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Uranium and thorium geochemistry in the elberton batholith of the Southern Appalachians, USA

Published online by Cambridge University Press:  05 July 2018

David B. Wenner
Affiliation:
Department of Geology and Center for Applied Isotope Studies, University of Georgia, Athens, Georgia 30602, USA
James D. Spaulding
Affiliation:
Center for Applied Isotope Studies, University of Georgia, Athens, Georgia 30602, USA

Abstract

U and Th data have been obtained by γ-ray spectrometry on samples from thirty quarry sites in the Elberton batholith, a large (500 km2) late orogenic (320 Ma) mesozonal biotite granite in the Southern Piedmont, USA. The granite is enriched in the Th (=42ppm), but U contents (=3ppm) are close to the average abundance for granites (18 ppm Th; 4 ppm U). Th/U ratios vary widely throughout the batholith, ranging from 3 to 58, with an unusually high mean of 18±10 (1). At some localities, lower Th/U ratios, high U contents of zircons (1500 ppm), and similarities to two-mica granites which have low Th/U ratios of ∼ 1 indicate that the granite once had a much higher U content. Pegmatites are enriched in U (up to a factor of 8), but Th contents are low (by a factor of 3) compared with the granite suggesting loss of U from the granite by an early magmatic vapour-phase. Significant U loss may also have occurred as a result of groundwater leaching, possibly associated with uplift and weathering of the intrusion 200 Ma ago. The highest Th/U values occur in the upper portions of the batholith, consistent with the hypothesis of U loss by these processes. The U content is highly variable throughout the batholith but Th is more uniform, both regionally and at outcrop. The distribution of Th does not correlate with patterns shown using previously published, 18O/16O, 87Sr/86Sr, or trace element (Ba, Rb. Sr, Mn) data, which are thought to reflect inhomogeneity in the protolith of the granite although the possibility that at least some of the isotopic ratios were disturbed by late alteration processes cannot be eliminated.

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1982

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References

Buddington, A. F., and Lindsley, D. H. (1964 J. Petrol. 5, 310-57.CrossRefGoogle Scholar
Ellwood, B. B., Whitney, J. A., Wenner, D. B., Mose, D., and Amerigian, C. (1980 J. Geophys. Res. 85, 6521-33.CrossRefGoogle Scholar
Haggerty, S. E. (1971 Carnegie Inst. Washington Yearbk. 70, 165-76.Google Scholar
Hess, J. (1979 MS. thesis, University of Georgia, 193 pp.Google Scholar
Ludwig, K. R., Nash, J. T., and Naeser, C. W. (1980 U.S.G.S. Open File Rept. 80-236.Google Scholar
Nash, J. T. (1979 Ibid. 79-233, 1-39Google Scholar
Rogers, J. J. W., and Adams, J. A. S. (1969a In Handbook of Geochemistry, Wedepohl, K. H. (ed.), Berlin, Springer- Verlag, II-4.Google Scholar
Rogers, J. J. W., and Adams, J. A. S. (1969b Ibid. II-5.Google Scholar
Ragland, P. C., Nishimori, R. K., Greenberg, J. K., and Hauck, S. A. (1978, Econ. Geol. 73, 1539-55.Google Scholar
Ross, C. R., II, and Bickford, M. E. (1980 In Geological, Geochemical and Geophysical Studies of the Elberton Batholith, Eastern Georgia, Stormer, J. C. and Whitney, J. A. (eds.), Guidebook 19, Georgia Dept. Nat. Resources, 52-62.Google Scholar
Silver, L. T. (1976 Geol. Soc. Am. Abstracts with Programs, 1107-8.Google Scholar
Stormer, J. C., Whitney, J. A., and Hess, J. R. (1980 In Geological, Geochemical, and Geophysical Studies of the Elberton Batholith, Eastern Georgia, Stormer, J. C. and Whitney, J. A. (eds.), Guidebook 19, Georgia Dept. Nat. Resources, 1030.Google Scholar
Stuckless, J. S. (1980 Am. Assoc. Petrol. Geol. 64, 789-90.Google Scholar
Millard, H. T., Jr., Bunker, C. M., Nkomo, I. T., Rosholt, J. N., Bush, C. A., Huffman, C., Jr., and Keil, R. L. (1977 U.S.G.S. J. Res. 5, 83-91Google Scholar
Millard, H. T., Jr., Bunker, C. M., Nkomo, I. T., Rosholt, J. N., Bush, C. A., Huffman, C., Jr., and Keil, R. L. and Nkomo, I. T. (1978 Econ. Geol. 73, 427-41.Google Scholar
Wenner, D. B. (1980 In Geological, Geochemical and Geophysical Studies of the Elberton Batholith, Eastern Georgia Stormer, J. C. and Whitney, J. A. (eds.), Guidebook 19, Georgia Dept. Nat. Resources, 31-4.Google Scholar
Whitney, J. A., and Wenner, D. B. (1980 In Excursions in Southeastern Geology, Fry, R. W. (ed.), Am. Geol. Inst. 2, 351-78.Google Scholar