Abstract
Evidence of mafic and ultramafic magmatism exists in many parts of the Dharwar craton which is divided into two blocks, the West Dharwar Craton (WDC) and the East Dharwar Craton (EDC). The mafic-ultramafic rocks occur in supracrustal/greenstone belts and in numerous enclaves and slivers in the WDC. The oldest recorded maficultramafic rocks, which are mainly komatiitic in nature, are preserved in the Sargur Group which is more than 3.3–3.4 Ga old, the youngest being manifested by 63–76 Ma old mafic dyke magmatism, possibly related to Deccan volcanism.
In the Sargur Group, ultramafics rocks greatly dominate over mafic lithological units. Both extrusive and intrusive varieties, the latter in the form of differentiated layered complexes, occur. Mafic volcanics exists in all the greenstone belts of the eastern block and in the Bababudan and Western Ghats belts of the western block. In addition to the Sargur Group where stratigraphic sequences are unclear, mafic magmatism is recorded in three different formations of the Bababudan Group and two sub-divisions of the Shimoga and Chitradurga Groups where basaltic flows are conspicuous. In the well studied greenstone belts of Kolar and Hutti in the EDC, three to four different Formations of mafic volcanic rocks have been mapped. Isotopic dating has indicated that while mafic magmatism in the greenstone belts of the EDC covers only a short time span of between 2.65 to 2.75 Ga, those in the Dharwar Supergroup of the WDC cover a much longer time span from 3.35 to 2.5 Ga.
Mafic dyke magmatism has taken place repeatedly from 2.45 Ga to about 1.0 Ga, but, the peak of emplacement was between 1.8 and 1.4 Ga when the densely developed swarms on the western and south western portions of the Cuddapah Basin and in the central part of Karnataka, were intruded. Emplacement of potassic ultramafic magma in the form of kimberlite-lamproite which is confined to the EDC, is a later magmatic event that took place between 1.4 Ga and 0.8 Ga.
From a mineralization perspective, mafic magmatism of the supracrustal groups of the WDC and the greenstone belts of the EDC are the most important. V-Ti-magnetite bands constitute the most common deposit type recorded in the mafic-ultramafic complexes of the Sargur Group with commercially exploitable chromite deposits occurring in a number of belts. PGE mineralization of possible commercial value has so far been recorded in a single mafic-ultramafic complex, while copper-nickel mineralization occurs at certain localities in the Sargur and Chitradurga Groups. Gold mineralization hosted by mafic (occasionally ultramafic) rocks has been noted in many of the old workings located in supracrustal groups of rocks in the WDC and in the greenstone belts of EDC. Economically exploitable mineralization, however, occurs mainly in the greenstone belts of the Kolar, Ramagiri-Penkacherla and Hutti-Maski and along the eastern margin of the Chitradurga belt, where it is associated with a major N-S striking thrust zone separating the WDC from the EDC. Gold deposits of the eastern greenstone belts are comparable to those of the younger greenstone belts of Canada, Zimbabwe and Australia where the mineralization is associated with quartz carbonate veins often in iron-rich metabasic rocks. The gold was emplaced as hydrothermal fluids, derived from early komatiitic and tholeiitic magmas, and injected into suitable dilatent structures.
The other common type of mineralization associated with the ultramafic rocks of the Sargur Group and supracrustal belts, particularly of the WDC, are asbestos and soapstone, related to autometamorphism/metasomatism. Ruby/sapphire deposits occur in places at the contacts of ultramafic rocks with the Peninsular Gneiss, and are related to contact metamorphism and metasomatism. Mineable magnesite deposits related to low-temperature hydrothermal/lateritic alteration exist in the zone of weathering, particularly in the more olivine-rich rocks. Recent spurt in diamond exploration is offering promise of discovering economically workable diamondiferous kimberlite/lamproite intrusions in the EDC.
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References
Alapieti, T.T. and Lahteinen, J.J. (1986) Stratigraphy, petrology and platinum-group element mineralization of early Proterozoic Penikat layered intrusion, northern Finland. Econ. Geol., v.81, pp.1126–1136.
Alapieti, T.T., Devaraju, T.C. and Kaukonen, R.J. (2008) PGE mineralization in the late Archaean iron-rich mafic-ultramafic Hanumalapur Complex, Karnataka, India. Mineral. Petrol., v.92, pp.99–128.
Amitabha Sarkar and Mallik, A.K. (1995) Geochronology and geochemistry of Precambrian mafic dykes from Kolar gold field, Karnataka In: T.C. Devaraju (Ed.), Dyke Swarms of Peninsular India. Mem. Geol. Soc. India, No.33, pp.111–132.
Anantha Iyer, G.V. and Vasudev, V.N. (1979) Geochemistry of the Archaean metavolcanics rocks of Kolar and Hutti Gold fields, Karnataka, India. Jour. Geol. Soc. India, v.20, pp.419–432.
Anil Kumar, Bhaskara Rao, Y.J., Padma Kumari, V.M., Dayal, A.M. and Gopalan, K. (1988) Late Cretaceous Dyke in the Archaean Gneisses of South India. International Symposium on Mafic Dykes and related magmatism in Rifting and Intraplate Environments, IGCP-257, Technical Paper No. 1, (Abstracts), p.31.
Arndt, N.T., Francis, D. and Hynes, A.J. (1979) The field characteristics and petrology of Archaean and Proterozoic komatiites. Canadian Mineralogist, v.17, pp.147–163.
Babu, T.M. (1998) Diamonds in India. Geol. Soc. India, Bangalore, 332p.
Balakrishnan, S. Hanson, G.N. and Rajamani, V. (1988) Geochemistry of amphibolites from the Kolar schist belt. Jour. Geol. Soc. India. v.31, pp.9–11.
Balakrishnan, S. Hanson, G.N. and Rajamani, V. (1999) U-Pb isotope study on zircons and sphenes from the Ramagiri area, southern India: evidence for accretionary origin of eastern Dharwar craton during Late Archaean. Jour. Geol., v.107, pp.60–86.
Balasubrahmanyam, M.N. (1975) The age of dykes of the South Kanara, Mysore State: Geol: Surv. India Misc. Publ. No.23, pp.236–239.
Bhaskar Rao, Y.J. and Naqvi, S.M. (1978) Geochemistry of metavolcanics from the Bababudan schist belt: A Late Archaean/Early Proterozoic volcano-sedimentary pile from India. In: B.F. Windley and S.M. Naqvi (Eds.), Archaean Geochemistry. Elsevier, Amsterdam, pp.325–341.
Bhaskar Rao, Y.J, Pantulu, G.V.C., Damodara Reddy, V. and Gopalan, K. (1995) Time of early sedimentation and volcanism in the Proterozoic Cuddaph basin, south India: Evidence from Rb-Sr age of Pulivendla mafic sill. In: T.C. Devaraju (Ed.), Dyke Swarms of Peninsular India. Mem. Geol. Soc. India, No.33, pp.329–364.
Bhaskar Rao, Y.J., Sivaraman, T.V., Pantulu, G.V.C., Gopalan, K. and Naqvi, S.M. (1992) Rb-Sr ages of Late Archaean metavolcanics and granites, Dharwar Craton, South India and evidence of Early Proterozoic thermotectonic event(s). Precambrian Res., v.59, pp.145–170.
Chadwick, B. Vasudev V.N. and Jayaram, S. (1988) Stratigraphy and structure of Late Archaean Dharwar volcanic and sedimentary rocks and their basement in a part of the Shimoga basin, east of Bhadravathi, Karnataka. Jour. Geol. Soc. India, v.32, pp.1–19.
Chakraborthy, K.L. (1965) Geology and mineralogical characters of the Indian chromites. Econ. Geol., v.60, pp.1660–1668.
Chalapathi Rao, N.V., Miller, J.A., Gibson, S.A., Pyle, D.M. and Madhavan, V. (1999) Precise 40Ar/39Ar dating of Kotakonda kimberlite and Chelima lamproite, India: Implication to the timing of mafic dyke swarm activity in the Eastern Dharwar Craton. Jour. Geol. Soc. India, v.53. pp.425–432.
Crawford, A.R. (1969) Reconnaissance Rb-Sr dating of the Precambrian rocks in southern Peninsular India. Jour. Geol. Soc. India, v.10, pp.117–167.
Crawford, A.R. and Compston, W. (1973) The age of the Cuddapah and Kurnool Systems, Southern India. Jour. Geol. Soc. India, v.26, pp.301–314.
Crough, S.T. (1981) Mesozoic hotspot epeirogeny in eastern North America. Geology, v.9, pp.2–6.
Curtis, L.C. and Radhakrishna, B.P. (1995) Hutti Gold Mine into the 21st century, Geol. Soc. India, Bangalore, 176p.
Devaraju, T.C. (2003) Integrated geological and geochemical investigation of Gadag-Dharwar-Panaji sector of the Raichur-Goa sub-transect across the northern granite-greenstone segment of Karnataka Craton., DST Project Report (unpublished), 152p.
Devaraju, T.C., Alapieti, T.T., Halkoaho, T.A.A., Jayaraj, K.R. and Kahnadali, S.D. (1994) Evidence of PGE mineralization in the Channagiri mafic complex, Shimoga district, Karnataka. Jour. Geol. Soc. India, v.43, pp.317–318.
Devaraju, T.C. Laajoki, K., Zozulya, D., Khanadali, S.A. and Ugarkar, A.G. (1995) Neo-proterozoic dyke swarms of southern Karnataka: Part II: Geochemistry, oxygen isotope composition, Rb-Sr age and petrogenesis In: T.C. Devaraju (Ed.), Dyke Swarms of Peninsular India. Mem. Geol. Soc. India, No.33, pp.267–306.
Devaraju, T.C. and Alapieti T.T. (1997a) Occurrence of cobalt in the Kalyadi (Hassan Dist) and Ingaladhal (Chitradurga Dist) sulphide deposits of Karnataka. Jour. Geol. Soc. India, v.49, pp.397–398.
Devaraju, T.C., Alapieti T.T. and Ananthamurthy, K.S. (1997b) Occurrence of bismuth and selenium in the sulphide ores of Ingaladhal and Kalyadi, Karnataka. Jour. Geol. Soc. India, v.49, pp.735–736.
Devaraju, T.C., Alapieti, T.T. and Kaukonen, R.J. (2004a) Geochemistry of ultramafic lenses in the granitoids of the southeastern flanks of Shimoga Supracrustal belt (Karnataka) with a note on the distribution of platinum-group elements and minerals. Jour. Geol. Soc. India, v.63, pp.371–386.
Devaraju, T.C., Alapieti, T.T. and Kaukonen, R.J. (2004b) Ni-Au-PGE mineralization in the ultramafic body at Shankaraghatta, Shimoga schist belt, Karnataka: A mineralogical and geochemical study. Jour. Geol. Soc. India, v.63, pp.611–624.
Devaraju, T.C., Alapieti, T.T. and Kaukonen, R.J. (2005a) SEMEDS study of Platinum group minerals in the PGE mineralized Hanumalapura segment of the layered mafic-ultramafic complex of Channagiri, Davangere district, Karnataka, Jour. Geol. Soc. India, v.65, pp.745–752.
Devaraju, T.C., Alapieti, T.T. and Kaukonen, R.J. (2005b) PGE mineralization in the Hanumalapur segment of Channagiri ultramafic complex, Davangere district, Western Dharwar Craton: A case study. Jour. Econ. Geol. and Georesources Management, v.2, pp.139–144.
Devaraju, T.C., Alapieti T.T., Kaukonen, R.J. and Sudhakara, T.L. (2007a) Chemistry of Cr-spinels from ultramafic complexes of Western Dharwar Craton and its petrogenetic implications. Jour. Geol. Soc. India, v.69, pp.1161–1175
Devaraju, T.C., Alapieti T.T., Kaukonen, R.J. and Sudhakara, T.L. (2007b) Petrological and PGE mineralization study of the of the Channagiri mafic-ultramafic complex, Shimoga Supracrustal Belt., Karnataka Jour. Geol. Soc. India, v.70, pp.535–556.
Devaraju, T.C., Hannu Huhma, Sudhakara, T.L., Kaukonen, R.J. and Alapieti, T.T. (2007c) Petrology, Geochemistry, Model Sm-Nd ages and petrogenesis of the granitoids of the northern block of Western Dharwar Craton. Jour. Geol Soc. India, v.70, pp.889–911.
Devaraju, T.C., Kauko Laajoki and Gehor, S. (2002) Mineralogy of the Archaean manganese-rich iron formation of the Javanahalli schist belt, Karnataka. Indian Jour. Appl. Geochem., v.4, pp.504–525.
DeYoung, J.H.Jr, Sutphin, D.M. Werner, A.B.T. and Foose, M.P. (1984) ·International strategic minerals inventory report-ChromiumŽ U.S. Geol. Surv, Circular 930-B, 41p.
Dhoundial D.P., Paul, D.K., Amitabh Sarkar, Trivedi, J.R., Gopalan K. and Potts, P.J. (1987) Geochronology and geochemistry of Precambrian granitic rocks of Goa, SW India, Precambrian Res., v.36, pp.287–302.
French, J.E., Heaman, L.M., Chacko, T. and Rivard, B. (2004) Global mafic magmatism and continental breakup at 2.2 Ga.: Evidence from the Dharwar craton, India. Geol. Soc. Amer., Abst. with Program, v.36, p.340.
Giritharan, T.S. and Rajamani, V. (1998) Geochemistry of the metavolcanics of the Hutti-Maski Schist belt: Implications to gold metallogeny in the Eastern Dharwar Craton. Jour. Geol. Soc. India, v.51, pp.583–594.
Goodwin, A.M. (1977) Archaean basin-craton complexes and the growth of Precambrian shields. Canadian Jour. Earth Sci., v.14, pp.2737–2759.
Gopalan, K. and Anil Kumar (1989) IGCP Project 257, Status report and highlights of work done on dyke swarms by NGRI, second meeting (unpublished).
Grady, J.C. (1971) Deep main faults in South India. Jour. Geol. Soc. India, v.12, pp.55–62.
Halkoaho, T. (1994) The Sompujärvi and Ala-Penikat PGE reefs in the Penikat layered intrusion, northern Finland. ACTA Universitatis Ouluensis, Series A 249, 122p.
Hallberg, J.A. and Williams, D.A.C. (1972) Archaean mafic and ultramafic rock associations in the Eastern Gold Fields region, Western Australia, Earth Planet. Sci. Lett., v.15, pp.191–200.
Halls, H.C. Kumar, A., Srinivasan, R. and Hamilton, M.A. (2007). Paleomagnetism and U-Pb geochronology of easterly trending dykes in the Dharwar craton, India: feldspar clouding, radiating dyke swarms and the position of India at 2.37 Ga. Precambrian Res., v.155, pp.47–68.
Hansen, E.C., Stern, R.J., Devaraju, T.C., Mahabaleswar, B. and Kenny, P.J. (1997) Rubidium-strontium whole-rock ages of banded and incipient charnockites from southern Karnataka. Jour. Geol. Soc. India, v.50, pp.267–275.
Ikramuddin, M. and Stueber, A.M. (1976) Rb-Sr ages of Precambrian dolerite and alkaline dykes, south-east Mysore State, India, Lithos, v.9, pp.235–241.
Jafri, S.H., Khan, N., Ahmad, S.M. and Saxena, R. (1983) Geology and Geochemistry of Nuggihalli Schist belt, Dharwar craton, Karnataka, India. In: S.M. Naqvi and J.J.W. Rogers (Eds.), Precambrian of South India. Mem. Geol. Soc. India, no.4, pp.110–120.
Jaffri, S.H., Subba Rao, D.V., Ahmad, S.M. and Mathur, R. (1997) Spinifex textured peridotitic komatiites from Nuggihalli and Holenarasipur schist belts, Karnataka. J. Geol. Soc. India, v.49, pp.33–38.
Jayananda, M., Kano, T, Peucat, J.-J. and Channabasappa, S. (2008) 3.35 Ga Komatiite Volcanism in the Western Dharwar Craton, southern India: Constraints from Nd isotopes and whole-rock Geochemistry. Precambrian Res., v.62, pp.160–179.
Janardhan, A.S., Srikantappa, C. and Ramachandra, H.M. (1976) Sargur schist complex-An Archaean high-grade terrain in south India. In: B.F. Windley and S.M. Naqvi (Eds.), Archaean Geochemistry, Elsevier, pp.127–150.
Jenson, L.S., (1976) A new cation plot for classifying sub-alkaline volcanic rocks. Ontario Div. Min., Misc. Paper 66, 22p.
Krogstad, E.J. Balakrishnan, S., Mukhopadhyay, D. K., Rajamani, V. and Hanson, G.N. (1989) Plate tectonics at 2.5 billion years ago: Evidence from Kolar schist belt, south India. Science, v.243, pp.1337–1340.
Mallikarjuna Rao, J., Bhattacharji, S., Rao, M.N. and Hermes, O.D. (1995) 40Ar-39Ar Ages and geochemical characteristics of dolerite dykes around the Proterozoic Cuddaph basin. In: T.C. Devaraju (Ed.), Dyke Swarms of Peninsular India. Mem. Geol. Soc. India, No.33, pp. 267–306.
Mclaren, C.H. and De Villiers, J.P.R. (1982) The platinum-group chemistry and mineralogy of the UG-2 chromitite layer of the Bushveld Complex. Econ. Geol. v.77, pp.1348–1366.
Mishra, D.C. (2002) Crustal structure of India and its environs based on geophysical studies. Indian Minerals, v.56, pp.27–96
Mojzsis, S.J., Devaraju, T.C. and Newton, R.C. (2003) Ion microprobe U-Pb determinations on zircon from the late Archaean granulite facies transition zone of southern India. Jour. Geol., v.111, pp.407–425.
Mookherjee, A. and Phillip, R. (1979) Distribution of copper, cobalt and nickel in ores and host rocks, Ingaladhal, Karnataka. India. Mineralium Deposita., v.14, pp.33–35.
Murthy, N.G.K. (1987) Mafic dyke swarms of the Indian shield, In: H.C. Halls and W.F. Fahrig (Eds.), Mafic dyke swarms, Geol. Assoc. Canada. Special Paper 34, pp.393–400.
Murthy, N.G.K. (1995) Proterozoic mafic dykes in southern Peninsular India: A Review. In: T.C. Devaraju (Ed.), Dyke Swarms of Peninsular India. Mem. Geol. Soc. India, No.33, pp.81–98.
Murthy, V.N. and Sarma, K.J. (1992) Summary of work done by the GSI group from the minutes of the 3rd meeting of the IGCP Project 257 on Precambrian Mafic Dykes (unpubl).
Naqvi, S.M. and Hussain, S.M. (1973) Geochemistry of Dharwar metavolcanics and composition of primeval crust of Peninsular India. Geochim. Cosmoschim. Acta., v.37, pp.159–164.
Naqvi, S.M., Divakara Rao and Hari Narain (1978) The primitive crust: evidence from Indian shield. Precambrian Res., v.6, pp.323–345.
Naqvi, S.M., Manikyamba, C., Gnaneswar Rao, T., Subba Rao, D.V., Ram Mohan, M. and Srinivasa Sarma (2002) Geochemical and isotopic constraints of Neoarchaean fossil plume for evolution of volcanic rocks of Sandur greenstone belt, India. Jour. Geol. Soc. India, v.60, pp.27–56.
Nutman, A.P., Chadwick, B., Ramakrishnan, M. and Viswanatha, M.N. (1992) SHRIMP U-Pb ages of detrital zircon in Sargur supracrustal rocks in western Karnataka, southern India. Jour. Geol. Soc. India, v.39, pp.367–374.
Paul, D.K., Rex, D.C. and Harris, P.G. (1975) Chemical characteristics and K-Ar ages of Indian kimberlite. Geol. Soc. Amer. Bull. v.56, pp.364–366.
Project Vasundara Map (1994) Geol. Surv. India. Publ.
Radhakrishna, B.P. (1996) Mineral Resources of Karnataka. Geol. Soc. India, Bangalore, 471p.
Radhakrishna, B.P. (2007) Diamond exploration in India: Retrospect and Prospect. Jour. Geol. Soc. India, v.69, pp.419–442.
Radhakrishna, B.P. and Vaidyanadhan, R. (1997) Geology of Karnataka. Geol. Soc. India, Bangalore, 354p.
Radhakrishna, B.P. and Venkob Rao, N. (1967) The occurrence of amosite in the iron formation of Bababudan, Chikmagalore district. Mysore state. Geol. Soc. India. Bull., no.4, pp.99–102.
Raju, K.K. and Sharma, J.P. (1991) Geology and mineralization of the Hutti gold deposit, Karnataka. Symp. Vol. ‘Brazil Gold’, 91, pp.469–476.
Ramakrishnan, M. (1981) Review of Geochronology and geochemistry. In: J. Swami Nath and M. Ramakrishnan, (Eds.), Early Precambrian Supracrustals of Southern Karnataka. Mem. Geol. Surv. India, v.112, pp.249–260.
Ramam, P.K. (1999) Mineral Resources of Andhra Pradesh. Geol. Soc. India, Bangalore, 254p.
Ramam, P.K. and Murthy, V.N. (1997) Geology of Andhra Pradesh, Geol. Soc. India, Bangalore, 245p.
Ramiengar, A.S., Chayapathi, N., Raghunandan, K.R. Rao, M.S. and Rama Rao, P. (1978) Mineralogy and geochemistry of venadiferrous titano-magnetite deposit and associated copper mineralization in the gabbro-anorthosites near Masanikere, Shimoga district, Karnataka, India. In: B.F. Windley and S.M. Naqvi (Eds.), Archaean Geochemistry, Elsevier Sci. Publ. Co., pp.395–406.
Rao, K.R.P., Rao, K.V.S., Rao, N.V. and Reddy, T.A.K. (1997) New kimberlite field, Anantapur district, Andhra Pradesh. Rec. Geol. Surv. India, v.130, pp.31–34.
Rao, K.R.P., Reddy, T.A.K., Rao, K.V.S., Rao, K.S.B. and Rao, N.V. (1998) Geology, petrology and geochemistry of Narayanpet Kimberlite Field in Andhra Pradesh and Karnataka. Jour. Geol. Soc. India, v.52, pp.663–676.
Ravindra, B.M., Krishna Rao, B. and Vasudev, V.N. (1994) Copper sulphide mineralizations in Karnataka. In: B.M. Ravindra and V. Ranganathan (Eds.), Geo Karnataka, MGD Centenary Vol., Karnataka Asst. Geologists Assn, pp.131–146.
Reddy, T.A.K., Sridhar, M., Ravi, S., Chakravarthi, V. and Neelakantam, S. (2003) Petrography and geochemistry of the Krishna Lamproite Field. Jour. Geol. Soc. India, v.61, pp.131–146.
Rogers, J.J.W. (1990) Comparison of the Indian and Nubian-Arabian shields. In: S.M. Naqvi, S.M. (Ed.), Precambrian Continental Crust and its Economic Resources. Precambrian Geol., 8, Elsevier Publ., pp.223–244.
Shackleton, R.M. (1976) Shallow and deep level exposures of Archaean crust in India and Africa. In: B.F. Windley (Ed.), The Early History of the Earth. Wiley, London, pp.317–321.
Seshadri, T.S., Chaudhari, A., Harinadha Babu, P. and Chayapathi, N. (1981) Chitradurga belt. In: J. Swami Nath and M. Ramakrishnan (Eds.), Early Precambrian Supracrustals of Southern Karnataka. Mem. Geol. Surv. India, v.112, pp.163–198.
Srikantia, S.V. and Bose, S.S. (1985) Archaean Komatiites from Banasandra area of Kibbanahalli arm of Chitradurga Supracrustal belt in Karnataka. Jour. Geol. Soc. India, v.26, pp.407–417.
Srinivasan, R. and Srinivas, B.L. (1972) Dharwar stratigraphy. Jour. Geol. Soc. India, v.13, pp.72–83.
Stowe, C.W. (1987) Evolution of chromium ore fluids. Van Nostrand Reinhold, New York, 340p.
Subramanyam, V., Sarma, B.S. and Rao, M.S. (1991) Geochemistry, ore petrology and genesis of gold mineralization, Kolar greenstone belt, Karnataka. Geol. Surv. India Bull. Series A., No.51, 104p.
Suryanshu Choudhury, Er. (2006) Role of chromite mineralization in Orissa.http://orissagov.nic.in/e-magazine/orissareview/July2006/engpdf/57-60.pdf
Swami Nath, J. and Ramakrishnan, M. (Eds) (1981) Early Precambrian Supracrustals of Southern Karnataka. Mem. Geol. Surv. India, v.112, 352p.
Vasudev, V.N. (1983) Geological evolution of Archaean and early Proterozoic sulphide deposits of the Dharwar Craton, India. In: S.M. Naqvi and J.J.W. Rogers (Eds.), Precambrian of South India. Mem. Geol. Soc. India, no.4, pp.243–259.
Vasudev, V.N. and Ranganathan, N. (1994) Vanadium and sulphide bearing titaniferous magnetites in Western Dharwar Craton. In: Geo Karnataka, MGD Centenary Vol., Karnataka Asst. Geologists Assoc., Bangalore, pp.182–192.
Venkata Dasu, S.P., Ramakrishnan, M. and Mahabaleswar, B. (1991) Sargur-Dharwar relationship around the komatiite-rich J.C. Pura greenstone belt in Karnataka. Jour. Geol. Soc. India, v.38, pp.577–592.
Viljoen, M.J. and Viljoen, R.P. (1969a) The geology and geochemistry of the lower ultramafic unit of the Onverwacht Group and a proposed new class of igneous rock. Geol. Soc. S.A. Spec. Publ. No.2, pp.85–86.
Viljoen, M.J. and Viljoen, R.P. (1969b) Evidence for the existence of a mobile extrusive peridotitic magma from Komati Formation of Onverwacht Group. Geol. Soc. S. Africa, Spec. Publ. No.2, pp.87–112.
Viljoen, M.J., Viljoen R.P. and Pearton, T.N. (1982). In: N.T. Arndt and E.G. Nisbet (Eds.), The Nature and Distribution of Archaean Komatiite Volcanics in South Africa. Komatiites, Allen and Unwin, London, pp.53–79.
Viswanatha, M.N., Ramakrishnan, M. and Narayanan Kutty, T.R. (1977) Possible spinifex texture in a serpentinite from Karnataka. Jour. Geol. Soc. India, v.18, pp.194–197.
Vishwanatha, M.N. and Ramakrishnan, M. (1981) Kolar belt. In: J. Swami Nath and M. Ramakrishnan (Eds.), Early Precambrian Supracrustals of Southern Karnataka. Mem. Geol. Surv. India, v.112, pp.221–245.
Widdowson M., Pringle M.S. and Fernandez, O.A. (2000) A post K-T boundary (early Palaeocene) age for Deccan-type feeder dykes, Goa, India. Jour. Petrol., v.41, pp.1177–1194.
Yellur, D.D. and Nair, R.S. (1978) Assigning a magmatically defined tectonic environment to Chitradurga metabasalts, India, by geochemical methods. Precambrian Res., v.7, pp.259–281.
Zachariah, J.K, Hanson, G.N. and Rajamani, V. (1995) Post crystallization disturbances in the Nd and Pb Isotope systematics of metabasalts from the Ramagiri Schist Belt, South India. Geochim. Cosmochim. Acta., v.59, pp.3189–3203.
Zachariah, J.K., Rajamani, V. and Hanson, G.N. (1997) Geochemistry of metabasalts from the Ramagiri schist belt, south India: Petrogenesis, source characteristics and implications to the origin of the Eastern Dharwar Craton. Contrib. Mineral. Petrol., v.129, pp.87–104.
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Devaraju, T.C., Viljoen, R.P., Sawkar, R.H. et al. Mafic and ultramafic magmatism and associated mineralization in the Dharwar craton, southern India. J Geol Soc India 73, 73–100 (2009). https://doi.org/10.1007/s12594-009-0005-0
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DOI: https://doi.org/10.1007/s12594-009-0005-0