On Some Geochemical Aspects of the Sevattur Carbonatite Complex, North Arcot District, Tamil Nadu

Authors

  • P. Krishnamurthy
     Atomic Minerals Division, Department of Atomic Energy, Hyderabad 16

Abstract

The major and trace element compositions of the Sevattur carbonatites are broadly comparable with the 'typical carbonatite abundance' values compiled by Gold (1966). The mean values for the Sevattur carbonatites are as follows (in weight per cent): SiO2-2.60, Al2O3-2.49, TiO2-0.46, Fe2O3 + FeO-9.64, MnO-0.52, MgO-10.14, CaO-32.84, Na2O-0.85, K2O-0.49, P2O5-3.48, CO2-36.15, H2O±0.32, with trace elements in parts per million as: Ba-1663, Sr-6427, Zr-763, Rb-2, La-271, Ce-641, Y -41, Nb-78, Ta-34, SC-16, Zn-69, Cu-78, Ni-18, Pb-27.

There is an enrichment of total iron, MgO, MnO, P2O5 and Na2O with successively younger phases within the main carbonatite body and such a feature is comparable with the liquid lines of descent, observed in synthetic carbonatite systems. Fenitisation of the country rocks (granitic gneisses) along the southern border of the carbonatite body is indicated from the enrichment of K2O, Na2O, Al2O3 and impoverishment in SiO2, total iron and MgO in the fenites when compared with the country rocks.

Sr (4109-9375 ppm, mean 6427) exceeds Ba (1000-2420 ppm, mean 1663) in all the types of carbonatites by a factor of 2 to 5. The lighter rare earths such as La and Ce are enriched in the calcitic types (La + Ce, 892-1351 ppm) when compared to the beforsites (647-920 ppm). In general, the beforsites are richer in Ba, Nb, Ta and Sc.

Among the carbonatitic minerals, early calcites are much enriched in Sr (5500-6200 ppm) in comparison with Ba (1230-1700) by a factor of 3 to 5. Sr with successively younger fractions of the carbonatite, seems to show a preference to the dolomites (3500-4000 ppm in the early phases and 9000-11000 ppm in the later phases) rather than to the apatites (6200 ppm). No systematic variation has been found in the Sr content of the different carbonatitic minerals within a particular carbonatite type.

The study emphasizes the importance of chemical data as one of the essential parameters in identifying carbonatite complexes from doubtful occurrences and also in elucidating their evolution. The study confirms the earlier observation that the carbonatites of Sevattur belong to the apatite-magnetite type.

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Issue

Volume 18, Issue 6, June 1977

Section

Research Papers

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Published

1977-06-01

How to Cite

Krishnamurthy, P. (1977). On Some Geochemical Aspects of the Sevattur Carbonatite Complex, North Arcot District, Tamil Nadu. Journal of Geological Society of India, 18(6), 265–274. Retrieved from https://geosocindia.com/index.php/jgsi/article/view/63852

References

BORODIN, L. S., GOPAL, V., MORALEV, V. M., SUBRAMANIAM, V. and PONIKAROV, V., (1971) Precambrian carbonatites of Tamil Nadu, South India. Jour. Geol. Soc. India, v. 12, no. 2, pp. 101-112.

DEANS, T. and POWELL, J. L., (1968) Trace elements and strontium isotopes in carbonatites, fluorites and limestones from India and Pakistan. Nature, v. 218, pp. 750-752.

GARSON, M. S., (1966) Carbonatites in Malawi, pp. 33-71. In 'Carbonatites' Edts. Tuttle, O. F. and Gittins, J., Interscience Publishers, New York, London, Sydney.

GOLD, D. P., (1963) Average chemical composition of carbonatites. Econ. Geol, v. 58, pp. 988-996.

GOLD, D. P., (1966) The average and typical composition of carbonatites. In Mineral Society of India, I.M.A. Volume, Edts. Vishwanathiah, M. N. and Naidu, P. R. J., pp. 83-91.

HEINRICH, E. W. M., (1966) The geology of Carbonatites. Publishers: Rand-McNally & Company, Chicago.

HIGAZY, R. A., (1954) Trace elements of volcanic ultrabasic potassic rocks of South-western Uganda and adjoining parts of the Belgian Congo. Bull. Geol. Soc. America, v. 65, pp.39-70.

PECORA, W. T., (1956) Carbonatites: A Review. Bull. Geol. Soc. America. v. 67, pp. 1537-1556.

QUON, H., SHI, H. and HEINRICH, E. Wm., (1966) Abundance and significance of some minor elements in carbonatitic calcites and dolomites. In Mineral Society of India, I.M.A. Volume, Edts. Vishwanathiah, M. N. and Naidu, P. R. J., pp. 29-36.

SHAW, D. M., MOXHAM, R. I., FILBY, R. M. and LAPAKOWLKY, W. W., (1964) The petrology of some Grenville skarns, Part II, Geochemistry. Canadian Mineral, v. 7, pp. 578-617.

TUREKIAN, K. K. and WEDEPOHL, K. H., (1961) Distribution of the elements in some major units of the earths crust. Bull. Geol. Soc. America, v. 72, pp. 175-182.

UDAS, G. R., (1974) Geochemistry of Pre-cambrian carbonatite complexes of India: Present status of and gaps in our knowledge. Jour. Geol. Soc. India, v. 7, pp. 457-462.

UDAS, G. R. and KRISHNAMURTHY, P., (1970) Carbonatites of Scvathur and Jokipatti, Madras State, India. Proc. Indian Nat. Sci. Acad., v. 36A, pp. 331-343.

VERWOERD, N. J., (1964) South African Carbonatites and their probable mode of origin. University of Stellenbach, Annale.

WYLLIE, P. J. and BIGGAR, G. M., (1966) Fractional crystallisation in the' carbonatite systems' CaO-MgO-CO2-H2O and CaO-CaF2-P2O5-CO2-H20. In Mineral Society of India, I.M.A. Volume, Edts. Viswanathiah, M. N. and Naidu. P. R. J., pp. 92-105.

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