titanium oxide minerals and synthetic equivalents, J. Petrol., 5, 310357.
  • Charlier, B., O. Namur, M. J. Toplis, P. Schiano, N. Cluzel, M. D. Higgins, and J. Vander Auwera (2011), Large-scale silicate immiscibility during differentiation of tholeiitic basalt to granite and the origin of the Daly gap, Geology, 39, 907910.
  • Charlier, D., and T. L. Grove (2012), Experiments on liquid immiscibility along tholeiitic liquid lines of descent, Contrib. Mineral. Petrol., 164, 2744.
  • Danyushevsky, L. V. (2001), The effect of small amounts of H2O on crystallization of mid-ocean ridge and back-arc basin magmas, J. Volcanol. Geotherm. Res., 110, 265280.
  • Dixon, S., and M. J. Rutherford (1979), Plagiogranites as late-stage immiscible liquids in ophiolite and mid-ocean ridge suites: An experimental study, Earth Planet. Sci. Lett., 45, 4560.
  • Dostal, J., and C. Dupuy (1984), Geochemistry of the North Mountain basalts (Nova Scotia, Canada), Chem. Geol., 45, 245261.
  • Dostal, J., and M. Durning (1998), Geochemical constraints on the origin and evolution of early Mesozoic dikes in Atlantic Canada, Eur. J. Min., 10, 7993.
  • Dostal, J., and J. D. Greenough (1992), Geochemistry and petrogenesis of the early Mesozoic North Mountain basalts of Nova Scotia, Canada, in Eastern North America Mesozoic Magmatism, vol. 268, edited by J. H. Puffer and P. C. Ragland, pp. 149159, Geol. Soc. of Am., Boulder, Colorado.
  • Duchesne, J. C. (1999), Fe-Ti deposits in Rogaland anorthosites (South Norway): Geochemical characteristics and problems of interpretation, Miner. Deposita, 34, 182198.
  • Dupuy, C., and J. Dostal (1984), Trace element geochemistry of some continental tholeiites, Earth Planet. Sci. Lett., 67, 6169.
  • Eby, G. N. (1980), Mount Johnson, Quebec—An example of silicate-liquid immiscibility?, Geology, 7, 491494.
  • Ferreira, V. P., A. N. Sial, and J. A. Whitney (1994), Large scale silicate liquid immiscibility: A possible example from northeastern Brazil, Lithos, 33, 285302.
  • Freestone, I. C. (1978), Liquid immiscibility in alkali-rich magmas, Chem. Geol., 23, 115123.
  • Frost, D. J., and C. A. McCammon (2008), The redox state of the Earth's mantle, Annu. Rev. Earth Planet. Sci., 36, 389420.
  • Ghiorso, M. S., and R. O. Sack (1995), Chemical mass transfer in magmatic processes IV. A revised and internally consistent thermodynamic model for the interpolation and extrapolation of liquid-solid equilibria in magmatic systems at elevated temperatures and pressures, Contrib. Mineral. Petrol., 119, 197212.
  • Greenough, J. D., and J. Dostal (1992a), Layered rhyolite bands in a thick North Mountain basalt flow: The products of silicate liquid immiscibility, Mineral. Mag., 56, 309318.
  • Greenough, J. D., and J. Dostal (1992b), Cooling history and differentiation of a thick North Mountain basalt flow (Nova Scotia, Canada), Bull. Volcanol., 55, 6373.
  • Greenough, J. D., and V. S. Papezik (1987), Note on the petrology of North Mountain basalt from the wildcat oil well Mobil Gulf Chinampas N-37, Bay of Fundy, Canada, Can. J. Earth Sci., 24, 12551260.
  • Hess, P. C., M. J. Rutherford, R. N. Guillemette, F. J. Ryerson, and H. A. Tuchfeld (1975), Residual products of fractional crystallization of lunar magmas: An experimental study, Lunar Science Conference, 6th, Houston, Tex., March 17–21, 1975, Proceedings. Volume 1. (A78-46603 21-91) New York, Pergamon Press, Inc., 1975, p. 895-909.
  • Hodych, J. P., and G. R. Dunning (1992), Did the Manicouagan impact trigger end-of-Triassic mass extinction?, Geology, 20, 5154.
  • Hurai, V., K. Simon, U. Wiechert, J. Hoefs, P. Koneny, M. Huraiova, J. Pironon, and J. Lipka (1998), Immiscible separation of metalliferous Fe/Ti-oxide melts from fractionating alkali basalt: P-T-fO2 conditions and two liquid elemental partitioning, Contrib. Mineral. Petrol., 133, 1229.
  • Jahn, B.-M. (2004), The central Asian orogenic belt and growth of the continental crust in the Phanerozoic, in Aspects of the Tectonic Evolution of China, vol. 226, edited by J. Malpas et al., pp. 73100, Geol. Soc. London Spec. Publ.
  • Jakobsen, J. K., I. V. Veksler, C. Tegner, and C. K. Brooks (2005), Immiscible iron- and silica-rich melts in basalt Petrogenesis documented in the Skaergaard intrusion, Geology, 33, 885888.
  • Jones, L. M., and D. J. Mossman (1988), The isotopic composition of strontium and the source of the Early Jurassic North Mountain basalts, Nova Scotia, Can. J. Earth Sci., 25, 942944.
  • Jourdan, F., A. Marzoli, H. Bertrand, S. Cirilli, L. H. Tanner, D. J. Kontak, G. McHone, P. R. Renne, and G. Bellieni (2009), 40Ar/39Ar ages of CAMP in North America: Implications for the Triassic–Jurassic boundary and the 40K decay constant bias, Lithos, 110, 167180.
  • Kasting, J. F., D. H. Eggler, and S. P. Raeburn (1993), Mantle redox evolution and the oxidation state of the Archean atmosphere, J. Geol., 101, 245257.
  • Kolker, A. (1982), Mineralogy and geochemistry of Fe-Ti oxide and apatite (nelsonite) deposits and evaluation of the liquid immiscibility hypothesis, Econ. Geol., 77, 11461158.
  • Kontak, D. J. (2008), On the edge of CAMP: Geology and volcanology of the Jurassic North Mountain basalt, Nova Scotia, Lithos, 101, 3966.
  • Kontak, D. J., and D. A. Archibald (2003), 40Ar/39Ar age dating of the Jurassic North Mountain Basalt, southern Nova Scotia, Atl. Geol., 39, 4754.
  • Kontak, D. J., and J. Dostal (2010), The late-stage crystallization history of the Jurassic North Mountain basalt, Nova Scotia, Canada. II. Nature and origin of segregation pipes, Can. Mineral., 48, 15331568.
  • Kontak, D. J., M. Y. De Wolfe-De Young, and J. Dostal (2002), Late stage crystallization history of the Jurassic North Mountain basalt, Nova Scotia, Canada. I. Textural and chemical evidence for pervasive development of silicate-liquid immiscibility, Can. Mineral., 40, 12871311.
  • Kontak, D. J., J. Dostal, and J. D. Greenough (2005), Geology and Volcanology of the Jurassic North Mountain Basalt, Southern Nova Scotia, Geol. Assoc. of Canada-Mineral. Assoc. of Canada Annu. Meet., Field Trip B3, 131 pp., Atlantic Geoscience Society, Wolfville, Nova Scotia.
  • Kress, V. C., and I. S. E. Carmichael (1991), The compressibility of silicate liquids containing Fe2O3 and the effect of composition, temperature, oxygen fugacity and pressure on their redox states, Contrib. Mineral. Petrol., 108, 8292.
  • Lester, G. W., A. H. Clark, Kyser, T. K., and H. R. Naslund (2013), Experimental on liquid immiscibility in silicate melts with H2O, P, S, F and Cl: Implications for natural magmas. Contrib. Mineral. Petrol., 166, 329349.
  • McBirney, A. R. (1975), Differentiation of the Skaergaard Intrusion, Nature, 253, 691694.
  • McHone, J. G., D. L. Anderson, E. K. Beutel, and Y. A. Fialko (2005), Giant dikes, rifts, flood basalts, and plate tectonics: A contention of mantle models, in Plates, Plumes, and Paradigms, vol. 388, edited by G. R. Foulger et al., pp. 401420, Geol. Soc. of Am., Boulder, Colorado
  • Miyano, T., and C. Klein (1989), Phase equilibria in the system K2O-FeO-MgO-Al2O3-SiO2-H2O-CO2 and the stability limit of stilpnomelane in metamorphosed Precambrian iron-formations, Contrib. Mineral. Petrol., 102, 478491.
  • Murphy, J. B., and J. Dostal (2007), Continental mafic magmatism of different ages in the same terrane: Constraints on the evolution of an enriched mantle source, Geology, 35, 335338.
  • Murphy, J. B., J. Dostal, G. Gutierrez-Alonso, and J. D. Keppie (2011), Early Jurassic magmatism on the northern margin of CAMP: Derivation from a Proterozoic sub-continental lithospheric mantle, Lithos, 123, 158164.
  • Namur, O., B. Charlier, M. J. Toplis, M. D. Higgins, V. Hounsell, J.-P. Liegeois, and J. Vander Auwera (2011), Differentiation of tholeiitic basalt to A-type granite in the Sept Iles layered intrusion, Canada, J. Petrol., 52, 487539.
  • Naslund, H. R. (1983), The effect of oxygen fugacity on liquid immiscibility in iron-bearing silicate melts, Am. J. Sci., 283, 10341059.
  • Olsen, P. E. (1997), Stratigraphic record of the early Mesozoic breakup of Pangea in the Laurasia–Gondwana rift system, Annu. Rev. Earth Planet. Sci., 25, 337401.
  • Olsen, P. E., N. H. Shubin, and M. H. Anders (1987), New early Jurassic tetrapod assemblages constrain Triassic-Jurassic tetrapod extinction event, Science, 237, 10251029.
  • Olsen, P. E., R. W. Schlische, and M. S. Fedosh (1998), 580 ka duration of the Early Jurassic flood basalt event in eastern North America estimated using Milankovitch cyclostratigraphy, in The Continental Jurassic, Mus. of North Ariz. Bull. 60, edited by M. Morales, pp. 1122, Flagstaff, Arizona.
  • Papezik, V. S., J. D. Greenough, J. A. Colwell, and T. J. Mallinson (1988), North Mountain basalt from Digby, Nova Scotia: Models for a fissure eruption from stratigraphy and petrochemistry, Can. J. Earth Sci., 24, 7483.
  • Pe-Piper, G., L. F. Jansa, and R. S. Lambert (1992), Early Mesozoic magmatism on the eastern Canadian margin: Petrogenetic and tectonic significance, in Eastern North America Mesozoic Magmatism, vol. 268, edited by J. H. Puffer and P. C. Ragland, pp. 1336, Geol. Soc. of Am., Boulder, Colorado.
  • Philpotts, A. R. (1967), Origin of certain iron-titanium oxide and apatite rocks, Econ. Geol., 62, 303315.
  • Philpotts, A. R. (1972), Density, surface tension and viscosity of the immiscible phase in a basic, alkaline magma, Lithos, 5, 118.
  • Philpotts, A. R. (1976), Silicate liquid immiscibility: Its probable extent and petrogenetic significance, Am. J. Sci., 276, 11471177.
  • Philpotts, A. R. (1978), Textural evidence for liquid immiscibility in tholeiites, Mineral. Mag., 42, 417425.
  • Philpotts, A. R. (1979), Silicate liquid immiscibility in tholeiitic basalts, J. Petrol., 20, 99118.
  • Philpotts, A. R. (1982), Compositions of immiscible liquids in volcanic rocks, Contrib. Mineral. Petrol., 80, 201218.
  • Philpotts, A. R., and C. D. Doyle (1980), Immiscibility in tholeiites: a discussion, Mineral. Mag., 43, 939940.
  • Philpotts, A. R., and C. D. Doyle (1983), Effect of magma oxidation state on the extent of silicate immiscibility in a tholeiitic basalt, Am. J. Sci., 283, 967986.
  • Powers, S. (1916), The Acadian Triassic, J. Geol., 24, 126.
  • Powers, S., and A. C. Lane (1916), Magmatic differentiation in effusive rocks, Trans. AIME, 54, 442455.
  • Roedder, E. (1951), Low temperature liquid immiscibility in the system K2O-FeO-Al2O3-SiO2, Am. Mineral., 36, 282286.
  • Roedder, E. (1978), Silicate liquid immiscibility in magmas and in the system K2O-FeO-Al2O3-SiO2: An example of serendipity, Geochim. Cosmochim. Acta, 42, 15971617.
  • Roedder, E. (1979), Silicate liquid immiscibility in magmas, in The Evolution of the Igneous Rocks Fiftieth Anniversary Perspectives, edited by H. S. Yoder Jr., pp. 1557, Princeton Univ. Press, Princeton, New Jersey.
  • Roedder, E., and P. W. Weiblen (1970), Silicate liquid immiscibility in lunar magmas, evidenced by melt inclusions in lunar rocks, Science, 167, 641643.
  • Ryerson, F. J., and P. C. Hess (1978), Implications of liquid-liquid distribution coefficients to mineral-liquid partitioning, Geochim. Cosmochim. Acta, 42, 921932.
  • Shellnutt, J. G., and Y. Iizuka (2011), Mineralogy from three peralkaline granitic plutons of the Late Permian Emeishan large igneous province (SW China): Evidence for contrasting magmatic conditions of A-type granitoids, Eur. J. Mineral., 23, 4561.
  • Shellnutt, J. G., K.-L. Wang, G. F. Zellmer, Y. Iizuka, B.-M. Jahn, K.-N. Pang, L. Qi, and M.-F. Zhou (2011), Three Fe-Ti oxide ore-bearing gabbro-granitoid complexes in the Panxi region of the Emeishan large igneous province, SW China, Am. J. Sci., 311, 773812.
  • Sisson, T. W. and T. L. Grove (1993), Experimental investigations of the role of H2O in calc-alkaline differentiation and subduction zone magmatism, Contrib. Mineral. Petrol., 113, 143166.
  • Smith, P. M., and P. D. Asimow (2005), Adiabat_1ph: A new public front-end to the MELTS, pMELTS, and pHMELTS models, Geochem. Geophys. Geosyst., 6, Q02004, doi:10.1029/2004GC000816.
  • Sun, S. S., and W. F. McDonough (1989), Chemical and isotopic systematics of oceanic basalts: Implications for mantle composition and processes, in Magmatism in the Ocean Basins, vol. 42, edited by A. D. Saunders and M. J. Norry, pp. 313435, Geol. Soc. London. Spec. Publ., Oxford, UK.
  • Toplis, M. J., and M. R. Carroll (1995), An experimental study of the influence of oxygen fugacity of Fe-Ti oxide stability, phase relations, and mineral-melt equilibria in ferro-basaltic systems, J. Petrol., 36, 11371170.
  • Veksler, I. V., A. M. Dorfman, L. V. Danyushevsky, J. K. Jakobsen, and D. B. Dingwell (2006), Immiscible silicate liquid partition coefficients: Implications for crystal-melt element partitioning and basalt petrogenesis, Contrib. Mineral. Petrol., 152, 685702.
  • Veksler, I. V., A. M. Dorfman, A. A. Borisov, R. Wirth, and D. B. Dingwell (2007), Liquid immiscibility and the evolution of basaltic magma, J. Petrol., 48, 21872210.
  • Vicenzi, E., T. Green, and S. Sie (1994), Effect of oxygen fugacity on trace-element partitioning between immiscible silicate melts at atmospheric pressure: A proton and electron microprobe study, Chem. Geol., 117, 355360.
  • Visser, W., and A. F. K. van Groos (1979), Effects of P2O5 and TiO2 on liquid-liquid equilibria in the system K2O-FeO-Al2O3-SiO2, Am. J. Sci., 279, 970988.
  • Waston, E. B. (1976), Two-liquid partition coefficients: Experimental data and geochemical implications, Contrib. Mineral. Petrol., 56, 119134.
  • Yoder, H. S. (1973), Contemporaneous basaltic and rhyolitic magmas, Am. Mineral., 58, 153171.
  • Zhou, M.-F., W. T. Chen, C. Y. Wang, S. A. Prevec, P. P. Liu, and G. H. Howarth (2013), Two stages of immiscible liquid separation in the formation of Panzhihua-type Fe-Ti-V oxide deposits, SW China, Geosci. Front., 4(5), 481502, doi:10.1016/j.gf.f.2013.04.006.