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India | |
- Wajrakarur kimberlite field
| Rao, N. C., & Srivastava, R. K. (2009). Petrology and geochemistry of diamondiferous Mesoproterozoic kimberlites from Wajrakarur kimberlite field, Eastern Dharwar craton, southern India: genesis and constraints on mantle source regions. Contributions to Mineralogy and Petrology, 157(2), 245-265. |
| George, Bivin Geo, Shalini, N., Pandian, M.S., Rai, Vinai K., Bhutani, Rajneesh, Balakrishnan, S. (2013) Strontium and sulphur isotopic constraints on the formation of the Mangampeta barite deposit, Cuddapah basin. Current Science, 105 (4) 499-504 Nagaraju, A., Suresh, S., Killham, K., Hudson-Edwards, K. (2006) Hydrogeochemistry of Waters of Mangampeta Barite Mining Area, Cuddapah Basin, Andhra Pradesh, India. Turkish Journal of Engineering and Environmental Sciences, 30(4), 203-219. Clark, S.H.B., Poole, F.G., and Zhongcheng Wang (2004): Ore Geology Reviews 24, 85-101. |
- Kadapa District (YSR District)
| Anantha Iyer, G.V. et al (1987) Memoir No. 6, Geological Society of India, 459-469. |
| Chalapathi Rao, N. V., Gibson, S. A., Pyle, D. M., & Dickin, A. P. (2004). Petrogenesis of Proterozoic lamproites and kimberlites from the Cuddapah Basin and Dharwar craton, southern India. Journal of Petrology, 45(5), 907-948. |
| Bergman, S. C. (1987). Lamproites and other potassium-rich igneous rocks: a review of their occurrence, mineralogy and geochemistry. Geological Society, London, Special Publications, 30(1), 103-190. |
| Subbarao, K. V., Bhaskar, R., & Le Bas, M. J. (1995). Are the Vinjamur rocks carbonatites or meta-limestones?. Journal of the Geological Society of India, 46(2), 125-137. Vasudevan, D., Rao, T.M. & Reddy, C.K. 1977. A note on the occurrence of carbonatite in the Nellur schist belt, near Vinjamur, Udayagiri Taluk, A.P. Journal of the Geological Society of India, 18, 515-518. Kumar, A., Srinivasan, R., Gopalan, K., & Patil, D.J. 1992. Reply. Journal of the Geological Society of India, 42, 305-307. |
| Bhowmik, S. K. (2000). Ultrapotassic rocks along late ductile shear zones from the Eastern Ghats belt, India. Gondwana Research, 3(1), 55-63. |
- East Karbi Anglong District
| [var. Iron-bearing Dolomite] S. Nag, S. K. Sengupta, R. K. Gaur and A. Absar (1999) Alkaline rocks of Samchampi-Samteran, District Karbi Anglong, Assam, India. Proceedings of the Indian Academy of Sciences, Earth and Planetary Sciences, 108, 33-48. |
| Nag, S., Sengupta, S. K., Gaur, R. K., & Absar, A. (1999). Alkaline rocks of Samchampi-Samteran, District Karbi-Anglong, Assam, India. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 108(1), 33-48. Kumar, D., Mamallan, R., Saravanan, B., Jain, S. K., & Krishnamurthy, P. (1989). Petrology and geochemistry of the Samchampi alkaline carbonatite complex, Mikir Hills, Assam, India. Exploration and Research of Atomic Minerals, 2, 183-199. |
| Chandra, J., Paul, D., Viladkar, S. G., & Sensarma, S. (2018). Origin of the Amba Dongar carbonatite complex, India and its possible linkage with the Deccan Large Igneous Province. Geological Society, London, Special Publications, 463(1), 137-169. Srivastava, R. K. (1994). Petrology, petrochemistry and genesis of the alkaline rocks associated with the Ambadungar Carbonatite Complex, Baroda district, Gujarat, India. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 43, 23-23. Rock, N. M. S., Gwalani, L. G., & Griffin, B. J. (1994). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Alkaline Province, Gujarat, India. 2. Complexly zoned clinopyroxene phenocrysts. Mineralogy and Petrology, 51(2-4), 113-135. Viladkar, S. G., & Wimmenauer, W. (1992). Geochemical and petrological studies on the Amba Dongar carbonatites (Gujarat, India). Chem. Erde, 52, 277-291. Viladkar, S. G., & Wimmenauer, W. (1992). Geochemical and petrological studies on the Amba Dongar carbonatites (Gujarat, India). Chem. Erde, 52, 277-291. Notholt, A. J. G., Highley, D. E., & Deans, T. (1990). Economic minerals in carbonatites and associated alkaline igneous rocks. Institution of Mining and Metallurgy Transactions. Section B. Applied Earth Science, 99. Viladkar, S. G. (1984). Alkaline rocks associated with the carbonatites of Amba Dongar, Chhota Udaipur, Gujarat, India. Indian Mineral, 130-135. Viladkar, S. G. (1981). The carbonatites of Amba Dongar, Gujarat, India. Bull. Geol. Soc. Finland, 53, 17-28. Deans, T., Sukheswala, R. N., Sethna, S. F., & Viladkar, S. G. (1973). Discussion and contributions: Metasomatic feldspar rocks (potash fenites) associated with the fluorite deposits and carbonatites of Amba Dongar, Gujarat, India. Inst. Mining Metall. Trans, 82, 33-40. Deans, T., Sukheswala, R. N., Sethna, S. F., & Viladkar, S. G. (1972). Metaso-matic feldspar rocks (potash fenites) associated with the fluorite deposits and earbonatites of Amba Dongar, Gujarat, India: Institution of Mining and Metallurgy Transactions, v. 81, p. |
| Srivastava, R. K. (1997). Petrology, geochemistry and genesis of rift-related carbonatites of Ambadungar, India. Mineralogy and Petrology, 61(1-4), 47-66. |
| Khandelwal, M. K., Maithani, P. B., Pant, P. C., Hansda, P. K., & Ramachandran, S. (1997). Geological and Geochemical Studies on Carbonatites and Rocks of Carbonatite (?) Affinity from Areas North of the Narmada Lineament in Madhya Pradesh and Gujarat. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 50, 307-314. Rock, N. M. S., Gwalani, L. G., & Griffin, B. J. (1994). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Alkaline Province, Gujarat, India. 2. Complexly zoned clinopyroxene phenocrysts. Mineralogy and Petrology, 51(2-4), 113-135. Viladkar, S. G., & Avasia, R. K. (1994). Analcime-phonolite and associated alkaline rocks of Panwad-Kawant Complex, Gujarat, India. Chem Erde, 54, 49-66. Gwalani, L. G., Rock, N. M. S., Chang, W. J., Fernandez, S., Allegre, C. J., & Prinzhofer, A. (1993). Alkaline rocks and carbonatites of Amba Dongar and adjacent areas, Deccan Igneous Province, Gujarat, India: 1. Geology, petrography and petrochemistry. Mineralogy and Petrology, 47(2-4), 219-253. Sukheswala, R. N., & Avasia, R. K. (1971). Carbonatite-alkalic complex of Panwad-Kawant, Gujarat, and its bearing on the structural characteristics of the area. Bulletin Volcanologique, 35(3), 564-578. |
| Sahoo, Janmejaya, Prabodha R. Sahoo, Israil Khan, and Akella S. Venkatesh. (2022) "Insights into the Metallogenesis of the Felsic Volcanic Hosted Mundiyawas-Khera Cu Deposit, Alwar Basin, Western India" Minerals 12, no. 3: 370. https://doi.org/10.3390/min12030370 |
| Srivastava, P. K., & Devi, I. (2015). Two-Generation of Sphalerite from Pb-Zn Mineralization of Riasi Inlier, Jammu and Kashmir, India: Evidences from Sulphur Isotopes. International Journal of Geosciences, 6(05), 497. |
| [var. Iron-bearing Dolomite] Srivastava, R. K., Rao, N. C., & Sinha, A. K. (2009). Cretaceous potassic intrusives with affinities to aillikites from Jharia area: magmatic expression of metasomatically veined and thinned lithospheric mantle beneath Singhbhum Craton, Eastern India. Lithos, 112, 407-418. Mitchell, R. H. (2007). Potassic rocks from the Gondwana coalfields of India: Closing Pandora's box of petrological confusion?. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 69(3), 505. Kent, R. W., Kelley, S. P., & Pringle, M. S. (1998). Mineralogy and 40Ar/39Ar geochronology of orangeites (Group II kimberlites) from the Damodar Valley, eastern India. Mineralogical Magazine, 62(3), 313-323. Rock, N. M. S., Griffin, B. J., Edgar, A. D., Paul, D. K., & Hergt, J. M. (1992). A spectrum of potentially diamondiferous lamproites and minettes from the Jharia coalfield, eastern India. Journal of Volcanology and Geothermal Research, 50(1-2), 55-83. |
| [var. Iron-bearing Dolomite] Rock, N. M. S., Griffin, B. J., Edgar, A. D., Paul, D. K., & Hergt, J. M. (1992). A spectrum of potentially diamondiferous lamproites and minettes from the Jharia coalfield, eastern India. Journal of Volcanology and Geothermal Research, 50(1-2), 55-83. |
| Anantharamu, T. R., RAO, K., MANJUNATHA, AHMED, S., PRASAD, T., REDDY, T., ... & SUGAVANAM, E. (1995). CARBONATITE AROUND AJJIPURAM, KOLLEGAL TALUK, KARNATAKA. JOURNAL OF THE GEOLOGICAL SOCIETY OF INDIA, 46(6), 663-668. |
| Narayanan Kutty, T.R. and Anantha Iyer, G.V. (1977) Indian Journal of Earth Sciences, 4, #2, 141-159. |
| Randive, K., & Meshram, T. (2020). An Overview of the carbonatites from the Indian subcontinent. Open Geosciences, 12(1), 85-116. Nair, N. G. K., Santosh, M., & Thampi, P. K. (1984). Alkali granite-syenite-carbonatite association in Munnar Kerala, India implications for rifting, alkaline magmatism and liquid immiscibility. Proceedings of the Indian Academy of Sciences-Earth and Planetary Sciences, 93(2), 149-158. |
| Rajesh, V. J., Arai, S., Santosh, M., & Tamura, A. (2010). LREE-rich hibonite in ultrapotassic rocks in southern India. Lithos, 115(1-4), 40-50. Rajesh, V. J., & Arai, S. (2006). Baddeleyite-apatite-spinel-phlogopite (BASP) rock in Achankovil Shear Zone, South India, as a probable cumulate from melts of carbonatite affinity. Lithos, 90(1-2), 1-18. Rajesh, V. J., Arima, M., & Santosh, M. (2004). Dunite, glimmerite and spinellite in Achankovil Shear Zone, South India: implications for highly potassic CO2-rich melt influx along an intra-continental shear zone. Gondwana Research, 7(4), 961-974. Sandiford, M., & Santosh, M. (1991). A granulite facies kalsilite-leucite-hibonite association from Punalur, Southern India. Mineralogy and Petrology, 43(3), 225-236. |
| www.mpgovt.nic.in/mineralresources/ |
| Roy, S., and Purkait, P.K. (1968): Contributions to Mineralogy and Petrology 20, 86-114. |
| Banerjee, D. M., Basu, P. C., and Srivastava, N., 1980, Petrology, Mineralogy, Geochemistry, and Origin of the Precambrian Aravallian Phosphorite Deposits of Udaipur and Jhabua, India, Economic Geology 75: 1181-1199. |
| Banerjee, D. M., Basu, P. C., and Srivastava, N., 1980, Petrology, Mineralogy, Geochemistry, and Origin of the Precambrian Aravallian Phosphorite Deposits of Udaipur and Jhabua, India, Economic Geology 75: 1181-1199. |
| Banerjee, D. M., Basu, P. C., and Srivastava, N., 1980, Petrology, Mineralogy, Geochemistry, and Origin of the Precambrian Aravallian Phosphorite Deposits of Udaipur and Jhabua, India, Economic Geology 75: 1181-1199. |
| Tripathi, S., & Deb, M. (2022). Mineralogy of the Imalia Au-Sn-bearing polymetallic sulfide deposit, Mahakoshal belt, Central India. Journal of Asian Earth Sciences: X, 8, 100117. |
| Rao, C. N. (2006). Mesoproterozoic diamondiferous ultramafic pipes at Majhgawan and Hinota, Panna area, central India: Key to the nature of sub-continental lithospheric mantle beneath the Vindhyan basin. Journal of earth system science, 115(1), 161-183. |
| Woolley, Alan R. (2019) Alkaline Rocks and Carbonatites of the World. Part 4: Antarctica, Asia and Europe (excluding the former USSR), Australasia and Oceanic Islands. The Geological Society of London. doi:10.1144/mpar4 Rao, C. N. (2006). Mesoproterozoic diamondiferous ultramafic pipes at Majhgawan and Hinota, Panna area, central India: Key to the nature of sub-continental lithospheric mantle beneath the Vindhyan basin. Journal of earth system science, 115(1), 161-183. Chatterjee, A. K., & Rao, K. S. (1995). MAJHGAWAN DIAMONDIFEROUS PIPE, MADHYA-PRADESH, INDIA-A REVIEW. Journal of the Geological Society of India, 45(2), 175-189. Scott Smith, B.H. 1989. Lamproites and kimberlites in India. Neues Jahrbuch für Mineralogie Abhandlungen, 161, 193-225. |
- East Khasi Hills District
| Melluso, L., Srivastava, R. K., Guarino, V., Zanetti, A., & Sinha, A. K. (2010). Mineral compositions and petrogenetic evolution of the ultramafic-alkaline–carbonatitic complex of Sung Valley, northeastern India. The Canadian Mineralogist, 48(1), 205-229. Berger, Vladimir I., Singer, Donald A., Orris, Greta J. (2009) Carbonatites of the World, Explored Deposits of Nb and REE—Database and Grade and Tonnage Models . Open-File Report 2009-1139. U.S. Geological Survey doi:10.3133/ofr20091139 Sen, A. K. (1999). Origin of the Sung Valley carbonatite complex, Meghalaya, India: major element geochemistry constraints. Journal of the Geological Society of India, 53(3), 285-297. Krishnamurthy, P. (1985). Petrology of the carbonatites and associated rocks of Sung Valley, Jaintia hills district, Meghalaya, India. Journal of The Geological Society of India, 26(6), 361-379. |
- Sundargarh District (Sundergarh District)
| Chowdhury, S. (2007). Mineralogy, petrochemistry and genesis of scheelite-bearing skarns and related acid magmatism at Sargipali, Eastern India. Journal of Nepal Geological Society, 36, 9. Vishwakarma, R. K. (1996). 1.66-Ga-old metamorphosed Pb-Cu deposit in Sargipali (eastern India): manifestations of tidal flat environment and sedex-type genesis. Precambrian Research, 77(1), 117-130. |
| Qin, Li-Jie, Xiao-Yan Yu, and Hong-Shu Guo. 2022. "Fluid Inclusion and Chemical Composition Characteristics of Emeralds from Rajasthan Area, India" Minerals 12, no. 5: 641. https://doi.org/10.3390/min12050641 |
| Magnus Endress, Bernhard Spettel & Adolf Bischoff (1994). Chemistry, petrography, and mineralogy of the Tonk CI chondrite: Preliminary results. Meteoritics 29, #4, p. 462-463. (July 1994). |
| Saxena, M. N., Gupta, L. N., & CHAUDHRI, N. (1984). Carbonatite dikes in Dhanota-Dhancholi hills, Narnaul, Haryana. Current science, 53(12), 651-652. Basu, S. K., & Narsayya, B. L. (1982). Note on a zone of probable carbonatite-alkali metasomatic rock associotion in the eastern part of Khetri copper belt, Northeastern Rajasthan. Indian Minerals, 36(1), 29-31. |
| Mineralogical Magazine (1967) 36 ,22-28 |
| Chandrasekaran, V., & Chawade, M. P. (1990). Carbonatites of Barmer district, Rajasthan. Indian Minerals, 44(4), 315-324. |
| Bhushan, S. K., & Somani, O. P. (2019). Rare earth elements and yttrium potentials of Neoproterozoic peralkaline Siwana granite of Malani igneous suite, Barmer district, Rajasthan. Journal of the Geological Society of India, 94(1), 35-41. |
- Deri-Ambaji Zn-Pb-Cu deposit
| Deb, M. (1980): Genesis and Metamorphism of Two Stratiform Massive Sulfide Depoosits at Ambaji and Deri in the Precambrian of Western India. Economic Geology, 75: 572-591. |
| Sinha, R., & Smykatz-Kloss, W. (2003). Thermal characterization of lacustrine dolomites from the Sambhar Lake playa, Thar desert, India. Journal of thermal analysis and calorimetry, 71(3), 739-750. |
| Banerjee, D. M., Basu, P. C., and Srivastava, N., 1980, Petrology, Mineralogy, Geochemistry, and Origin of the Precambrian Aravallian Phosphorite Deposits of Udaipur and Jhabua, India, Economic Geology 75: 1181-1199. |
| Banerjee, D. M., Basu, P. C., and Srivastava, N., 1980, Petrology, Mineralogy, Geochemistry, and Origin of the Precambrian Aravallian Phosphorite Deposits of Udaipur and Jhabua, India, Economic Geology 75: 1181-1199. |
| Singh, Amritpaul, Mitchell, Roger H., Kaur, Gurmeet, Sarma, D. Srinivasa (2023) Magmatic and post-magmatic evolution of the Newania carbonatite complex, Rajasthan, north-western India. Mineralogical Magazine, 87 (5) 748-766 doi:10.1180/mgm.2023.61 Doroshkevich, A. G. E., Ripp, G., & Viladkar, S. (2010). Newania carbonatites, Western India: example of mantle derived magnesium carbonatites. Mineralogy and Petrology, 98(1-4), 283-295. S. G. Viladkar & W. Wimmenauer (1986): Mineralogy and geochemistry of the Newania carbonatitS. G. Viladkar & W. Wimmenauer (1986): Mineralogy and geochemistry of the Newania carbonatite-fenite complex, Rajasthan, India. Neues Jahrbuch für Mineralogie Abhandlungen, 156, 1-21. Viladkar, S. G., & Wimmenauer, W. (1986). Mineralogy and geochemistry of the Newania carbonatite-fenite complex, Rajasthan, India. Neues Jahrb. Mineral. Abh, 156, 1-21. Viladkar, S. G. (1980). The fenitized aureole of the Newania carbonatite, Rajasthan. Geological Magazine, 117(3), 285-292. Viladkar, S. G. Graphite-bearing dolomite carbonatites in Newania, Western India. |
| Banerjee, D. M., Basu, P. C., and Srivastava, N., 1980, Petrology, Mineralogy, Geochemistry, and Origin of the Precambrian Aravallian Phosphorite Deposits of Udaipur and Jhabua, India, Economic Geology 75: 1181-1199. |
| Chauhan, D. S. (1984). Sedimentary pyrite from Pb-Zn deposits of the Zawar and Rajpura-Dariba regions and its bearing on the genesis of base metal sulfides. In Syngenesis and Epigenesis in the Formation of Mineral Deposits (pp. 36-42). Springer Berlin Heidelberg. |
| Chauhan, D. S. (1984). Sedimentary pyrite from Pb-Zn deposits of the Zawar and Rajpura-Dariba regions and its bearing on the genesis of base metal sulfides. In Syngenesis and Epigenesis in the Formation of Mineral Deposits (pp. 36-42). Springer Berlin Heidelberg. |
| Chauhan, D. S. (1984). Sedimentary pyrite from Pb-Zn deposits of the Zawar and Rajpura-Dariba regions and its bearing on the genesis of base metal sulfides. In Syngenesis and Epigenesis in the Formation of Mineral Deposits (pp. 36-42). Springer Berlin Heidelberg. |
| Willies, L. (1987). ANCIENT ZINC-LEAD—SILVER MINING IN RAJASTHAN, INDIA—INTERIM REPORT. Bulletin of the Peak District Mines Historical Society. Vol, 10(2). Chauhan, D. S. (1984). Sedimentary pyrite from Pb-Zn deposits of the Zawar and Rajpura-Dariba regions and its bearing on the genesis of base metal sulfides. In Syngenesis and Epigenesis in the Formation of Mineral Deposits (pp. 36-42). Springer Berlin Heidelberg. |
| Srivastava, R. K. (1998). Petrology of the Proterozoic alkaline carbonatite complex of Samalpatti, district Dharmapuri, Tamil Nadu. JOURNAL-GEOLOGICAL SOCIETY OF INDIA, 51, 233-244. Subramaniam, V., Viladkar, S. G., & Upendran, R. (1978). Carbonatite Alkali Complex of Samalpatti Dharmapuri District, Tamil Nadu. Geological Society of India, 19(5), 206-216. Semenov, E. I., Gopal, V., & SUBRAMANIAN, V. (1971). A note on the occurrence of benstonite, a carbonate of calcium and barium from the carbonatite complex at Jogipatti, near Samalpatti, Dharmapuri District, Tamil Nadu. Current Science, 254-256. |
| Ackerman, L., Magna, T., Rapprich, V., Upadhyay, D., Krátký, O., Čejková, B., ... & Hrstka, T. (2017). Contrasting petrogenesis of spatially related carbonatites from Samalpatti and Sevattur, Tamil Nadu, India. Lithos, 284, 257-275. |
| Burtseva, M. V., et al. "Features of mineral and chemical composition of the Khamambettu Carbonatites, Tamil Nadu." Journal of the Geological Society of India 81.5 (2013): 655-664. Burtseva, M. V., et al. "Features of mineral and chemical composition of the Khamambettu Carbonatites, Tamil Nadu." Journal of the Geological Society of India 81.5 (2013): 655-664. |
| Satish-Kumar, M., Wada, H., Santosh, M., Yoshida, M. (2001) Fluid‐rock history of granulite facies humite‐marbles from Ambasamudram, southern India. Journal of Metamorphic Geology, 19:4, 395. |
| Ramasamy, R. (1996). Carbonatite dykes from Kudangulam area, near Cape Comorin, Tamil Nadu. JOURNAL OF THE GEOLOGICAL SOCIETY OF INDIA, 48(2), 221-226. |
| Vladykin, N. V., Viladkar, S. G., Miyazaki, T., & Mohan, V. R. (2008). Geochemistry of benstonite and associated carbonatites of Sevathur, Jogipatti and Samalpatti, Tamil Nadu, south India and Murun massif, Siberia. Journal of the Geological Society of India, 72(3), 312-324. Pavel.M. Kartashov (n.d.) analytical data. |
| Vladykin, N. V., Viladkar, S. G., Miyazaki, T., & Mohan, V. R. (2008). Geochemistry of benstonite and associated carbonatites of Sevathur, Jogipatti and Samalpatti, Tamil Nadu, south India and Murun massif, Siberia. Journal of the Geological Society of India, 72(3), 312-324. |
| Kaur, G., Mitchell, R.H., Ahmed, S. (2018) Mineralogy of the Vattikod lamproite dykes, Ramadugu lamproite field, Nalgonda District, Telangana: A possible expression of ancient subduction-related alkaline magmatism along Eastern Ghats Mobile Belt, India. Mineralogical Magazine, 82(1), 35-58. |
| Kaur, G., Mitchell, R.H., Ahmed, S. (2018) Mineralogy of the Vattikod lamproite dykes, Ramadugu lamproite field, Nalgonda District, Telangana: A possible expression of ancient subduction-related alkaline magmatism along Eastern Ghats Mobile Belt, India. Mineralogical Magazine, 82(1), 35-58. |
| Kaur, G., Mitchell, R.H., Ahmed, S. (2018) Mineralogy of the Vattikod lamproite dykes, Ramadugu lamproite field, Nalgonda District, Telangana: A possible expression of ancient subduction-related alkaline magmatism along Eastern Ghats Mobile Belt, India. Mineralogical Magazine, 82(1), 35-58. |
| S. C. Tripathi (1985) Framboidal pyrite from Mussoorie phosphorite and its geological implication — Proceedings of the Indian Academy of Sciences, Earth and Planetary Sciences, 94, 315-321. |
| Koshta, R. N., K. C. Agarwala, N. Subrahmanyam, and J. J. Rao. "Studies on the Geology and Beneficiation of Chandak Magnesite Deposit from Pithoragarh District, Uttar Pradesh." (1985): 282-292. |
- Paschim Bardhaman District
| Mitchell, R. H. & Fareeduddin (2009). Mineralogy of peralkaline lamproites from the Raniganj Coalfield, India. Mineralogical Magazine, 73, 457-477. Middlemost, E. A., Paul, D. K., & Fletcher, I. R. (1988). Geochemistry and mineralogy of the minette-lamproite association from the Indian Gondwanas. Lithos, 22(1), 31-42. |
- Paschim Medinipur District
| Kent, R. W., Kelley, S. P., & Pringle, M. S. (1998). Mineralogy and 40 Ar/39 Ar geochronology of orangeites (Group II kimberlites) from the Damodar Valley, eastern India. Mineralogical Magazine, 62(3), 313-323. |
Rajasthan, India