Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-15T01:39:14.534Z Has data issue: false hasContentIssue false
  • English
  • Français

Non-metals in soils of the Teign Valley of SW Devon as indicators of mineral veins

Published online by Cambridge University Press:  01 May 2009

J. R. Merefield
J. R. Merefield
Affiliation:
Geology Department University, Southampton, SO9 5NH
Get access Rights & Permissions [Opens in a new window]

Summary

Quantitative methods of X-ray fluorescence analysis have been employed to the determination of Pb, Zn, Ni, As, Rb, Ce and Y, in soils of the Teign Valley of SW Devon. The results enable a comparison to be made of the ore metal and non-metal anomalies found, and demonstrate the applicability of non-metals as lode indicators.

Type
Articles
Information
Geological Magazine , Volume 110 , Issue 2 , March 1973 , pp. 165 - 169
Copyright
Copyright © Cambridge University Press 1973

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bradshaw, P. M. D. & Stoyel, A. J. 1968. Exploration for blind orebodies in southwest England by the use of geochemistry and fluid inclusions. Trans. Instn Min. Metall. Lond. 77, B 144–52.Google Scholar
Clayden, B. 1964. Soils of the Middle Teign Valley District of Devon. Bull. Soil Surv. Gt Br. (Agricultural Research Council, Harpenden) 1, 111.Google Scholar
Dines, H. G. 1956. The Metalliferous Mining Region of South-West England. Mem. geol. Surv. Gt Br. 2, 287.Google Scholar
Edmonds, E. A., McKeown, M. C. & Williams, M. 1969. South-West England, Br. reg. Geol. Inst. geol. Sci. 130.Google Scholar
Harbaugh, J. W. 1950. Biogeochemical investigations in the Tri-State district. Econ. Geol. 45, 548–67.CrossRefGoogle Scholar
Hosking, K. F. G. 1959. Applied Geochemistry: Studies in Cornwall. Trans. R. geol. Soc. Corn. 19, 5283.Google Scholar
Levering, T. S., Huff, L. C. & Almond, H. 1950. Dispersion of copper from the San Manuel copper deposit, Pinal County, Arizona. Econ. Geol. 45, 493514.CrossRefGoogle Scholar
Millman, A. P. 1957. Biogeochemical investigations in areas of copper-tin mineralization in south-west England. Geochim. cosmochim. Acta. 12, 8593.CrossRefGoogle Scholar
Mazzucchelli, R. H. & James, C. H. 1966. Arsenic as a guide to gold mineralization in laterite-covered areas of Western Australia. Trans. Instn Min. Metall. Lond. 75, B 286–94.Google Scholar
Miranda, F. E. & Garcia, M. V. 1968. Geological-geochemical investigations of the zinc-lead-copper prospect in Palanas, Kawit, Ayala district, Zamboanga city. Philipp. Geol. 22, 3, 133–43.Google Scholar
Nichol, I., Thornton, I., Webb, J. S., Fletcher, W. K., Horsnail, R. F., Khaleelee, J. & Taylor, D. 1970. Regional geochemical reconnaissance of the Derbyshire area. Rep. Inst. geol. Sci. 70/2, 37.Google Scholar
Nichol, I., Thornton, I., Webb, J. S., Fletcher, W. K., Horsnail, R. F. & Khaleelee, J. 1971. Regional geochemical reconnaissance of part of Devon and north Cornwall. Rep. Inst. geol. Sci. 71/2, 26.Google Scholar
Webb, J. S. 1964. Geochemistry and Life. New Scient. 23, 504–7.Google Scholar