Provenance and depositional characteristics of Lathi Formation in southern part of Jaisalmer Basin: Implications for exploration of sandstone type uranium mineralization

Authors

  • Shijo Mathew Atomic Minerals Directorate for Exploration and Research, DAE, Jaipur
  • Pritam Karmakar Atomic Minerals Directorate for Exploration and Research, DAE, Jaipur
  • Rajeev Bidwai Atomic Minerals Directorate for Exploration and Research, DAE, Jaipur
  • S K Sharma Atomic Minerals Directorate for Exploration and Research, DAE, Jaipur
  • Navin Goyal Atomic Minerals Directorate for Exploration and Research, Hyderabad
  • D K Sinha Atomic Minerals Directorate for Exploration and Research, Hyderabad

DOI:

https://doi.org/10.51710/jias.v38i1.155

Keywords:

Lathi sediments, Provenance, Sandstone type, Jaisalmer Basin

Abstract

The lower Jurassic Lathi Formation covers about 900 sq. km area and forms the lowermost unit of Jaisalmer Basin of western Rajasthan. Lithologically the Lathi Formation comprises of conglomerate, sandstone, siltstone, shale and mudstone. The sandstones are generally medium- to coarse-grained, moderately sorted and show variation in colour, grain-size and texture. Petrographic studies indicate a mixed provenance for the Lathi sandstone. On the basis of geochemical data, theses sandstones are classified into sub-arkose, litharenite and sub-litharenite. Palaeo-weathering indices such as CIA (80.45), CIW (85.23) and PIA (84.23) suggest moderate to high degree of chemical weathering of the source area, intermediate and felsic igneous provenance, under humid to semi-humid climatic conditions. Further, the geochemical data indicate the sedimentation in a passive continental margin setting. The Bouguer gravity image clearly depicts the north westward slope of the basement. Modelling studies of the gravity data revealed average depth to the basement as 800m, 400m and 250m respectively in northwest, central and southeastern parts of the surveyed area. Exploration activities by Atomic Minerals Directorate for Exploration and Research have resulted in location of several uranium anomalies in the Lathi Formation. Lathi Formation is characterised by many favourable parameters such as fertile provenance, arkosic sandstones intercalated with shale/mudstone, reduced sedimentary facies with carbonaceous matter, lignite and pyrite deposited in continental to marginal marine environment. Malani Igneous Suit and metamorphic rocks constitute the basement for Jaisalmer Basin. Malani rhyolites and granites are fertile source of uranium, containing 6.7 ppm and 9.2 ppm average and intrinsic uranium respectively. Presence of carbonaceous matter and pyrite bearing sandstones, indicative of reducing environment at depth below water table (R.L. 150 m), was reported during subsurface exploration in Lathi sandstone which is a favourable condition for Lathi sediments to host uranium mineralization.

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References

Adams, S.S. and Cramer, R.T. (1985). Data processing criteria model for roll-front type uranium deposits. Geological environments of sandstone type uranium deposits. Report IAEA-TECDOC-328, 383-399.

Alam, M.M., Ahmad, A.H.M. and Khan, M.H.A. (2000). Diagenetic features of Lower Jurassic Lathi sandstones, Jaisalmer Basin, Western Rajasthan. Journal of the Geological Society of India, 56, 415–424.

Ahmad, F., Quasim, M. A. and Ahmad, A. H. M. (2020). Lithofacies characteristics and depositional environment interpretations of the Middle Jurassic Fort Member rocks, Jaisalmer Formation, Western Rajasthan, India. Journal of Sedimentary Environments, 5, 355-373.

Ahmad, F., Quasim, M. A., Ghaznavi, A. A., Khan, Z., and Ahmad, A. H. M. (2017b). Depositional environment of the Fort Member of the Jurassic of Jaisalmer Formation (western Rajasthan, India), as revealed from lithofacies and grain-size analysis. Geologica Acta, 15(3), 153–167.

Bhat, G. M., and Ahmad, A. H. M. (2013). Temporal facies and diagenetic evolution of the mixed siliciclastic-carbonate Jajiya Member (Callovian-Oxfordian), Jaisalmer Formation, West India. Volumina Jurassica, 11, 147–162.

Bonde, S.D. (2010). A new genus of podocarpaceous wood from the Lathi Formation (Early Jurassic) of Rajasthan, India. Geophytology, 38, 19–24.

Cox, R. and Lowe, D. R. (1995). Compositional evaluation of coarse clastic sediments in the south western United States from 1.8 to 0.2 G.A. and implications for relationships between the development of crustal blocks and their sedimentary cover; J. Sedim. Res, 65A, 477–494.

Das Gupta, S. K. (1975). Revision of the Mesozoic-Tertiary stratigraphy of the Jaisalmer Basin, Rajasthan: Ind. J. Earth Sci., 2, 77–94.

Feng, R. and Kerrich, R. (1990). Geochemistry of fine-grained clastic sediments in the Archaean Abitibi greenstones belt, Canada: Implications for provenance and tectonic setting; Geochim. Cosmochim.Acta., 54, 1061–1081.

Finch, W.I. and Davis, J.F. (1985). Sandstone-type uranium deposits-an introduction, in Geological environments of sandstone-type uranium deposits. TECDOC-328, IAEA, Vienna,11-20.

Fursich, F.T., Oschmann, W., Singh I.B. and Jaitly A.K. (1992). Hardgrounds, reworked concretion levels and condensed horizons in the Jurassic of western India: their significance for basin analysis. Journal of the Geological Society, 149, 313–331.

Fyffe L.R. and Pickerill R.K. (1993). Geochemistry of Upper Cambrian-Lower Ordovician black shale along a northeastern Appalachian transects. Bull. Geol. Soc. Am, 105, 897- 910.

Hayashi, K.I., Fujisawa, H., Holland, H.D. and Ohmoto, H. (1997). Geochemistry of ~1.9 Ga sedimentary rocks from northeastern Labrador, Canada. Geochim Cosmochim Acta, 61, 4115-4137.

Jain, R.B., Hingoraney, S.P. and Jagmer Singh (1998). A note on radioactivity in the lower Jurassic sandstones of Lathi Basin, Western Rajsathan, India. Journel of Atomic Mineral Sciences, 1, 117-125.

Khan, Z. and Khan, A.A. (2015). A review on lithostratigraphy and biostratigraphy of Jaisalmer Basin, Western Rajasthan, India. International Research Journal of Earth Sciences, 3(8), 37-45.

Lukose, N.G. (1972). Palynological evidence on the age of Lathi Formation, Western Rajasthan, India.Proceeding of Seminar on Palaeopalynology and Indian Stratigraphy (1971), Calcutta, 155–159.

Mahendra, K. and Banerji R.K. (1989). Textural study and depositional environment of sand grains from rocks of Jaisalmer Formation, Jaisalmer District, Rajasthan, India. Journal of the Geological Society of India, 33, 3, 228–242.

Misra, P. C., Singh, N. P., Sharma, D. C., Kakroo, A. K., Upadhyay, A. and Saini, M. L. (1993). Lithostratigraphy of Indian petroliferous basins. West Rajasthan basins. Document-11, KDMIPE, ONGC, 1-6.

Narayanan, K. (1964). Problems of Stratigraphy of the Rajasthan Shelf. In: Proceedings of the Symposium on Problems of the Indian Arid Zones, Government of India Publication, New Delhi, 92– 100.

Narayanan, K., Subrahmanyan M. and Srinivasan S. (1961). Geology of Jaisalmer. Unpublished report O.N.G.C. Dehradun, India.

Osman, M. (1996). Recent to Quatenary River Nile Sediments: A Sedimentological Characterization on Samples from Aswan to Naga Hammadi, Egypt (Unpublished doctoral dissertation). University of Vienna, Vienna.

Pandey, D.K., Choudhary S., Bahadur, T., Swami, N., Poonia, D. and Sha, J. (2012). A review of the Lower–lowermost Upper Jurassic facies and stratigraphy of the Jaisalmer Basin, western Rajasthan, India. Volumina Jurassica, 10, 61–82.

Pandey, D.K., Sha, J. and Choudhary, S. (2006b). Depositional history of the early part of the Jurassic succession on the Rajasthan Shelf, western India: Progress in Natural Science (Special issue of IGCP 506 on the Jurassic Boundary Events), Beijing, 16, 176–185.

Pandey, D.K., Sha J. and Choudhary, S. (2006a). Depositional environment of Bathonian sediments of the Jaisalmer Basin, Rajasthan, western India. Progress in Natural Science (Special issue of IGCP 506 on the Jurassic Boundary Events), Beijing, 16, 163–175.

Pandey, D.K., Kashyap, D. and Choudhary, S. (2005). Microfacies and depositional environment of the Gharoi River section (upper Jaisalmer Formation), west of Baisakhi Village, Jaisalmer Basin, Rajasthan. Proceedings of the National Seminar on Oil, Gas and

Lignite Scenario with special Reference to Rajasthan, Jaipur, 117–130.

Pareek, H.S. (1975). Geological configuration of northwestern Rajasthan. Workshop on the Problems of the Desert in India, Sept. 16, Jaipur, 73.

Pareek, H.S. (1984). Pre-Quaternary Geology and mineral resources of Northwestern Rajasthan: Memoir Geological Survey of India, 115, 1-95.

Parihar, V.S., Nama, S.L. and Mathur, S.C (2017). Discovery of trace fossils from Lower Odania Member of Lathi Formation of Jaisalmer Basin, Akal area, District-Jaisalmer, Western Rajasthan, India. Advances in Ecological and Environmental Research, 195-210.

Pettijohn, F. J. (1975). Sedimentary rocks, third edition: New York, Harper & Row, 628.

Roser, B.P. and Korsch, R.J. (1986). Determination of tectonic setting of sandstone mudstone suites using SiO2 content and K2O/Na2O ratio. Journal of Geology, 94, 635–650.

Singh, N.P. (2006). Mesozoic Lithostratigraphy of the Jaisalmer Basin, Rajasthan. Jour. Palaeont. Soc. India, 51(2), 1–25.

Srivastava, S.K., 1966. Jurassic micro-flora from Rajasthan, India .Micropalaeontology, 12-1, .87– 103.

Suttner, L.J. and Dutta, P.K. (1986). Alluvial sandstone composition and paleoclimate. Framework mineralogy. Journal of Sedimentary Petrology, 56, 326–345.

Taylor, S.R. and McLennan, S.M. (1985). The Continental Crust: its composition and evolution. Blackwell Scientific, Oxford, 311.

Published

2021-06-30

How to Cite

Mathew, S., Karmakar, P., Bidwai, R., Sharma, S. K. ., Goyal, N., & Sinha, D. K. (2021). Provenance and depositional characteristics of Lathi Formation in southern part of Jaisalmer Basin: Implications for exploration of sandstone type uranium mineralization. Journal of The Indian Association of Sedimentologists (peer Reviewed), 38(1), 41–50. https://doi.org/10.51710/jias.v38i1.155
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