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Clarification of status of species in the pyrochlore supergroup

Published online by Cambridge University Press:  05 July 2018

A. G. Christy*
Affiliation:
Centre for Advanced Microscopy, Australian National University, Canberra, ACT 0200, Australia
D. Atencio
Affiliation:
Instituto de Geociências, Universidade de São Paulo, Rua do Lago, 562, 05508-080, São Paulo, Brazil
*

Abstract

After careful consideration of the semantics of status categories for mineral species names, minor corrections and disambiguations are presented for a recent report on the nomenclature of the pyrochlore supergroup. The names betafite, elsmoreite, microlite, pyrochlore and roméite are allocated as group names within the pyrochlore supergroup. The status of the names bindheimite, bismutostibiconite, jixianite, monimolite, partzite, stetefeldtite and stibiconite is changed from 'discredited' to 'questionable' pending further research.

Type
Letter
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 2013

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References

Andrade, M.B., Atencio, D., Chukanov, N.V. and Ellena, J. (2012a) Hydrokenomicrolite, IMA 2011-103. CNMNC Newsletter No. 13, June 2012, page 809; Mineralogical Magazine, 76, 807817.Google Scholar
Andrade, M.B., Atencio, D., Yang, H., Downs, R.T., Persiano, A.I.C. and Ellena, J. (2012b) Fluorcalciomicrolite, IMA 2012-036. CNMNC Newsletter No. 14, October 2012, page 1286; Mineralogical Magazine, 76, 12811288.Google Scholar
Atencio, D., Andrade, M.B., Christy, A.G., Gieré, R. and Kartashov, P.M. (2010) The pyrochlore supergroup of minerals: nomenclature. The Canadian Mineralogist, 48, 673698.CrossRefGoogle Scholar
Biagioni, C. and Orlandi, P. (2012) Oxycalcioroméite, IMA 2012-022. CNMNC Newsletter No. 14, October 2012, page 1283; Mineralogical Magazine, 76, 12811288.Google Scholar
Burke, E.A.J. (2006) A mass discreditation of GQN minerals. The Canadian Mineralogist, 44, 15571560.CrossRefGoogle Scholar
Chukanov, N.V., Blass, G., Zubkova, N.V., Pekov, I.V., Pushcharovsky, D.Y. and Prinz, H. (2012) Hydroxymanganopyrochlore, IMA 2012-005. CNMNC Newsletter No. 13, June 2012, page 813; Mineralogical Magazine, 76, 807817.Google Scholar
Dihlstroem, K. and Westgren, A. (1937) U¨ ber den Bau des sogenannten Antimontetroxyds und der damit isomorphen Verbindung BiTa2O6F. Zeitschrift für Anorganische und Allgemeine Chemie, 235, 153160.Google Scholar
England, W.A., Cross, M.G., Hamnett, A., Wiseman, P.J. and Goodenough, J.B. (1980) Fast proton conduction in inorganic ion-exchange compounds. Solid State Ionics, 1, 231249.CrossRefGoogle Scholar
Gieré, E.O., Brahimi, A., Dieseroth, H.J. and Reinen, D. (1997) The geometry and electronic structure of the Cu2+ polyhedra in trirutile-type compounds Zn(Mg)1–xCuxSb2O6 and the dimorphism of CuSb2O6: a solid state and EPR study. Journal of Solid State Chemistry, 131, 263274.CrossRefGoogle Scholar
Hogarth, D.D. (1977) Classification and nomenclature of the pyrochlore group. American Mineralogist, 62, 403410.Google Scholar
Hong, H.Y.-P., Kafalas, J.A. and Goodenough, J.B. (1974) Crystal chemistry in the system MSbO3 . Journal of Solid State Chemistry, 9, 345351.CrossRefGoogle Scholar
Mason, B. and Vitaliano, C.J. (1953) The mineralogy of the antimony oxides and antimonates. Mineralogical Magazine, 30, 100112.CrossRefGoogle Scholar
Mizoguchi, H., Eng, H.W. and Woodward, P.M. (2004) Probing the electronic structures of ternary perovskite and pyrochlore oxides containing Sn4+ or Sb5+. Inorganic Chemistry, 43, 16671680.CrossRefGoogle Scholar
Natta, G. and Baccaredda, M. (1936) Composti chimici interstiziali. Struttura del pentossido di antimonio idrato e di alcuni antimoniati. Gazzetta Chimica Italiana, 66, 308316.Google Scholar
Roper, A.J., Williams, P.A. and Filella, M. (2012) Secondary antimony minerals: phases that control the dispersion of antimony in the supergene zone. Chemie der Erde – Geochemistry, 72 supplement 4, 914.CrossRefGoogle Scholar
Stewart, D.J. and Knop, O. (1970) Pyrochlores. VI. Preparative chemistry of sodium and silver antimonates and related compounds. Canadian Journal of Chemistry, 48, 13231332.CrossRefGoogle Scholar
Witzke, T., Steins, M., Doering, T., Schuckmann, W., Wegner, R. and Pöllmann, H. (2011) Fluornatromicrolite, (Na,Ca,Bi)2Ta2O6F, a new mineral species from Quixaba, Paraíba, Brazil. The Canadian Mineralogist, 49, 11051110.CrossRefGoogle Scholar
Yang, G., Li, G., Xiong, M., Pan, B. and Yan, C. (2011) Hydroxycalciopyrochlore, IMA 2011-026. CNMNC Newsletter No. 10, October 2011, page 2554; Mineralogical Magazine, 75,. 25492561.Google Scholar
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Pyrochlore supergroup species names

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