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India | |
- Wajrakarur kimberlite field
| 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. |
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| 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. |
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| Kaur, G., & Mitchell, R. H. (2013). Mineralogy of the P2-West ‘Kimberlite’, Wajrakarur kimberlite field, Andhra Pradesh, India: kimberlite or lamproite?. Mineralogical Magazine, 77(8), 3175-3196. |
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| Raju, R. Dhana (1971): Apatites structurally intermediate between fluorapatite and dahllite, from Koduru, Andhra Pradesh. Journal of the Indian Academy of Geoscience 13, 79-81.
Rao, J. S. R. Krishna |
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| Singh, Y., Rai, S. D., Sinha, R. P., & Kaul, R. (1991). Lithium pegmatites in parts of Bastar Craton. Exploration and Research for Atomic Minerals, 4, 93-108. |
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| Singh, Y., Rai, S. D., Sinha, R. P., & Kaul, R. (1991). Lithium pegmatites in parts of Bastar Craton. Exploration and Research for Atomic Minerals, 4, 93-108. |
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| Sinha, D. K., & Verma, M. B. (2018). Uranium Potential of the Singhbhum Shear Zone, India: Future Prospects (No. IAEA-CN--261). |
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| www.dae.gov.in (2001) http://www.dae.gov.in/amd/earv3.htm#earv3_4 |
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| [var. Carbonate-rich Fluorapatite] 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. |
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| [var. Carbonate-rich Fluorapatite] 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. |
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| [var. Carbonate-rich Fluorapatite] 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. |
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| Domanik, K. J., Sideras, L. C. & Drake, M. J. (2005) Olivine and Ca-Phosphate in the Diogenites Manegaon and Roda: Lunar and Planetary Science Conference XXXVI, abstract no.2128. |
- West Khasi Hills District
| Dwivedi, S. B., & Theunuo, K. (2017). Occurrence of wagnerite in Mg–Al granulites of Sonapahar, Meghalaya. Journal of Earth System Science, 126(4), 52. |
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| A. T. Rao, C. V. Raman and Ch. S. Prakasa Rao (1979) Fluor-Apatites from Calc-Silicate Skarn Vein Contacts, Gondivalsa, Orissa, India. Mineralogical Magazine 43:439-439.
Am Min 55:5-6 pp 975-980 |
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| Singh, Y., Rai, S. D., Sinha, R. P., & Kaul, R. (1991). Lithium pegmatites in parts of Bastar Craton. Exploration and Research for Atomic Minerals, 4, 93-108. |
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| Patel, Ashim Kumar, Upadhyay, Dewashish, Mishra, Biswajit, Pruseth, Kamal Lochan (2023) Reconstruction of hydrothermal fluid composition of the Kamthai carbonatite complex, India using lattice strain model: Implications for LREE/HREE fractionation. Lithos, 444. 107097 doi:10.1016/j.lithos.2023.107097 |
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| Mondal, S., Upadhyay, D., Banerjee, A. (2021): REE mineralization in Siwana peralkaline granite, western India-role of fractional crystallization, hydrothermal remobilization, and feldspar-fluid interaction. Lithos, 396-397, 106240 |
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| Anand, Abhishek, Sahendra Singh, Arindam Gantait, Amit Srivastava, Girish Kumar Mayachar, and Manoj Kumar. (2022) "Geological Constraints on the Genesis of Jagpura Au-Cu Deposit NW India: Implications from Magnetite-Apatite Mineral Chemistry, Fluid Inclusion and Sulfur Isotope Study" Minerals 12, no. 11: 1345. https://doi.org/10.3390/min12111345 |
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| Bhatt, A. K. (1999): Phurcalite: a rare secondary calcium uranium phosphate mineral from Putholi, Chittaurgarh district, Rajasthan. Journal of the Geological Society of India 53, 355-357.
Singh, Yamuna
Singh, K. D. P. |
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| [var. Carbonate-rich Fluorapatite] 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. |
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| [var. Carbonate-rich Fluorapatite] 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. |
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| 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
Viladkar, S. G. Graphite-bearing dolomite carbonatites in Newania, Western India. |
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| [var. Carbonate-rich Fluorapatite] 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. |
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| Ottens, B. (2011): Indien, Mineralien und Fundstellen, Weise Verlag, 384 pages. |
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| 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. |
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| URAM 2014 IAEA p52 |
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| Domanik, K. J., Sideras, L. C. & Drake, M. J. (2005) Olivine and Ca-Phosphate in the Diogenites Manegaon and Roda: Lunar and Planetary Science Conference XXXVI, abstract no.2128. (March 2005) |
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| Baidya, Tapan Kumar, Sen, Gautam, and Chakravorty, Priya Shankar, 1981, Uranium Occurrences in and Around Nawahatu, Purulia District, West Bengal, India - A Preliminay Report, Economic Geology, v 76, p. 970-973. |
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| Chakrabarty, A., & Sen, A. K. (2010). Enigmatic association of the carbonatite and alkali-pyroxenite along the Northern Shear Zone, Purulia, West Bengal: A saga of primary magmatic carbonatite. Journal of the Geological Society of India, 76(4), 403-413.
Chakrabarty, A., Sen, A. K., & Ghosh, T. K. (2009). Amphibole—a key indicator mineral for petrogenesis of the Purulia carbonatite, West Bengal, India. Mineralogy and Petrology, 95(1-2), 105-112.
Ghosh Roy, A. K., & Sengupta, P. R. (1993). Alkalic-carbonatitic magmatism and associated mineralisation along the Porapahar-Tamar lineament in the Proterozoic of Purulia District, West Bengal. Indian journal of earth sciences, 20(3-4), 193-200. |
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Sri Lanka | |
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| [var. Carbonate-rich Fluorapatite] Manthilake, M. A. G. M., Sawada, Y., & Sakai, S. (2008). Genesis and evolution of Eppawala carbonatites, Sri Lanka. Journal of Asian earth sciences, 32(1), 66-75.
Davidson, A. J. G, Notholt, R. P. , Sheldon D. F. (2005) Phosphate Deposits of the World - Volume 2. Phosphate Rock Resources Vol. 2. Cambridge University Press.
Dahanayake, K. (1988) Fertilizers from Eppawala - a geological and mineralogical assessment of a phosphorite deposit. Economic Review 14:6, 4-5.
Jayawardena, D. D. S. (1976). The Eppawala carbonatite complex in north-west Sri Lanka. Economic Bulletin, (3), 31-41.
origin.island.lk (n.d.) http://origin.island.lk/2003/01/05/featur05.html.
Hapuarachichi, D.J.A.C. 1996. On the origin of the Eppawala apatite deposits, Sri Lanka. Journal of African Earth Sciences, 23, XIII-XXIV. |
Aravakurichi, Karur District, Tamil Nadu, India