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The mineralogy of metamorphosed basic rocks from the Willyama Complex, Broken Hill district, New South Wales. Part II. Pyroxenes, garnets, plagioclases, and opaque oxides

Published online by Cambridge University Press:  14 March 2018

R. A. Binns
R. A. Binns*
Affiliation:
Department of Geology, University of New England, Armidale, N.S.W.
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Summary

Chemical and optical data are presented for the orthopyroxenes, clinopyroxenes, garnets, plagioclases, and opaque oxides in high-grade regionally metamorphosed basic rocks and their garnetiferous associates from the Willyama Complex. Exsolution phenomena in the pyroxenes have been studied by X-ray diffraction methods and with the electron probe micro-analyser. The (001) lamellae in one lime-rich clinopyroxene are clinohypersthene. Comparison of the Willyama and other granulite facies clinopyroxenes with those of slowly cooled basic igneous rocks suggests that their chemical compositions may be used as guides to temperature conditions during formation. Willyama plagioclases are complexly twinned and possess intermediate structural states.

Type
Research Article
Information
Mineralogical magazine and journal of the Mineralogical Society , Volume 35 , Issue 272 , December 1965 , pp. 561 - 587
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1965

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References

Atlas, (L.), 1952. Journ. Geol., vol. 60, p. 125 [M.A. 12-80].Google Scholar
Best, (M. G.), 1963. Journ. Petr., vol. 4, p. 223.Google Scholar
Binns, (R. A.), 1962. Min. Mag., vol. 33, p. 320 [M.A. 16-190].Google Scholar
Binns, (R. A.), 1964. Journ. Geol. Soc. Aust., vol. 11, p. 283.Google Scholar
Binns, (R. A.), 1965. Min. Mag., vol. 35, p. 306.Google Scholar
Binns, (R. A.), Long, (J. V. P.), and Reed, (S. J. B.), 1963. Nature, vol. 198, p. 777.Google Scholar
Bowen, (N. L.) and Schairer, (J. F.), 1935. Amer. Journ. Sci., ser. 5, vol. 29, p. 151 [M.A. 6-352].Google Scholar
Bown, (M. G.) and Gay, (P.), 1959. Amer. Min., vo]. 44, p. 592 [M.A. 14-418].Google Scholar
Bown, (M. G.) and Gay, (P.), 1960. Min. Mag., vol. 32, p. 379 [M.A. 14-506].Google Scholar
Boyd, (F. R.) and England, (J. L.), 1960. Ann. Rept. Geophys. Lab., Yearbook 59, p. 49.Google Scholar
Boyd, (F. R.) and Schairer, (J. F.), 1964. Journ. Petr., vol. 5, p. 275.Google Scholar
Brown, (G. M.), 1956. Phil. Trans. Roy. Soc., ser. B, vol. 240, p. 1 [M.A. 14-69].Google Scholar
Brown, (G. M.), 1957. Min. Mag., vol. 31, p. 511 [M.A. 13-554].Google Scholar
Buddington, (A. F.) and Lindsley, (D. H.), 1964. Journ. Petr., vol. 5, p. 310.Google Scholar
Clavan, (W.), Mcnabb, (W. M.), and Watson, (E. H.), 1954. Amer. Min., vol. 39, p. 566 [M.A. 12-420].Google Scholar
Davis, (B. T. C.), 1963. Ann. Rept. Geophys. Lab., Yearbook 62, p. 103.Google Scholar
Engel, (A. E. J.), Engel, (C.), and Havens, (R. G.), 1961. Journ. Geol., vol. 72, p. 131.CrossRefGoogle Scholar
Eskola, (P.), 1952. Amer. Journ. Sci., Bowen vol., p. 133 [M.A. 12 152].Google Scholar
Eskola, (P.), 1957. Madras Univ. Journ., ser. B, vol. 27, p. 101 [M.A. 14-427].Google Scholar
Gorai, (M.), 1951. Amer. Min., vol. 36, p. 884 [M.A. 11-489].Google Scholar
Green, (D. H.), 1964. Journ. Petr., vol. 5, p. 134.Google Scholar
Henry, (N. F. M.), 1938. Min. Mag., vol. 25, p. 23.Google Scholar
Hess, (H. H.), 1949. Amer. Min., vol. 34, p. 621 [M.A. 11-15].Google Scholar
Hess, (H. H.), 1952. Amer. Journ. Sci., Bowen vol., p. 173 [M.A. 12-97].Google Scholar
Hess, (H. H.), 1960. Geol. Soc. Amer., Mere. 80 [M.A. 14-460].Google Scholar
Howie, (R. A.), 1955. Trans. Roy. Soc. Edin., vol. 62, p. 725 [M.A. 13-351].Google Scholar
Howie, (R. A.), 1958. Service Géol. Congo Belge, Bull. 8, fasc. 2 [M.A. 14-154].Google Scholar
Howie, (R. A.), 1963. Min. Soc. Amer., Special Paper No. 1, p. 213.Google Scholar
Howie, (R. A.), 1964a. Min. Mag., vol. 33, p. 903 [M.A. 16-653].Google Scholar
Howie, (R. A.), 1964b. Geol. Soc. India, Krishnan vol. (in press).Google Scholar
Kranck, (S. H.), 1961. Journ. Petr., vol. 2, p. 137 [M.A. 16-564].Google Scholar
Lindsley, (D. H.), 1963. Ann. Rept. Geophys. Lab., Yearbook 62, p. 60.Google Scholar
Mcdougall, (I.), 1961. Amer. Min., vol. 46, p. 661 [M.A. 15-466].Google Scholar
Muir, (I. D.), 1954. Min. Mag., vol. 30, p. 376.Google Scholar
O'HARA, (M. J.), 1960. Geol. Mag., vol. 97, p. 145 [M.A. 15-153].Google Scholar
O'HARA, (M. J.), 1961. Journ. Petr., vol. 2, p. 248.Google Scholar
Parras, (K.), 1958. Bull. Comm. G6ol. Finlande, No. 181 [M.A. 14-306].Google Scholar
Philipsborn, (H.), 1930. Chemie der Erde, vol. 5, p. 233 [M.A. 4-392].Google Scholar
Skinner, (B. J.), 1956. Amer. Min., vol. 41, p. 428 [M.A. 13-537].Google Scholar
Slemmons, (D. B.), 1962. Norsk Geol. Tidsskr., Bd. 42, 2 Halvbind, p. 533 [M.A. 16-464].Google Scholar
Smith, (J. R.), 1958. Amer. Min., vol. 43, p. 1179 [M.A. 14-284].Google Scholar
Smith, (J. V.), and Gay, (P.), 1958. Min. Mag., vol. 31, p. 744.Google Scholar
Subramaniam, (A. P.), 1962. Geol. Soc. Amer., Buddington vol., p. 21 [M.A. 16-295].Google Scholar
Turner, (F. J.), 1947. Amer. Min., vol. 32, p. 389.Google Scholar
Turner, (F. J.), 1951. Ibid., vol. 36, p. 581 [M.A. 11-388].Google Scholar
Wilson, (A. D.), 1955. Bull. Geol. Surv. Great Britain, No. 9, p. 56 [M.A. 13-257].Google Scholar