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Mineral nomenclature: zirconolite

Published online by Cambridge University Press:  05 July 2018

Peter Bayliss ,
Fiorenzo Mazzi ,
Rosalba Munno  and
Tim J. White
Peter Bayliss
Affiliation:
Department of Geology and Geophysics, The University of Calgary, Alberta, Canada T2N 1N4
Fiorenzo Mazzi
Affiliation:
Dipartimento di Scienze della Terra—Sezione di Mineralogia, Petrografia e Geochimica—Via A. Bassi, 4—Pavia, Italy
Rosalba Munno
Affiliation:
Dipartimento di Geofisica e Vulcanologia—Largo San Marcellino, 10—Naples, Italy
Tim J. White
Affiliation:
University of Melbourne, School of Physics, Parkville, Victoria, Australia 3052
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Abstract

The nomenclature of CaZrTi2O7 minerals has become very confused, such that zirconolite, zirkelite and polymignite each have acquired multiple meanings and represent five different crystal structures. To resolve these inconsistencies, the IMA approved resolutions as follows. Zirconolite is the non- crystalline (metamict) mineral or mineral with undetermined polytypoid of CaZrTi2O7. Zirconolite-3O is the three-layered orthorhombic polytypoid of CaZrTi2O7. Zirconolite-3T is the three-layered trigonal polytypoid of CaZrTi2O7. Zirconolite-2M is the two-layered monoclinic polytypoid of CaZrTi2O7. Polymignite (metamict) is discarded as equivalent to zirconolite. Zirkelite is the cubic mineral with formula (Ti,Ca,Zr)O2−x.

Keywords

zirconolitepolymignitezirkelitemineral nomenclature
Type
Non-silicate Mineralogy
Information
Mineralogical Magazine , Volume 53 , Issue 373 , December 1989 , pp. 565 - 569
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1989

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References

Agrell, S. O., Charnley, N. R., and Rowley, P. D. (1986) Mineral. Soc. Bull. 72 (abstract).Google Scholar
Bailey, S. W., Frank-Kamenetskii, V. A., Goldsztaub, S., Kato, A., Pabst, A., Schulz, H., Taylor, H. F. W., Fleischer, M., and Wilson, A. J. C. (1977) Acta Crystallogr. A33, 681-4.CrossRefGoogle Scholar
Berzelius (1824) quoted from Palache et al. (1944. Dana's system of Mineralogy 7th ed., 1,764.Google Scholar
Blake, G. S. and Smith, G. F. (1913) Mineral. Mag. 16, 309-16.Google Scholar
Borodin, L. S., Nazarenko, I. I., and Richter, T. L. (1956) Dokl. Akad. Nauk S R. 110, 845-8 (in Russian).Google Scholar
Borodin, L. S., Bykova, A. B., Kapitonova, T. A., and Pyatenko, Yu. A. (1960) Dokl. Acad. Earth Sci. Section 134, 1022-4.Google Scholar
Fleischer, M. (1987) Glossary of Mineral Species. Mineralogical Record, Tucson, Az.Google Scholar
Fowler, M. B. and Williams, C. T. (1986) Mineral. Mag. 50, 326-8.CrossRefGoogle Scholar
Frondel, J. W. (1975) Lunar Mineralogy, 323, New York, Wiley Interscience.Google Scholar
Gatehouse, B. M., Grey, I. E., Hill, R. J., and Rossell, H. J. (1981) Acta Crystallogr. B37, 306-12.CrossRefGoogle Scholar
Giéré, R. (1986) Contrib. Mineral. Petrol. 93, 459-70.CrossRefGoogle Scholar
Hogarth, D. D. (1977) Am. Mineral. 62, 403-10.Google Scholar
Hussack, E. and Prior, G. T. (1895) Mineral. Mag. 11, 80-8.Google Scholar
Lima-de-Faria, J. (1964) Estud. Ensaios. Doc. Junta Invest. Cient. Ultramar 112, 45.Google Scholar
Levinson, A. A. (1966) Am. Mineral. 51, 152-8.Google Scholar
Lorand, J. P. and Cottin, J. Y. (1987) Mineral. Mag. 51, 671-6.CrossRefGoogle Scholar
Lorand, J. P. and Cottin, J. Y. and Parodi, J. C. (1987) Can. Mineral. 25, 683-93.Google Scholar
Mazzi, F. and Munno, R. (1983) Am. Mineral. 68, 262-76.Google Scholar
Nickel, E. N. and Mandarino, J. A. (1988) Mineral. Mag. 52, 275-92.CrossRefGoogle Scholar
Platt, R. G., Wall, F., Williams, C. T., and Woolley, A. R. (1987) Ibid. 51, 253-63.Google Scholar
Pudovkina, Z. V. and Pyatenko, Yu.A. (1964) Rentgenografischeskoe Mineral'nogo Syr'ya Vyp. 4. Izd. “Nedra”.Google Scholar
Pudovkina, Z. V., Dubakina, L. S., Levedeva, S. I. and Pyatenko, Yu. A. (1974) Zap. Vses. Mineral. O-va. 103, 368-72.Google Scholar
Purtscheller, F. and Tessardi, R. (1985) Mineral. Mag. 49, 523-9.CrossRefGoogle Scholar
Pyatenko, Yu.A. and Pudovkina, Z. V. (1964) Sov. Phys. Cryst. 9, 76-8.Google Scholar
Ramsdell, L. S. (1947)Am. Mineral. 32, 64-82.Google Scholar
Ringwood, A. E. (1985) Mineral. Mag. 49, 159-76.CrossRefGoogle Scholar
Rossell, H. J. (1980) Nature 283, 281-3.CrossRefGoogle Scholar
Sinclair, W. and Eggleton, R. A. (1982) Am. Mineral. 32, 64-82.Google Scholar
Sinclair, W. and Ringwood, A. E. (1981) Geochem. J. (Tokyo) 15, 229-43.CrossRefGoogle Scholar
Wark, D. A., Reid, A. M., Lovering, J. F. and El Goresy, A. (1973) Fourth Lunar Science Conference, Houston (Chamberlain, J. W. and Watkins, C., eds.).Google Scholar
White, T. J. (1984) Am. Mineral. 69, 1156-72.Google Scholar
White, T. J., Segall, R. L., Hutchinson, J. L. and Barry, J. C. (1984) Proc. Royal Soc. London A392, 343-58.Google Scholar
White, T. J., Segall, R. L. and Turner, P. S. (1985) Angew. Chem. Int. Ed. Engl. 24, 357-65.CrossRefGoogle Scholar