|
India | |
|
| Wauschkuhn, A., Kluth, C., & Zimmermann, R. A. (Eds.). (2012). Syngenesis and epigenesis in the formation of mineral deposits: a volume in honour of Professor G. Christian Amstutz on the occasion of his 60th birthday with special reference to one of his main scientific interests. Springer Science & Business Media. |
|
| SINGH, YAMUNA, VISWANATHAN, R, PARASHAR, K K, SRIVASTAVA, S K, RAMESH BABU, P V, PARIHAR, P S (2014) Ianthinite: A rare hydrous uranium oxide mineral from Akkavaram, Andhra Pradesh, India. Journal of Earth System Science, 123 (1) 15-19 doi:10.1007/s12040-013-0371-2 |
|
| Sahu, K. N. (1976). Petrological observations on nepheline syenites of Baradangua, Dhenkanal, Orissa. Geological Society of India, 17(4), 484-489. |
|
| Sinha, D. K., & Verma, M. B. (2018). Uranium Potential of the Singhbhum Shear Zone, India: Future Prospects (No. IAEA-CN--261). |
|
| Pal, D. C., & Bhowmick, T. (2015). Petrography and microthermometry of fluid inclusions in apatite in the Turamdih uranium deposit, Singhbhum shear zone, eastern India-An insight into ore forming Fluid. Journal of the Geological Society of India, 86, 253-262. |
|
| Prasad, Jitendra, Akella Satya Venkatesh, Prabodha Ranjan Sahoo, Sahendra Singh, and Nguo Sylvestre Kanouo. (2017) "Geological Controls on High-Grade Iron Ores from Kiriburu-Meghahatuburu Iron Ore Deposit, Singhbhum-Orissa Craton, Eastern India" Minerals 7, no. 10: 197. https://doi.org/10.3390/min7100197 |
|
| Kalimuthu, R., Aranha, Malcolm, Porwal, Alok, Shankar Pandalai, Hari (2023) Project-scale prospectivity analysis for unconformity-related uranium deposits in the Badami Group of the western Kaladgi basin, India. Ore Geology Reviews, 157. 105407 doi:10.1016/j.oregeorev.2023.105407 |
|
| Manekar, G.G., Shome, D., Chaudhari, M.P. (2017) Prediction of Subsidence Parameters & 3-D Analysis at Balaghat Underground Manganese Mine of MOIL Limited, India. Symposium of the International Society for Rock Mechanics, Procedia Engineering, 191: 1075-1086.
Sarkar, S.K. (2015) Manganese ore deposit of Balaghat Mine, Central India: Evolution model and its implication for exploration. PhD thesis (Applied Geology), Indian School of Mines, Dhanbad, India. |
|
| 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. |
- East Khasi Hills District
| 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. |
|
| Rath, S.C. & Sahoo, K.C. 1997. Study of alkaline and ultramafic rocks in the western and northern margins of Eastern Ghats. Records of the Geological Survey of India, 130, 204-205. |
- Jajapur (Jajpur) District
- Sukinda ultramafic complex
| Naz, A., Chowdhury, A., Mishra, B. K., & Gupta, S. K. (2016). Metal pollution in water environment and the associated human health risk from drinking water: A case study of Sukinda chromite mine, India. Human and Ecological Risk Assessment: An International Journal, 22(7), 1433-1455. |
|
| Prichard, H. M., Mondal, S. K., Mukherjee, R., Fisher, P. C., & Giles, N. (2018). Geochemistry and mineralogy of Pd in the magnetitite layer within the upper gabbro of the Mesoarchean Nuasahi Massif (Orissa, India). Mineralium Deposita, 53(4), 547-564. |
|
| Acharya, S., Sarangi, S. K., & Das, N. K. (1982). The Tin Ore Deposit of Orissa, India. In Ore Genesis (pp. 302-307). Springer, Berlin, Heidelberg. |
|
| Panda, P. K., Patra, P. C., & Nanda, J. K. (1998). Petrochemistry of the alkaline rocks of Rairakhol–Kankarakhol belt, Sambalpur and Deogarh districts, Orissa. Geol. Surv. India Spec. Publ, 44, 307-314.
Panda, P. K., Patra, P. C., Patra, R. N., & Nanda, J. K. (1993). Nepheline syenite from Rairakhol, Sambalpur district, Orissa. Journal of the Geological Society of India, 41(2), 144-151. |
|
| Hindustan Zinc Limited (2017) Expansion of Kayad Lead-Zinc Ore Underground Mine from 1.0 million TPA to 1.2 million TPA (ROM). PRE- FEASIBILITY REPORT |
|
| Niyogi, D. (1966). Petrology of the alkalic rocks of Kishangarh, Rajasthan, India. Geological Society of America Bulletin, 77(1), 65-82. |
|
| Baidya, A. S., Sen, A., & Pal, D. C. (2018). Textures and compositions of cobalt pentlandite and cobaltian mackinawite from the Madan-Kudan copper deposit, Khetri Copper Belt, Rajasthan, India. Journal of Earth System Science, 127(4), 56. |
|
| Padhi, Ajoy Kumar, Mrinal Kanti Mukherjee, Brajesh Kumar Tripathi, Dheeraj Pande, Balbir Singh Bisht, and Bhabesh Chandra Sarkar. (2023) "Polymetallic Uranium Mineralisation in Rohil, Rajasthan, Western India: Insights from Mode of Occurrences, Structural Controls, Alteration Geochemistry and Exploration" Minerals 13, no. 4: 555. https://doi.org/10.3390/min13040555
Padhi, Ajoy Kumar, Mrinal Kanti Mukherjee, Brajesh Kumar Tripathi, Dheeraj Pande, Balbir Singh Bisht, and Bhabesh Chandra Sarkar. (2023) "Polymetallic Uranium Mineralisation in Rohil, Rajasthan, Western India: Insights from Mode of Occurrences, Structural Controls, Alteration Geochemistry and Exploration" Minerals 13, no. 4: 555. https://doi.org/10.3390/min13040555
Padhi, Ajoy Kumar, Mrinal Kanti Mukherjee, Brajesh Kumar Tripathi, Dheeraj Pande, Balbir Singh Bisht, and Bhabesh Chandra Sarkar. (2023) "Polymetallic Uranium Mineralisation in Rohil, Rajasthan, Western India: Insights from Mode of Occurrences, Structural Controls, Alteration Geochemistry and Exploration" Minerals 13, no. 4: 555. https://doi.org/10.3390/min13040555
Rout, D., Krishnamurthi, R., & Sinha, D. K. (2022). Mineralogy and Paragenesis of the Meso-Proterozoic Rohil Uranium Deposit, North Delhi Fold Belt, Rajasthan, India. Ore Geology Reviews, 105204.
Nanda, L. K., Katti, V. J., & Maithani, P. B. (2009). Prospects and potentialities for uranium in North Delhi Fold Belt: A case study from Rohil, Rajasthan, India (No. IAEA-CN--175). |
|
| Ahmed, M., Shaif, M., Siddiquie, F. N., & Khan, R. (2018). Mode of Occurrence and Mineralogy of Northern Khetri Copper Deposits, Jhunjhunu District, Rajasthan. Natural Resources, 2018, 9, 389-403 |
|
| Ahmed, M., Shaif, M., Siddiquie, F. N., & Khan, R. (2018). Mode of Occurrence and Mineralogy of Northern Khetri Copper Deposits, Jhunjhunu District, Rajasthan. Natural Resources, 2018, 9, 389-403 |
|
| Baidya, A. S., Sen, A., & Pal, D. C. (2018). Textures and compositions of cobalt pentlandite and cobaltian mackinawite from the Madan-Kudan copper deposit, Khetri Copper Belt, Rajasthan, India. Journal of Earth System Science, 127(4), 56. |
|
| Ray, J. S., & Ramesh, R. (1999). Evolution of carbonatite complexes of the Deccan flood basalt province: stable carbon and oxygen isotopic constraints. Journal of Geophysical Research: Solid Earth, 104(B12), 29471-29483.
Chandrasekaran, V., & Srivastava, R. K. (1992). Geochemistry of the Sarnu-Dandali carbonatites, District Barmer, Rajasthan, India. Journal of the Geological Society of India, 39(4), 321-328.
Chandrasekaran, V., Srivastava, R. K., & Chawade, M. P. (1990). Geochemistry of the alkaline rocks of Sarnu-Dandali area, district Barmer, Rajasthan, India. Journal of the Geological Society of India, 36(4), 365-382.
Chandrasekaran, V., & Chawade, M. P. (1990). Carbonatites of Barmer district, Rajasthan. Indian Minerals, 44(4), 315-324.
Srivastava, R. K. (1989). Alkaline and peralkaline rocks of Rajasthan. Mem. Geol. Soc. India, 15, 3-24. |
|
| 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 |
|
Pakistan | |
- Khyber Pakhtunkhwa Province
| Kempe, D. R. C. (1986). A note on the ages of the alkaline rocks of the Peshawar plain alkaline igneous province, NW Pakistan. Geol. Bull. Univ. Peshawar, 19, 113-119.
KEMPE, D. C. (1983). Alkaline granites, syenites, and associated rocks of the Peshawar Plain alkaline igneous province, Northwest Pakistan. In Granites of Himalaya Karakorum and Hindu Kush (pp. 143-169).
Jan, M. Q., Asif, M., & Tahirkheli, T. A. Z. E. E. M. (1981). The geology and petrography of the Tarbela ‘Alkaline’complex. Geological Bulletin of University of Peshawar, 14, 1-28.
Kempe, D. R. C. & Jan, M.Q. (1980). The Peshawar plain alkaline igneous province, NW Pakistan. Geological Bulletin, University of Peshawar, 13, 71-77.
Siddiqui, F. A., & FA, S. (1973). ALKALINE ROCK OF IJOLITIC AFFINITY FROM TARBELA DAM AREA (HAZARA DISTRICT). Geonews, Quetta, 3, 17.
Kempe, D. R. C., & Jan, M. Q. (1970). An alkaline igneous province in the North-West Frontier province, West Pakistan. Geological Magazine, 107(4), 395-399. |
|
Sri Lanka | |
|
| Dahanayake, K. (1988) Development of recent stromatolitic structures and phosphatic enrichment in Precambrian marble of Sri Lanka. Economic Geology, 83:7, 1468-1474. |
Thirudhanagal quarry, Salem, Salem District, Tamil Nadu, India