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India | |
- Andaman and Nicobar Islands
| Ghosh, B., Morishita, T. (2011) Andradite-uvarovite solid solution from hydrothermally altered podiform chromitite, Rutland ophiolite, Andaman, India. The Canadian Mineralogist, 49 (2) 573-580 doi:10.3749/canmin.49.2.573 |
| Barman, S. K., & Tiwari, S. K. (2016). Serpentinites: a byproduct of ophiolite quarries for regional development: a case study of South Andaman Island, Bay of Bengal. International Journal of Multidisciplinary Research and Development, 3(9), 190-196. |
| Scott-Smith, B. H. (1989). Lamproites and kimberlites in India. Neues Jarhbuch für Mineralogie Abhandlungen, 161, 193-225. AJIT KUMAR REDDY, T. (1987). Kimberlite and lamproite rocks of Vajrakarur area, Andhra Pradesh. Journal of the Geological Society of India, 30(1), 1-12. Gupta, A. K., Yagi, K., Lovering, J., & Jaques, A. L. (1986, September). Geochemical and microprobe studies of diamond-bearing ultrmafic rocks from central and south India. In International Kimberlite Conference: Extended Abstracts (Vol. 4, pp. 27-29). |
| Parthasarathy, G., Chetty, T.R.K., Haggerty, S.E. (2002) Thermal stability and spectroscopic studies of zemkorite: a carbonate from the Venkatampalle kimberlite of southern India. American Mineralogist: 87: 1384-1389. |
| Scott-Smith, B. H. (1989). Lamproites and kimberlites in India. Neues Jarhbuch für Mineralogie Abhandlungen, 161, 193-225. AJIT KUMAR REDDY, T. (1987). Kimberlite and lamproite rocks of Vajrakarur area, Andhra Pradesh. Journal of the Geological Society of India, 30(1), 1-12. |
| 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. |
| 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. |
| 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. |
| 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. |
| Shaikh, A. M., Patel, S. C., Ravi, S., Behera, D., & Pruseth, K. L. (2017). Mineralogy of the TK1 and TK4 ‘kimberlites’ in the Timmasamudram cluster, Wajrakarur Kimberlite Field, India: Implications for lamproite magmatism in a field of kimberlites and ultramafic lamprophyres. Chemical Geology, 455, 208-230. |
- Wajrakarur–Lattavaram cluster
| Kaur, G., & Mitchell, R. H. (2016). Mineralogy of the P-12 K-Ti-richterite diopside olivine lamproite from Wajrakarur, Andhra Pradesh, India: implications for subduction-related magmatism in eastern India. Mineralogy and Petrology, 110(2), 223-245. |
| 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. |
| Shaikh, A. M., Kumar, S. P., Patel, S. C., Thakur, S. S., Ravi, S., & Behera, D. (2018). The P3 kimberlite and P4 lamproite, Wajrakarur kimberlite field, India: mineralogy, and major and minor element compositions of olivines as records of their phenocrystic vs xenocrystic origin. Mineralogy and Petrology, 112(2), 609-624. |
| Shaikh, A. M., Kumar, S. P., Patel, S. C., Thakur, S. S., Ravi, S., & Behera, D. (2018). The P3 kimberlite and P4 lamproite, Wajrakarur kimberlite field, India: mineralogy, and major and minor element compositions of olivines as records of their phenocrystic vs xenocrystic origin. Mineralogy and Petrology, 112(2), 609-624. |
| Dongre, A.N., Viljoen, K.S., Malandkar, M. (2015) The Pipe-15 Kimberlite: A New Addition to the Wajrakarur Cluster of the Wajrakarur Kimberlite Field, Eastern Dharwar Craton, Southern India. Journal of the Geological Society of India, 86(1), 71-79. |
| Dongre, A., Viljoen, K.S., Belyanin, G., Petrus LeRoux, Malandkar, M. (2020) Petrogenesis of the diamondiferous Pipe-8 ultramafic intrusion from the Wajrakarur kimberlite field of Southern India and its relation to the worldwide Mesoproterozoic (~1.1 Ga) magmatism of kimberlite and related rocks. Geoscience Frontiers 11, 793-805. |
- 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. |
| Rao, N.C., Madhavan, V. (1996) Some observations on the geochemistry of Ramannapeta-Ustapalle lamproitic body, Krishna district, Andhra Pradesh. Bulletin-Geological Society of India, 47(4), 409-418. |
| 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. |
| Gabbro intruded the granite-gneiss and amphibolite country rock, and was in turn intruded by an alkaline plutonic rock, exposed in Purimetla and a belt stretching about 4km to the NE and 4km to the SW. |
| Mason, B. & Wiik, H. B. (1962) Descriptions of Two Meteorites: Karoonda and Erakot. American Museum Novitates, #2115, 10 pages. (Dec 1962) |
| www.venuewest.com (2003) http://www.venuewest.com/8IKC/s1post.htm |
| Sinha, D. K., & Verma, M. B. (2018). Uranium Potential of the Singhbhum Shear Zone, India: Future Prospects (No. IAEA-CN--261). |
| Varadarajan, S. (1966): Proc. Indian Sci. Congr., 53rd Session, Chandigarh, Part 3, p. 183. |
| Radhakrishna, T., Rao, V. D., & Rao, J. (1982). Occurrence and Significance of Awaruite in the Dras Ultramafics, Kashmir Himalaya, India. Mineralogical Magazine, 46(341), 483-484. |
| Le Maitre, R. W. - Ed. (2002) Igneous Rocks - A Classification and Glossary of Terms (2nd ed.) Cambridge University Press. doi:10.1017/cbo9780511535581 Hari, K. R., Kumar, M. S., Santosh, M., & Rai, S. K. (1998). Petrology, geochemistry and stable isotope studies of carbonate-rich dyke-like bodies, Chhaktalao area, Madhya Pradesh. JOURNAL OF THE GEOLOGICAL SOCIETY OF INDIA, 52(5), 591-595. 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. |
| 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 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. |
| Meteoritics & Planetary Science 40, Nr 9/10, 1473–1492 (2005) |
| G. K. Kesar (2011) Geology And Mineral Resources Of Manipur, Mizoram, Nagaland And Tripura. Geological Survey Of India Miscelleaneous Publication No. 30 Part IV, Vol 1(Part-2) |
- 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. 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. |
- Jajapur (Jajpur) District
- Saruabil-Maruabil chromite belt
| Mineralogical Magazine 1968 36 : 962-965. |
| Nayak, Debajyoti, Das, Pranab, Misra, Sagar (2023) Petrology and Geochemistry of Mesoarchean Sukinda Ultramafics, Southern Singhbhum Odisha Craton, India: Implications for Mantle Resources and the Geodynamic Setting. Minerals, 13 (11) doi:10.3390/min13111440 |
| Raju, P. S., Merkle, R. K. W., Graser, P., Botha, A., Mohanthy, S. K., & Classen, M. (2007). Ni-Cr-PGE-minerals from the Katpal chromite mine, Sukinda chromite field, Orissa. CURRENT SCIENCE-BANGALORE-, 93(6), 851. |
| Metzler, K., Bischoff, A. & Stöffler, D. (1992) Accretionary dust mantles in CM chondrites: evidence for solar nebula processes. Geochim. Cosmochim. Acta 56 (7), 2873-2897. (July 1992) Metzler, K. & Bischoff, A. (1991) Evidence for Aqueous Alteration Prior to Parent Body Formation Petrographic Observations in CM-Chondrites (Abstract): Lunar and Planetary Science Conference XII: p. 893. |
| 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. |
| Haritha, A., Rajesh, V. J., Kumar, S., Santosh, M., & Thesniya, P. M. (2022). Spectrochemical and stable isotopic characteristics of magnesite deposit from Salem, Southern India: CO2 repository through supergene processes. Ore Geology Reviews, 105016. |
| 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. |
- Jogulamba Gadwal District
| Xu, Jingyao, Joan Carles Melgarejo, and Montgarri Castillo-Oliver. (2018) "Styles of Alteration of Ti Oxides of the Kimberlite Groundmass: Implications on the Petrogenesis and Classification of Kimberlites and Similar Rocks" Minerals 8, no. 2: 51. https://doi.org/10.3390/min8020051 |
| Xu, Jingyao, Joan Carles Melgarejo, and Montgarri Castillo-Oliver. (2018) "Styles of Alteration of Ti Oxides of the Kimberlite Groundmass: Implications on the Petrogenesis and Classification of Kimberlites and Similar Rocks" Minerals 8, no. 2: 51. https://doi.org/10.3390/min8020051 |
| Adhikary, D., Sahoo, R. K., & Behara, K. K. (2017) New Finding Alkaline Lamprophyre Dykes Cluster in the Western Margin of the Proterozoic Pakhal Basin in and Around Khammam, Telangana, India: Evidence of Alkaline Magmatism. In Magmatism of the Earth and related strategic metal deposits (pp. 58-60). |
| Sridhar, M., & Rau, T. K. (2005). Discovery of a new lamproite field-Ramadugu Lamproite field (RLF), Nalgonda district, Andhra Pradesh. Proceedings of Group Discussion on Kimberlites and related rocks. Geol. Soc. India, Bangalore, 55-57. |
- Narayanpet kimberlite field
- Kotakonda Cluster (KK–1 to KK–7)
| Chalapathi Rao, N.V., Dongre, A. N. (2009) Mineralogy and Geochemistry of Kimberlites NK–2 and KK–6, Narayanpet Kimberlite Field, Eastern Dharwar Craton, Southern India: Evidence for a Transitional Kimberlite Signature. The Canadian Mineralogist, 47(5), 1117-1135. |
| Mineralogical Magazine 1996 60 : 513-516 |
- Paschim Medinipur District
| 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. |