Touret, Jacques L.R., Huizenga, Jan Marten, Kehelpannala, K.V. Wilbert, Piccoli, Francesca (2019) Vein-type graphite deposits in Sri Lanka: The ultimate fate of granulite fluids. Chemical Geology, 508. 167-181 doi:10.1016/j.chemgeo.2018.03.001

References Listed

These are the references the publisher has listed as being connected to the article. Please check the article itself for the full list of references which may differ. Not all references are currently linkable within the Digital Library.

	Aranovich, L. Y., Newton, R. C. (1996) H 2 O activity in concentrated NaCl solutions at high pressures and temperatures measured by the brucite-periclase equilibrium. Contributions to Mineralogy and Petrology, 125 (2) 200-212 doi:10.1007/s004100050216
	Aranovich, L. Y., Newton, R. C. (1999) Experimental determination of CO2-H2O activity-composition relations at 600-1000 degrees C and 6-14 kbar by reversed decarbonation and dehydration reactions. American Mineralogist, 84 (9) 1319-1332 doi:10.2138/am-1999-0908
	Bakker, Ronald J. (2003) Package FLUIDS 1. Computer programs for analysis of fluid inclusion data and for modelling bulk fluid properties. Chemical Geology, 194 (1) 3-23 doi:10.1016/s0009-2541(02)00268-1
	Ballhaus, C., Berry, R. F., Green, D. H. (1991) High pressure experimental calibration of the olivine-orthopyroxene-spinel oxygen geobarometer: implications for the oxidation state of the upper mantle. Contributions to Mineralogy and Petrology, 107 (1) 27-40 doi:10.1007/bf00311183
	Baur, N., Kröner, A., Liew, T. C., Todt, W., Williams, I. S., Hofmann, A. W. (1991) U-Pb Isotopic Systematics of Zircons from Prograde and Retrograde Transition Zones in High-Grade Orthogneisses, Sri Lanka. The Journal of Geology, 99 (4) 527-545 doi:10.1086/629515
	Binu-Lal, S.S, Kehelpannala, K.V.Wilbert, Satish-Kumar, M, Wada, Hideki (2003) Multistage graphite precipitation through protracted fluid flow in sheared metagranitoid, Digana, Sri Lanka: evidence from stable isotopes. Chemical Geology, 197 (1) 253-270 doi:10.1016/s0009-2541(02)00400-x
	Bodnar (2003) Reequilibration of fluid inclusions Vol. 32, 213
	Bolder-Schrijver, , Kriegsman, , Touret, (2001) Primary carbonate/CO2 inclusions in sapphirine-bearing granulites from central Sri Lanka. Journal of Metamorphic Geology, 18 (3) 259-269 doi:10.1046/j.1525-1314.2000.00254.x
	Brown, M. (2007) Metamorphic Conditions in Orogenic Belts: A Record of Secular Change. International Geology Review, 49 (3) 193-234 doi:10.2747/0020-6814.49.3.193
	Burton, Kevin W., O'Nions, R. Keith (1990) The timescale and mechanism of granulite formation at Kurunegala, Sri Lanka. Contributions to Mineralogy and Petrology, 106 (1) 66-89 doi:10.1007/bf00306409
	Cesare, Bernardo, Ferrero, Silvio, Salvioli-Mariani, Emma, Pedron, Danilo, Cavallo, Andrea (2009) “Nanogranite” and glassy inclusions: The anatectic melt in migmatites and granulites. Geology, 37 (7) 627-630 doi:10.1130/g25759a.1
	CLARKE, G. L., NORMAN, A. R. (1993) Generation of pseudotachylite under granulite facies conditions, and its preservation during cooling. Journal of Metamorphic Geology, 11 (3) 319-335 doi:10.1111/j.1525-1314.1993.tb00151.x
	Cooray, P.G. (1994) The precambrian of Sri Lanka: a historical review. Precambrian Research, 66 (1) 3-18 doi:10.1016/0301-9268(94)90041-8
	Cordani (1989) J. Geol. Soc. Sri Lanka Rb-Sr ages of granulites and gneisses from the Precambrian of Sri Lanka 2, 35
	Huw Davies, J., von Blanckenburg, Friedhelm (1995) Slab breakoff: A model of lithosphere detachment and its test in the magmatism and deformation of collisional orogens. Earth and Planetary Science Letters, 129 (1) 85-102 doi:10.1016/0012-821x(94)00237-s
	de Maesschalck, A. A., Oen, I. S., Hebeda, E. H., Verschure, R. H., Arps, C. E. S. (1990) Rubidium-Strontium Whole-Rock Ages of Kataragama and Pottuvil Charnockites and East Vijayan Gneiss: Indication of a 2 Ga Metamorphism in the Highlands of Southeast Sri Lanka. The Journal of Geology, 98 (5) 772-779 doi:10.1086/629440
	Dharmapriya (2017) J. Geol. Soc. Sri Lanka Understanding of ultrahigh temperature lower crustal granulites: implication for P-T-t path and structural evolution of the Highland Complex, Sri Lanka 18, 129
	Dharmapriya, P.L., Malaviarachchi, Sanjeewa P.K., Galli, Andrea, Su, Ben-Xun, Subasinghe, N.D., Dissanayake, C.B., Nimalsiri, T.B., Zhu, Bin (2014) P–T evolution of a spinel+quartz bearing khondalite from the Highland Complex, Sri Lanka: Implications for non-UHT metamorphism. Journal of Asian Earth Sciences, 95. 99-113 doi:10.1016/j.jseaes.2014.05.003
	Dharmapriya, P.L., Malaviarachchi, Sanjeeva P.K., Galli, Andrea, Su, Ben-Xun, Subasinghe, N.D., Dissanayake, C.B. (2015) Rare evidence for formation of garnet+corundum during isobaric cooling of ultrahigh temperature metapelites: New insights for retrograde P–T trajectory of the Highland Complex, Sri Lanka. Lithos, 220. 300-317 doi:10.1016/j.lithos.2015.01.015
	Dharmapriya, Prasanna Lakshitha, Malaviarachchi, Sanjeewa Prabhath Kumara, Sajeev, Krishnan, Zhang, Chengli (2016) New LA-ICPMS U–Pb ages of detrital zircons from the Highland Complex: insights into late Cryogenian to early Cambrian (ca. 665–535 Ma) linkage between Sri Lanka and India. International Geology Review, 58 (15) 1856-1883 doi:10.1080/00206814.2016.1185650
	Dharmapriya, P.L., Malaviarachchi, Sanjeewa P.K., Kriegsman, L.M., Galli, Andrea, Sajeev, K., Zhang, Chengli (2017) New constraints on the P – T path of HT/UHT metapelites from the Highland Complex of Sri Lanka. Geoscience Frontiers, 8 (6) 1405-1430 doi:10.1016/j.gsf.2016.12.005
	Diamond, Larryn W., Tarantola, Alexandre, Stünitz, Holger (2010) Modification of fluid inclusions in quartz by deviatoric stress. II: experimentally induced changes in inclusion volume and composition. Contributions to Mineralogy and Petrology, 160 (6) 845-864 doi:10.1007/s00410-010-0510-6
	Dissanayake, C.B. (1981) The origin of graphite of Sri Lanka. Organic Geochemistry, 3 (1). 1-7 doi:10.1016/0146-6380(81)90006-1
	Dobner, Albert, Graf, Wolfgang, Hahn-Weinheimer, Paula, Hirner, Alfred (1978) Stable carbon isotopes of graphite from Bogala Mine, Sri Lanka. Lithos, 11 (3) 251-255 doi:10.1016/0024-4937(78)90025-7
	Dunai, T.J., Touret, J.L.R. (1993) A noble gas study of a granulite sample from the Nilgiri Hills, southern India: implications for granulite formation. Earth and Planetary Science Letters, 119 (3) 271-281 doi:10.1016/0012-821x(93)90138-y
	Elsenheimer (1988)
	Fiorentini (1990) Nature and Scale of Fluid-rock Exchange in Granulite Grade Rocks of Sri Lanka: A Stable Isotope Study , 311
	French, Bevan M. (1966) Some geological implications of equilibrium between graphite and a C-H-O gas phase at high temperatures and pressures. Reviews of Geophysics, 4 (2) 223 doi:10.1029/rg004i002p00223
	Gibert, François, Guillaume, Damien, Laporte, Didier (1998) Importance of fluid immiscibility in the H2O-NaCl-CO2 system and selective CO2 entrapment in granulites: experimental phase diagram at 5-7 kbar, 900°C and wetting textures. European Journal of Mineralogy, 10 (6) 1109-1124 doi:10.1127/ejm/10/6/1109
	Hall, Donald L., Sterner, S. Michael (1993) Preferential water loss from synthetic fluid inclusions. Contributions to Mineralogy and Petrology, 114 (4) 489-500 doi:10.1007/bf00321753
	Hansen, E. C., Janardhan, A. S., Newton, R. C., Prame, W. K. B. N., Ravindra Kumar, G. R. (1987) Arrested charnockite formation in southern India and Sri Lanka. Contributions to Mineralogy and Petrology, 96 (2) 225-244 doi:10.1007/bf00375236
	Harlov, Daniel E., Hansen, Edward C., Bigler, Christopher (1998) Petrologic evidence for K-feldspar metasomatism in granulite facies rocks. Chemical Geology, 151 (1) 373-386 doi:10.1016/s0009-2541(98)00090-4
	He, Xiao-Fang, Santosh, M., Tsunogae, T., Malaviarachchi, Sanjeewa P.K. (2016) Early to late Neoproterozoic magmatism and magma mixing–mingling in Sri Lanka: Implications for convergent margin processes during Gondwana assembly. Gondwana Research, 32. 151-180 doi:10.1016/j.gr.2015.02.013
	He, Xiao-Fang, Santosh, M., Tsunogae, T., Malaviarachchi, Sanjeewa P.K., Dharmapriya, P.L. (2016) Neoproterozoic arc accretion along the ‘eastern suture’ in Sri Lanka during Gondwana assembly. Precambrian Research, 279. 57-80 doi:10.1016/j.precamres.2016.04.006
	Hiroi, Yoshikuni, Yanagi, Ayahiko, Kato, Mutsumi, Kobayashi, Tomoyuki, Prame, Bernard, Hokada, Tomokazu, Satish-Kumar, Madhusoodhan, Ishikawa, Masahiro, Adachi, Tatsuro, Osanai, Yasuhito, Motoyoshi, Yoichi, Shiraishi, Kazuyuki (2014) Supercooled melt inclusions in lower-crustal granulites as a consequence of rapid exhumation by channel flow. Gondwana Research, 25 (1) 226-234 doi:10.1016/j.gr.2013.04.001
	Hoefs, J., Touret, J. (1975) Fluid inclusion and carbon isotope study from bamble granulites (South Norway) Contributions to Mineralogy and Petrology, 52 (3) 165-174 doi:10.1007/bf00457292
	Hoernes, S., Fiorentini, E., Hoffbauer, R. (1994) The role of fluids in granulite-facies metamorphism as deduced from oxygen and carbon isotopic compositions. Precambrian Research, 66 (1) 183-198 doi:10.1016/0301-9268(94)90050-7
	HOLLAND, T. J. B., POWELL, R. (2011) An improved and extended internally consistent thermodynamic dataset for phases of petrological interest, involving a new equation of state for solids. Journal of Metamorphic Geology, 29 (3) 333-383 doi:10.1111/j.1525-1314.2010.00923.x
	Huizenga, Jan-Marten (2001) Thermodynamic modelling of C–O–H fluids. Lithos, 55 (1) 101-114 doi:10.1016/s0024-4937(00)00040-2
	Marten Huizenga, Jan (2005) COH, an Excel spreadsheet for composition calculations in the C–O–H fluid system. Computers & Geosciences, 31 (6) 797-800 doi:10.1016/j.cageo.2005.03.003
	Huizenga, Jan-Marten (2011) Thermodynamic modelling of a cooling C–O–H fluid–graphite system: implications for hydrothermal graphite precipitation. Mineralium Deposita, 46 (1) 23-33 doi:10.1007/s00126-010-0310-y
	Huizenga, Jan Marten, Touret, Jacques L.R. (2012) Granulites, CO2 and graphite. Gondwana Research, 22 (3) 799-809 doi:10.1016/j.gr.2012.03.007
	Jackson, D. H., Mattey, D. P., Harris, N. B. W. (1988) Carbon isotope compositions of fluid inclusions in charnockites from southern India. Nature, 333 (6169). 167-170 doi:10.1038/333167a0
	Katz, M.B. (1987) Graphite deposits of Sri Lanka: a consequence of granulite facies metamorphism. Mineralium Deposita, 22 (1) doi:10.1007/bf00204238
	Kehelpannala (1993)
	Kehelpannala (1995) Origin of vein graphite: another view , 95
	Wilbert Kehelpannala, K.V. (1997) Deformation of a High-Grade Gondwana Fragment, Sri Lanka. Gondwana Research, 1 (1) 47-68 doi:10.1016/s1342-937x(05)70005-8
	Kehelpannala, K.V. Wilbert (1999) Epigenetic Vein Graphite Mineralization in the Granulite Terrain of Sri Lanka. Gondwana Research, 2 (4) 654-657 doi:10.1016/s1342-937x(05)70231-8
	Kehelpannala, K.V. Wilbert (1999) Shear Zone-Controlled Arrested Charnockitization, Retrogression and Metasomatism of High-grade Rocks. Gondwana Research, 2 (4) 573-577 doi:10.1016/s1342-937x(05)70202-1
	Kehelpannala (2004) Gondwana Res. Arc accretion around Sri-Lanka during the assembly of Gondwana 7, 1323
	Kehelpannala (2017) J. Geol. Soc. Sri Lanka Post-metamorphic K-metasomatism of high-grade rocks – a new concept in geology 18, 1
	Kehelpannala (2017) Graphite occurrences in Sri Lanka
	Kehelpannala, K.V.W., Francis, M.D.P.L. (2001) Vein Graphite Deposits of the Kegalle District, Sri Lanka: Further Evidence for Post-Metamorphic, Fluid-Deposited Graphite. Gondwana Research, 4 (4) 655-656 doi:10.1016/s1342-937x(05)70454-8
	Kelsey, David E., Hand, Martin (2015) On ultrahigh temperature crustal metamorphism: Phase equilibria, trace element thermometry, bulk composition, heat sources, timescales and tectonic settings. Geoscience Frontiers, 6 (3) 311-356 doi:10.1016/j.gsf.2014.09.006
	Kirilova (2017) Textural change of graphitic carbon by tectonic and hydrothermal processes in an active plate boundary fault zone, Alpine Fault, New Zealand 453
	Kleinschrodt, R. (1994) Large-scale thrusting in the lower crustal basement of Sri Lanka. Precambrian Research, 66 (1) 39-57 doi:10.1016/0301-9268(94)90043-4
	Kriegsman, L. M., Schumacher, J. C. (1999) Petrology of Sapphirine-bearing and Associated Granulites from Central Sri Lanka. Journal of Petrology, 40 (8) 1211-1239 doi:10.1093/petroj/40.8.1211
	Kröner (1994) J. Geol. Soc. Sri Lanka Zircon ages from rocks of the Wanni complex, Sri Lanka 5, 41
	Kröner (1993) J. Geophys. Res. Age of metamorphism in the high-grade rocks of Sri Lanka 101, 513
	Kröner, A., Williams, I. S., Compston, W., Baur, N., Vitanage, P. W., Perera, L. R. K. (1987) Zircon Ion Microprobe Dating of High-Grade Rocks in Sri Lanka. The Journal of Geology, 95 (6) 775-791 doi:10.1086/629177
	Kröner (1991) Lithotectonic subdivision of the Precambrian basement of Sri-Lanka Vol. 5, 5
	Kröner, A., Jaeckel, P., Williams, I.S. (1994) Pb-loss patterns in zircons from a high-grade metamorphic terrain as revealed by different dating methods: UPb and PbPb ages for igneous and metamorphic zircons from northern Sri Lanka. Precambrian Research, 66 (1) 151-181 doi:10.1016/0301-9268(94)90049-3
	Kröner, A., Rojas-Agramonte, Y., Kehelpannala, K.V.W., Zack, T., Hegner, E., Geng, H.Y., Wong, J., Barth, M. (2013) Age, Nd–Hf isotopes, and geochemistry of the Vijayan Complex of eastern and southern Sri Lanka: A Grenville-age magmatic arc of unknown derivation. Precambrian Research, 234. 288-321 doi:10.1016/j.precamres.2012.11.001
	Kröner, A., Rojas-Agramonte, Y., Kehelpannala, K.V.W., Zack, T., Hegner, E., Geng, H.Y., Wong, J., Barth, M. (2013) Age, Nd–Hf isotopes, and geochemistry of the Vijayan Complex of eastern and southern Sri Lanka: A Grenville-age magmatic arc of unknown derivation. Precambrian Research, 234. 288-321 doi:10.1016/j.precamres.2012.11.001
	Landis, C. A. (1971) Graphitization of dispersed carbonaceous material in metamorphic rocks. Contributions to Mineralogy and Petrology, 30 (1) 34-45 doi:10.1007/bf00373366
	Luque, F. J., Pasteris, J. D., Wopenka, B., Rodas, M., Barrenechea, J. F. (1998) Natural fluid-deposited graphite; mineralogical characteristics and mechanisms of formation. American Journal of Science, 298 (6) 471-498 doi:10.2475/ajs.298.6.471
	Luque, F.J., Ortega, L., Barrenechea, J.F., Millward, D., Beyssac, O., Huizenga, J-M. (2009) Deposition of highly crystalline graphite from moderate-temperature fluids. Geology, 37 (3) 275-278 doi:10.1130/g25284a.1
	Luque, F.J., Crespo-Feo, E., Barrenechea, J.F., Ortega, L. (2012) Carbon isotopes of graphite: Implications on fluid history. Geoscience Frontiers, 3 (2) 197-207 doi:10.1016/j.gsf.2011.11.006
	Luque, F. J., Huizenga, J-M., Crespo-Feo, E., Wada, H., Ortega, L., Barrenechea, J. F. (2014) Vein graphite deposits: geological settings, origin, and economic significance. Mineralium Deposita, 49 (2) 261-277 doi:10.1007/s00126-013-0489-9
	Milisenda, C. C., Liew, T. C., Hofmann, A. W., Kröner, A. (1988) Isotopic Mapping of Age Provinces in Precambrian High-Grade Terrains: Sri Lanka. The Journal of Geology, 96 (5) 608-615 doi:10.1086/629256
	Milisenda, C.C., Liewa, T.C., Hofmanna, A.W., Köhler, H. (1994) Nd isotopic mapping of the Sri Lanka basement: update, and additional constraints from Sr isotopes. Precambrian Research, 66 (1) 95-110 doi:10.1016/0301-9268(94)90046-9
	Newton, R C (1989) Metamorphic Fluids in the Deep Crust. Annual Review of Earth and Planetary Sciences, 17. 385-410 doi:10.1146/annurev.ea.17.050189.002125
	NEWTON, R. C. (2004) Solubility of Anhydrite, CaSO4, in NaCl-H2O Solutions at High Pressures and Temperatures: Applications to Fluid-Rock Interaction. Journal of Petrology, 46 (4) 701-716 doi:10.1093/petrology/egh094
	Newton, Robert C., Tsunogae, Toshiaki (2014) Incipient charnockite: Characterization at the type localities. Precambrian Research, 253. 38-49 doi:10.1016/j.precamres.2014.06.021
	Newton, R. C., Smith, J. V., Windley, B. F. (1980) Carbonic metamorphism, granulites and crustal growth. Nature, 288 (5786). 45-50 doi:10.1038/288045a0
	Nokleberg, W. J. (1973) CO 2 as a source of oxygen in the metasomatism of carbonates. American Journal of Science, 273 (6) 498-514 doi:10.2475/ajs.273.6.498
	Ohmoto, H., Kerrick, D. M. (1977) Devolatilization equilibria in graphitic systems. American Journal of Science, 277 (8) 1013-1044 doi:10.2475/ajs.277.8.1013
	O'Neill (1987) Am. Mineral. Quartz-fayalite-iron and quartz-fayalite-magnetite equilibria and the free energy formation of fayalite (Fe2SiO4) and magnetite (Fe3O4) 72, 67
	Ortega, L., Millward, D., Luque, F.J., Barrenechea, J.F., Beyssac, O., Huizenga, J.-M., Rodas, M., Clarke, S.M. (2010) The graphite deposit at Borrowdale (UK): A catastrophic mineralizing event associated with Ordovician magmatism. Geochimica et Cosmochimica Acta, 74 (8) 2429-2449 doi:10.1016/j.gca.2010.01.020
	Osanai (2006) J. Asia Earth Sci. Metamorphic evolution of ultrahigh-temperature and high pressure granulites from Highland Complex, Sri Lanka 111, 145
	OSANAI, Yasuhito, SAJEEV, Krishnan, NAKANO, Nobuhiko, KITANO, Ippei, KEHELPANNALA, Wilbert K.V., KATO, Ryosuke, ADACHI, Tatsuro, MALAVIARACHCHI, Sanjeewa P.K. (2016) UHT granulites of the Highland Complex, Sri Lanka I: Geological and petrological background. Journal of Mineralogical and Petrological Sciences, 111 (3) 145-156 doi:10.2465/jmps.151227
	OSANAI, Yasuhito, SAJEEV, Krishnan, NAKANO, Nobuhiko, KITANO, Ippei, KEHELPANNALA, Wilbert K.V., KATO, Ryosuke, ADACHI, Tatsuro, MALAVIARACHCHI, Sanjeewa P.K. (2016) UHT granulites of the Highland Complex, Sri Lanka II: Geochronological constraints and implications for Gondwana correlation. Journal of Mineralogical and Petrological Sciences, 111 (3) 157-169 doi:10.2465/jmps.151230
	Perchuk, L. L., Safonov, O. G., Gerya, T. V., Fu, B., Harlov, D. E. (2000) Mobility of components in metasomatic transformation and partial melting of gneisses: an example from Sri Lanka. Contributions to Mineralogy and Petrology, 140 (2) 212-232 doi:10.1007/s004100000178
	Pili, Eric, Sheppard, Simon M.F., Lardeaux, Jean-Marc (1999) Fluid-Rock Interaction in the Granulites of Madagascar and Lithospheric-Scale Transfer of Fluids. Gondwana Research, 2 (3) 341-350 doi:10.1016/s1342-937x(05)70271-9
	Putnis (2010) Geofluids Fluid-induced processes: metasomatism and metamorphism 10, 254
	Raase, P., Schenk, V. (1994) Petrology of granulite-facies metapelites of the Highland Complex, Sri Lanka: implications for the metamorphic zonation and the P-T path. Precambrian Research, 66 (1) 265-294 doi:10.1016/0301-9268(94)90054-x
	Radhika, U.P., Santosh, M. (1996) Shear-zone hosted graphite in southern Kerala, India: implications for CO2 infiltration. Journal of Southeast Asian Earth Sciences, 14 (3) 265-273 doi:10.1016/s0743-9547(96)00063-3
	Ridley, John (1993) The relations between mean rock stress and fluid flow in the crust: With reference to vein- and lode-style gold deposits. Ore Geology Reviews, 8 (1) 23-37 doi:10.1016/0169-1368(93)90026-u
	Rumble, D. (2014) Hydrothermal Graphitic Carbon. Elements, 10 (6) 427-433 doi:10.2113/gselements.10.6.427
	Rumble, Douglas, Duke, Edward F., Hoering, Thomas L. (1986) Hydrothermal graphite in New Hampshire: Evidence of carbon mobility during regional metamorphism. Geology, 14 (6) 452 doi:10.1130/0091-7613(1986)14<452:hginhe>2.0.co;2
	Safonov, Oleg G., Aranovich, Leonid Y. (2014) Alkali control of high-grade metamorphism and granitization. Geoscience Frontiers, 5 (5) 711-727 doi:10.1016/j.gsf.2014.03.010
	Safonov (1995) Petrology Isotopic and compositional characteristics of coexisting minerals from metagabbro, the Highland Complex, Sri Lanka 5, 478
	SAJEEV, K. (2004) Ultrahigh-temperature Metamorphism (1150 C, 12 kbar) and Multistage Evolution of Mg-, Al-rich Granulites from the Central Highland Complex, Sri Lanka. Journal of Petrology, 45 (9) 1821-1844 doi:10.1093/petrology/egh035
	Sajeev (2003) Polar Geosc. Geochronological evidence for multistage-metamorphic events in ultrahigh-temperature granulites from central Highland Complex, Sri Lanka 16, 137
	Sajeev, K., Osanai, Y., Connolly, J. A. D., Suzuki, S., Ishioka, J., Kagami, H., Rino, S. (2007) Extreme Crustal Metamorphism during a Neoproterozoic Event in Sri Lanka: A Study of Dry Mafic Granulites. The Journal of Geology, 115 (5) 563-582 doi:10.1086/519778
	Sajeev, K., Williams, I.S., Osanai, Y. (2010) Sensitive high-resolution ion microprobe U-Pb dating of prograde and retrograde ultrahigh-temperature metamorphism as exemplified by Sri Lankan granulites. Geology, 38 (11) 971-974 doi:10.1130/g31251.1
	SANDIFORD, M., POWELL, R., MARTIN, S.F., PERERA, L.R.K. (1988) Thermal and baric evolution of garnet granulites from Sri Lanka. Journal of Metamorphic Geology, 6 (3) 351-364 doi:10.1111/j.1525-1314.1988.tb00425.x
	Santosh, M., Omori, S. (2008) CO2 flushing: A plate tectonic perspective. Gondwana Research, 13 (1) 86-102 doi:10.1016/j.gr.2007.07.003
	Santosh, M., Omori, S. (2008) CO2 windows from mantle to atmosphere: Models on ultrahigh-temperature metamorphism and speculations on the link with melting of snowball Earth. Gondwana Research, 14 (1) 82-96 doi:10.1016/j.gr.2007.11.001
	Santosh, M., Wada, H. (1993) Microscale isotopic zonation in graphite crystals: Evidence for channelled CO influx in granulites. Earth and Planetary Science Letters, 119 (1) 19-26 doi:10.1016/0012-821x(93)90003-r
	SANTOSH, M., TSUNOGAE, Toshiaki, YOSHIKURA, Shin-ichi (2004) "Ultrahigh density" carbonic fluids in ultrahigh-temperature crustal metamorphism. Journal of Mineralogical and Petrological Sciences, 99 (4) 164-179 doi:10.2465/jmps.99.164
	Santosh, M., Tsunogae, T., Malaviarachchi, Sanjeewa P.K., Zhang, Zeming, Ding, Huixia, Tang, Li, Dharmapriya, P.L. (2014) Neoproterozoic crustal evolution in Sri Lanka: Insights from petrologic, geochemical and zircon U–Pb and Lu–Hf isotopic data and implications for Gondwana assembly. Precambrian Research, 255. 1-29 doi:10.1016/j.precamres.2014.09.017
	Sanyal, Prasanta, Acharya, B.C., Bhattacharya, S.K., Sarkar, A., Agrawal, S., Bera, M.K. (2009) Origin of graphite, and temperature of metamorphism in Precambrian Eastern Ghats Mobile Belt, Orissa, India: A carbon isotope approach. Journal of Asian Earth Sciences, 36 (2) 252-260 doi:10.1016/j.jseaes.2009.06.008
	Schenk (1991) Metamorphic zonation and P-T history of the Highland Complex in Sri Lanka Vol. 5, 150
	Soman, K., Lobzova, R. V., Sivadas, K. M. (1986) Geology, genetic types, and origin of graphite in South Kerala, India. Economic Geology, 81 (4) 997-1002 doi:10.2113/gsecongeo.81.4.997
	Steele-MacInnis, Matthew, Lecumberri-Sanchez, Pilar, Bodnar, Robert J. (2012) HokieFlincs_H2O-NaCl : A Microsoft Excel spreadsheet for interpreting microthermometric data from fluid inclusions based on the PVTX properties of H 2 O–NaCl. Computers & Geosciences, 49. 334-337 doi:10.1016/j.cageo.2012.01.022
	Thiéry, Régis, Van Den Kerkhof, Alfonsus Martinus, Dubessy, Jean (1994) vX properties of CH4-CO2 and CO2-N2 fluid inclusions: modelling for T < 31°C and P < 400 bars. European Journal of Mineralogy, 6 (6) 753-772 doi:10.1127/ejm/6/6/0753
	Touret, J.L.R (2001) Fluids in metamorphic rocks. Lithos, 55 (1) 1-25 doi:10.1016/s0024-4937(00)00036-0
	Touret (1988) Rend. Soc. Ital. Mineral. Petrol. Geothermobarometry and fluid inclusions in a rock from the Doddabetta charnockite complex, Southwest India 43, 65
	Touret (2011) Fluids in granulites Vol. 207, 25
	Touret, Jacques L.R., Huizenga, Jan Marten (2012) Fluid-assisted granulite metamorphism: A continental journey. Gondwana Research, 21 (1) 224-235 doi:10.1016/j.gr.2011.07.022
	Touret, J.L.R., Santosh, M., Huizenga, J.M. (2016) High-temperature granulites and supercontinents. Geoscience Frontiers, 7 (1) 101-113 doi:10.1016/j.gsf.2015.09.001
	Touzain, P., Balasooriya, N., Bandaranayake, K., Descolas-Gros, C. (2010) VEIN GRAPHITE FROM THE BOGALA AND KAHATAGAHA-KOLONGAHA MINES, SRI LANKA: A POSSIBLE ORIGIN. The Canadian Mineralogist, 48 (6) 1373-1384 doi:10.3749/canmin.48.5.1373
	Van den Kerkhof, Alfons M, Hein, Ulrich F (2001) Fluid inclusion petrography. Lithos, 55 (1) 27-47 doi:10.1016/s0024-4937(00)00037-2
	Bruce Watson, E., Brenan, James M. (1987) Fluids in the lithosphere, 1. Experimentally-determined wetting characteristics of CO2H2O fluids and their implications for fluid transport, host-rock physical properties, and fluid inclusion formation. Earth and Planetary Science Letters, 85 (4) 497-515 doi:10.1016/0012-821x(87)90144-0
	Weis, Paul L, Friedman, Irving, Gleason, Jim P (1981) The origin of epigenetic graphite: evidence from isotopes. Geochimica et Cosmochimica Acta, 45 (12) 2325-2332 doi:10.1016/0016-7037(81)90086-7
	Whitney, D. L., Evans, B. W. (2010) Abbreviations for names of rock-forming minerals. American Mineralogist, 95 (1) 185-187 doi:10.2138/am.2010.3371
	Wijayananda (1985) Structural control of graphite mineralization at Kahatagaha-Kolongaha, Sri Lanka 6, 22
	Wilkinson, Jamie J. (2017) METASTABLE FREEZING: A NEW METHOD FOR THE ESTIMATION OF SALINITY IN AQUEOUS FLUID INCLUSIONS. Economic Geology, 112 (1) 185-193 doi:10.2113/econgeo.112.1.185
	Willbold, M, Hegner, E, Kleinschrodt, R, Stosch, H.-G, Kehelpannala, K.V.W, Dulski, P (2004) Geochemical evidence for a Neoproterozoic magmatic continental margin in Sri Lanka—relevance for the Rodinia–Gondwana supercontinent cycle. Precambrian Research, 130 (1) 185-198 doi:10.1016/j.precamres.2003.11.003
	Yoshida, M., Santosh, M. (1994) A tectonic perspective of incipient charnockites in East Gondwana. Precambrian Research, 66 (1) 379-392 doi:10.1016/0301-9268(94)90059-0
	Yoshida, Masaru, Funaki, Minoru, Vitanage, Piyadasa W. (1992) Proterozoic to Mesozoic East Gondwana: The juxtaposition of India, Sri Lanka, and Antarctica. Tectonics, 11 (2). 381-391 doi:10.1029/91tc02386
	Zhang, Chi, Duan, Zhenhao (2009) A model for C–O–H fluid in the Earth’s mantle. Geochimica et Cosmochimica Acta, 73 (7) 2089-2102 doi:10.1016/j.gca.2009.01.021

See Also

These are possibly similar items as determined by title/reference text matching only.

	Kehelpannala, K.V. Wilbert (1999) Epigenetic Vein Graphite Mineralization in the Granulite Terrain of Sri Lanka. Gondwana Research, 2 (4) 654-657 doi:10.1016/s1342-937x(05)70231-8
	Huizenga, Jan Marten, Touret, Jacques L.R. (2012) Granulites, CO2 and graphite. Gondwana Research, 22 (3) 799-809 doi:10.1016/j.gr.2012.03.007
	Touret, Jacques L.R., Huizenga, Jan Marten (2012) Fluid-assisted granulite metamorphism: A continental journey. Gondwana Research, 21 (1) 224-235 doi:10.1016/j.gr.2011.07.022
	Touret, Jacques L.R., Huizenga, Jan Marten (2012) Charnockite microstructures: From magmatic to metamorphic. Geoscience Frontiers, 3 (6) 745-753 doi:10.1016/j.gsf.2012.05.004
	Kehelpannala, K.V. Wilbert, Ratnayake, N. Prasanna (1999) Evidence for Post-Metamorphic Metasomatism of High-Grade Orthogneisses from Sri Lanka. Gondwana Research, 2 (2) 167-184 doi:10.1016/s1342-937x(05)70141-6
	Wilbert Kehelpannala, K.V. (1997) Deformation of a High-Grade Gondwana Fragment, Sri Lanka. Gondwana Research, 1 (1) 47-68 doi:10.1016/s1342-937x(05)70005-8
	Kehelpannala, K.V.W., Francis, M.D.P.L. (2001) Vein Graphite Deposits of the Kegalle District, Sri Lanka: Further Evidence for Post-Metamorphic, Fluid-Deposited Graphite. Gondwana Research, 4 (4) 655-656 doi:10.1016/s1342-937x(05)70454-8
	Huizenga, Jan Marten, van Reenen, Dirk, Touret, Jacques L.R. (2014) Fluid-rock interaction in retrograde granulites of the Southern Marginal Zone, Limpopo high grade terrain, South Africa. Geoscience Frontiers, 5 (5) 673-682 doi:10.1016/j.gsf.2014.01.004
	Kehelpannala, K.V. Wilbert, Collins, Alan S. (2006) The role of Sri Lanka and associated continental blocks in the assembly and break-up of Rodinia and Gondwana: Introduction. Journal of Asian Earth Sciences, 28 (1) 1-2 doi:10.1016/j.jseaes.2005.02.008
	Fu, Bin, Touret, Jacques L.R. (2014) From granulite fluids to quartz-carbonate megashear zones: The gold rush. Geoscience Frontiers, 5 (5) 747-758 doi:10.1016/j.gsf.2014.03.013
	de Vries, Sjoukje T., Touret, Jacques L.R. (2007) Early Archaean hydrothermal fluids; a study of inclusions from the ∼3.4 Ga Buck Ridge Chert, Barberton Greenstone Belt, South Africa. Chemical Geology, 237 (3) 289-302 doi:10.1016/j.chemgeo.2006.06.027