Alkmim, F.F., Marshak, S., Fonseca, M.A., 2001. Assembling West Gondwana in the Neoproterozoic: clues from the Sa˜o Francisco craton region, Brazil. Geology 29, 319– 322.(doi:10.1130/0091-7613(2001)029<0319:AWGITN>2.0.CO;2)

Barker, F., 1979. Trondhjemites: definition, environment and hypotheses of origin. In: Barker, F. (Ed.) Trondhjemites, Dacites and related rocks. Amsterdam: Elsevier, 1-12.

Barker, F. and Arth, J. G., 1976. Generation of trondhjemite-tonalitic liquids and Archaean bimodal trondhjemites - basalt suits. Geology, 4: 596-600.(doi:10.1130/0091-7613(1976)4<596:GOTLAA>2.0.CO;2)

Bilham, R., England, P., 2001. Plateau ‘pop-up’ in the great 1897 Assam earthquake. Nature, 410, 806–809.(doi:10.1038/35071057)

Braun, I., Kriegsmann, L., 2003. Proterozoic crustal evolution of southernmost India and Sri Lanka. In: Yoshida, M., Windley, B.F., Dasgupta, S. (Eds.), Proterozoic East Gondwana: Supercontinent Assembly and Break-up. Geol. Soc. Lond., Spec. Publ., 206, 169– 202.

Burke, K., Dewey, J. F., 1972. Orogeny in Africa. In: Dessauvagie, T.F.J., Whiteman, A.J. (Eds.), Orogeny in Africa. Department of Geology, University of Ibadan, Nigeria, 583– 608.

Campos-Neto, M. C., 2000. Orogenic systems from southwestern Gondwana. In: Cordani, U.G., Milani, E.J., Thomaz-Filho, A., Campos, D.A. (Eds.), Tectonic Evolution of South America. 31st International Geological Congress, Rio de Janeiro, Brazil, 335– 365.

Cartwright, I., 1995. Origin of felsic sheets in the Scourian granulites: new evidence from rare earth elements. Discussion. Scott. Journal of Geology 31, 91–92.

Chatterjee, N., Mazumdar, A. C., Bhattacharya, A. and Saikia, R. R., 2007. Mesoproterozoic granulites of the Shillong–Meghalaya Plateau: Evidence of westward continuation of the Prydz Bay Pan-African suture into Northeastern India. Precambrian Res. 152, 1–26.(doi:10.1016/j.precamres.2006.08.011)

Collins, W. J., Beaus, S. D., White, A. J. R. and Chappel, B. W., 1982. Nature and origin of A-type granites with particular reference to Southeastern Australia. Contrib. Mineral. Petrol. 80, 189-200.(doi:10.1007/BF00374895)

Collins A. S., 2003. Structure and age of the northern Leeuwin Complex, Western Australia: constraints from field mapping and U-Pb isotope analysis. Australian Journal of Earth Sciences, 50, 585-599.(doi:10.1046/j.1440-0952.2003.01014.x)

Cordani, U. G., Sato, K., 1999. Crustal evolution of the South American Platform, based on Nd isotopic systematics on granitoids rocks. Episodes 22, 167–173.

Cordani, U. G., D’Agrella-Filho, M. S., Brito-Neves, B. B., Trindade, R. I. F., 2003. Tearing up Rodinia: the Neoproterozoic palaeogeography of South American cratonic fragments. Terra Nova, 15.

Crawford, A. R., 1974. Indo-Antarctica, Gondwana Land and pattern of the distortion of a granulite belt. Tectonophysics 22, 141–157.(doi:10.1016/0040-1951(74)90038-9)

Desikachar, S. V., 1974. A review of the tectonic and geological history of eastern India in terms of plate tectonic theory. Journal Geological Society of India 15, 137–149.

Dobmeier, C. J., Raith, M. M., 2003. Crustal architecture and evolution of the Eastern Ghats Belt and adjacent regions of India. In: Yoshida, M., Windley, B. F., Dasgupta, S. (Eds.), Proterozoic East Gondwana: Supercontinent assembly and breakup. Geol. Soc., Special Publications, London, 206, 145–168.

Evans, P., 1964. The tectonic framework of Assam. Journal Geological Society of India. 5, 80–96.

Fitzsimons, I. C. W., 2000. A review of tectonic events in the East Antarctic Shield, and their implications for Gondwana and earlier supercontinents. Journal of African Earth Sciences. 31, 3–23.(doi:10.1016/S0899-5362(00)00069-5)

Fyfe, W. S., 1973. The granulite-facies, partial melting and the Archaean crust. Philos. Trans. R. Soc. Lond., A 273, 457–462.(doi:10.1098/rsta.1973.0011)

Ghosh, S., Fallick, A. E., Paul, D. K., Potts, P. J., 2005. Geochemistry and origin of Neoproterozoic granitoids of Meghalaya, Northeast India: Implications for linkage with amalgamation of Gondwana Supercontinent. Gond. Res. 8, 421–432.(doi:10.1016/S1342-937X(05)71144-8)

Ghosh, S., Chakraborty, S., Paul, D. K., Bhalla, J. K., Bishui, P. K. and Gupta, S. N., 1994. New Rb-Sr isotopic ages and geochemistry of granitiods from Meghalaya and their significance in middle to late Proterozoic crustal evolution. Indian Minerals, 48, 33-44.

Gupta, R. P., Sen, A. K., 1988. Imprints of Ninety-East Ridge in the Shillong Plateau, Indian shield. Tectonophysics 154, 335–341.(doi:10.1016/0040-1951(88)90111-4)

Harris, L. B., 1993. Correlations of tectonothermal events between the central Indian tectonic zone and the Albany Mobile Belt of Western Australia. In: Findlay, R.H., Unrug, R., Banks, M.R., Veevers, J.J. (Eds.), Gondwana Eight: Assembly, Evolution and Dispersal. Balkema, Rotterdam, 165–180.

Hoffman, P. F., 1991. Did the breakout of Laurentia turn Gondwana inside-out? Science 252, 1409–1412.(doi:10.1126/science.252.5011.1409)

Hoffman, P. F., 1999. The break-up of Rodinia, birth of Gondwana, true polar wander and the snowball Earth. Journal of African Earth Sciences. 28, 17–33.(doi:10.1016/S0899-5362(99)00018-4)

Kehelpannala, K. V. W., 1997. Deformation of a high-grade Gondwana fragment, Sri Lanka. Gondwana Research 1, 47–68.(doi:10.1016/S1342-937X(05)70005-8)

Kröner, A., 1991. African linkage of Precambrian Sri Lanka. Geologische Rundschau 80, 429-440.(doi:10.1007/BF01829375)

Kröner, A., 2002. The Mozambique belt of East Africa and Madagascar: significance of zircon and Nd model ages for Rodinia and Gondwana supercontinent formation and dispersal. South African Journal of Geology 104, 151–166.(doi:10.2113/1040151)

Kröner, A., Kehelpannala, W., Hegner, E., 2003. Ca. 700– 1000 Ma magmatic events and Grenvillian deformation in western Sri Lanka: relevance for Rodinia supercontinent formation and dispersal, and Gondwana amalgamation. Journal of Asian Earth Sciences. 22, 279–300.(doi:10.1016/S1367-9120(03)00060-9)

Kröner, A. and Cordani, U., 2003. African, South Indian and American cratons were not part of the Rodinia supercontinent: evidence from field relationship and geochronology. Tectonophysics 375, 325-352.(doi:10.1016/S0040-1951(03)00344-5)

Liu, X. C., Jahn, B. M., Zhao,Y., Li, M., Li, H. M., Liu, X. H., 2006. Late Pan-African granitoids from the Grove Mountains, East Antarctica: Age, origin and tectonic implications. Precambrian Research 145, 131–154.(doi:10.1016/j.precamres.2005.11.017)

Meert, J. G. and Van derVoo, R., 1997. The assembly of Gondwana 800-550 Ma. J. Geodyn. 23, 223-226.(doi:10.1016/S0264-3707(96)00046-4)

Mikhalsky, E.V., Sheraton, J.W., Beliatsky, B.V., 2001. Preliminary U–Pb dating of Grove Mountains rocks: implications for the Proterozoic to Early Palaeozoic tectonic evolution of the Lambert Glacier-Prydz Bay area (East Antarctica). Terra Antarctica 8, 3–10.

Nandy D. R., 1980. Tectonic patterns in northeastern India. Indian Journal of Earth Sciences. 7, 103–107.

Nandy, D. R., 2001. Geodynamics of the Northeastern India and the Adjoining Region. Acb. Publication, New Delhi, 209 pp. O’ Connor, J. T., 1965. A classification for quartz rich igneous rocks, based on feldspar ratios. U. S. Geol. Surv. Proof. Paper, 525-B: 79-84.

O’ Connor, J. T., 1965. A classification for quartz rich igneous rocks, based on feldspar ratios. U. S. Geol. Surv. Proof. Paper, 525-B: 79-84.

Pearce, J. A., Harris, N. B. W. and Tindle, A. G., 1984. Trace element discrimination diagrams for the tectonic interpretations of granitic rocks. J. Petrol. 25, 956-983.

Peccerillo, R. and Taylor, S. R., 1976. Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area, northern Turkey. Contrib. Mineral. Petrol. 58, 63–81.(doi:10.1007/BF00384745)

Pimentel, M. M., Fuck, R. A., Jost, H., Ferreira-Filho, C. F., de Arau' -jo, S. M., 2000. The basement of the Brasi'lia fold belt and the Goia's magmatic arc. In: Cordani, U.G., Milani, E.J., Thomaz-Filho, A., Campos, D.A. (Eds.), Tectonic Evolution of South America. 31st International Geological Congress, Rio de Janeiro, Brazil, 195–229.

Pisarevsky, S. A., Wingate, M. T. D., Powell, C.McA., Johnson, S. P., Evans, D. A. D., 2003. Models of Rodinia assembly and fragmentation. In: Yoshida, M., Windley, B.F., Dasgupta, S. (Eds.), Proterozoic East Gondwana: Supercontinent Assembly and Break-up. Geological Society of London. Special Publication 206, 35– 55.

Ramachandra, H.M., Roy, A., 2001. Evolution of the Bhandara-Balaghat granulite belt along the southern margin of the Sausar Mobile Belt of central India. Proc. Indian Academy of Sciences 110/4, 351–368.

Rathore, S. S., Venkatesan, T. R. and Srivastava, R. K., 1999. Rb-Sr isotope dating of Neoproterozoic (Malani Group) magmatism from Southwest Rajasthan, India: evidence of younger Pan-African thermal event by 40Ar-39Ar studies. Gondwana Research 2, 271-281.(doi:10.1016/S1342-937X(05)70151-9)

Ray Barman, T., Bishui, P. K., Mukhopadhyay, K., Ray, J. N., 1994. Rb–Sr geochronology of the high grade rocks from Purulia, West Bengal, and Jamua-Dumka sector, Bihar. Indian Mineral 48, 45–60.

Rickers, K., Mezger, K., Raith, M. M., 2001. Evolution of the continental crust in the Proterozoic Eastern Ghats Belt, India and new constraints for Rodinia reconstruction: Implications from Sm–Nd, Rb–Sr and Pb–Pb isotopes. Precambrian Research 112, 183–210.(doi:10.1016/S0301-9268(01)00146-2)

Rogers J. J. W. and Santosh, M., 2002. Configuration of Columbia, a Mesoproterozoic supercontinent. Gondwana Research 5, 5-22.(doi:10.1016/S1342-937X(05)70883-2)

Rollinson, H. R. and Tarney, J., 2005. Adakites—the key to understanding LILE depletion in granulites Lithos 79, 61-81.

Santosh, M. and Drury, S. A., 1988. Alkali granites with Pan-African affinities from Kerala, Indian Journal of Geology., 96, 616-626.

Santosh, M., Tanaka, K., Yokoyama, K. and Collins, A. S., 2005. Late Neoproterozoic-Cambrian felsic magmatism along transcrustal shear zones in southern India: U-Pb electron microprobe ages and implications for amalgamation of the Gondwana supercontinent. Gondwana Research 8, 31-42.(doi:10.1016/S1342-937X(05)70260-4)

Selvan, A. P., Prasad, R. N., DhanaRaju, R. and Sinha, R. M., 1995. Rb-Sr age of metaluminous granitiods of South Khasi batholith, Meghalaya: implication on its genesis and Pan-Africian activity in Northeastern India. Journal Geological Society of India. 46, 619-624.

Shaw, R.K., Arima, M., Kagami, H., Fanning, C. M., Shiraishi, K., Motoyoshi,Y., 1997. Proterozoic events in the Eastern Ghats Granulite Belt, India: evidence from Rb–Sr, Sm–Nd systematics, and SHRIMP dating. J. Geol. 105, 645–656.(doi:10.1086/515968)

Srivastava R. K. and Sinha A. K, 2004. Early Cretaceous Sung Valley ultramafic-alkaline-carbonatite complex, Shillong Plateau, Northeastern India: petrological and genetic significance. Mineral.Petrol. 80, 241-263.(doi:10.1007/s00710-003-0025-1)

Sun, S. S. and McDonough, W. F., 1989. Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes. In: Saunders, A. D. and Norry, M.J. (Eds.), Magmatism in the Ocean basins. Geological Society of London. Special Publication 42, 313-345.

Tarney, J., Weaver, B. L., 1987. Geochemistry of the Scourian Complex: petrogenesis and tectonic models. Geological Society of London. Special Publication 27, 45– 56.(doi:10.1144/GSL.SP.1987.027.01.05)

Windley, B. F., 1995. The evolving continents (Third Ed.). John Wiley and Sons, Chichester, 526pp.

Winter, J. D., 2001. An Introduction to Igneous and Metamorphic Petrology. Prentice-Hall, New Jersey, 697 pp.