Abstract
Indian beach placer sand deposits are, in general, ilmenite-rich. However, some concentrations are dominated by pyriboles. The Chavakkad-Ponnani (CP) area along the northern Kerala coast is one such deposit. This paper deals with the general character of the heavy minerals of CP with special emphasis on the characters of ilmenite. Most Indian beach sand ilmenites are of good quality. However, our observations on the ilmenites of CP using Optical Microscope, SEM and EPMA reveals that these are mineralogically very complex. The CP ilmenite varies from pure ilmenite to highly impure variety having intergrowths and inclusions of other oxide and silicate minerals. Ilmenite occurs as mixcrystals and forms intergrowth structure with hematite and Ti-hematite/ulvöspinel; contains inclusions of hematite, quartz, and monazite. On the other hand ilmenite also occurs as inclusions within hematite and garnet. The pyriboles are dominantly amphiboles with hornblende-composition. Interestingly an inclusion of gold has been recorded within amphibole of hornblende composition. Garnets are mostly of almandine and pyrope type. Subordinate heavy minerals are sillimanite, zircon and rutile. Characteristic morphology, mineralogy and chemistry of amphibole, garnet and ilmenite together indicate that the placer sands of CP area are derived from the amphibolites, granite gneisses and basic igneous rocks lying in the hinterland towards the eastern border of Kerala. Though the overall quality of ilmenite is poor, highgrade ilmenite concentrate can be generated (of course with lower yield), by adopting precise mineral processing techniques. The CP deposit can be considered as a second-grade deposit but it has potential for future exploitation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ali, M.A., Krishnan, S. and Banerjee, D.C. (2001) Beach and inland heavy mineral sand investigations and deposits in India — an overview. Explor. Res. Atomic Minerals, v.13, pp.1–21.
Buddington, A.F. and Lindsley, D.H. (1964) Iron-titanium oxide minerals and synthetic equivalents. Jour. Petrol., v.5, pp.310–357.
Deer, W.A., Howie, R.A. and Zussman, J. (1985) An introduction to the rock-forming minerals. ELBS, 528p.
Dwivedy, K.K. (1999) Indian ilmenite resources — an economic appraisal. Jour. Mines Metals and Fuels, March-1999, pp.77–79.
Haggerty, S.E. (1976) Opaque mineral oxides in terrestrial igneous rocks. In: D. Rumble III (Ed.), Oxide Minerals. Min. Soc. America (Rev. Mineral.), v.3, pp.101–300.
Haggerty, S.E. (1991a) Oxide textures—a mini-atlas. In: D.H. Lindsley (Ed.), Oxide minerals: petrologic and magnetic significance. Rev. Mineral., v.25, Mineral. Soc. Amer., Washington, pp.129–137.
Haggerty, S.E. (1991b) Oxide mineralogy of the upper mantle. In: D.H. Lindsley (Ed.), Oxide minerals: petrologic and magnetic significance. Rev. Mineral., v.25, Mineral. Soc. Amer., Washington, pp.355–416.
Krishnan, S., Viswanathan, G. and Balachandran, K. (2001) Heavy mineral sand deposits of Kerala. Explor. Res. Atomic Minerals, v.13, pp.111–146.
Lattard, D., Sauerzapf, U. and Käsemann, M. (2005) New calibration data for the Fe-Ti oxide thermo-oxybarometers from experiments in the Fe-Ti-O system at 1 bar, 1000–1300°C and a large range of oxygen fugacities. Contrib. Mineral. Petrol., v.149, pp.735–754.
Lindsley, D.H. (1991) Experimental studies of oxide minerals. In: D.H. Lindsley (Ed.), Oxide minerals: petrologic and magnetic significance. Rev. Mineral., v.25, Mineral. Soc. Amer., Washington, pp.69–100.
Nayak, B. (2011) Gold in the beach placer sands of Chavakkad-Ponnani, Kerala coast, India. Jour. Geol. Soc. India, v.78, pp.345–348.
Nayak, B.R. and Mohapatra, B.K. (1998) Two morphologies of pyrophanite in Mn-rich assemblages, Gangpur Group, India. Mineral. Mag., v.62, pp.847–856.
Rama Rao, B.V. (1981) Annual report for the field season 1980–81. Unpublished AMD Report.
Ramdohr, P. (1926) Beobachtungen an Magnetit, Ilmenit, Eisenglanz und überlegungen über das system FeO-Fe2O3-TiO2. Neues Jb. Beil.-Bd. v.54, pp.320–379.
Ramdohr, P. (1956a) Die Beziehungen von Fe-Ti-Erzen aus magmatischen Gesteinen. Bull. Comm. Geol. Finlande. v.173, pp.1–18.
Ramdohr, P. (1969) The ore minerals and their intergrowths. Pergamon, 961p.
Sundararajan, M., Bkat, K.H., Janaki, M.E.K., Babu, N. and Mohandas, P.N. (2005) Mineralogy and distribution of heavy minerals of west coast with special reference to Kerala. In: V.J. Loveson, N. Chandrasekar and A. Sinha (Eds.), Proc. Nat. Sem. on “Development Planning of Coastal Placer Minerals (PLACER-2005). © Allied Publishers, New Delhi, pp.140–149.
Taylor, R.W. (1964) Phase equilibria in the system FeO-Fe2O3-TiO2 at 1300 °C. American Mineral., v.49, pp.1016–1030.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Nayak, B., Mohanty, S. & Bhattacharyya, P. Heavy minerals and the characters of ilmenite in the beach placer sands of Chavakkad-Ponnani, Kerala Coast, India. J Geol Soc India 79, 259–266 (2012). https://doi.org/10.1007/s12594-012-0046-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12594-012-0046-7