Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-26T06:04:05.609Z Has data issue: false hasContentIssue false

Summary of Recommendations of AIPEA Nomenclature Committee

Published online by Cambridge University Press:  01 July 2024

Rights & Permissions [Opens in a new window]

Abstract

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Comment
Copyright
Copyright © Clay Minerals Society 1980

Footnotes

1

AIPEA Nomenclature Committee: S. W. Bailey (U.S.A.), chairman, A. Alietti (Italy), G. W. Brindley (U.S.A.), M. L. L. Formosa (Brazil), K. Jasmund (Federal Republic of Germany), J. Konta (Czechoslovakia), R. C. Mackenzie (United Kingdom), K. Nagasawa (Japan), R. A. Rausell-Colom (Spain), and B. B. Zvyagin (U.S.S.R.).

References

Allen, V. T. Fahey, J. J. and Ross, M., (1969) Kaolinite and anauxite in the lone Formation Amer. Mineral. 54 206211.Google Scholar
Ankinovich, S. G. Ankinovich, E. A. Rozhdestvenskaya, I. V. and Frank-Kamenetskii, V. A., (1972) Chernykhite, a new barium-vanadium mica from northwestern Karatau Zap. Vses. Mineral. Ova. 101 451458.Google Scholar
Bailey, S. W., (1977) Report of the I.M.A.-I.U.Cr. Joint Committee on Nomenclature Amer. Mineral. 62 411415.Google Scholar
Bailey, S. W. Brindley, G. W. Johns, W. D. Martin, R. T. and Ross, M., (1971) Summary of national and international recommendations on clay mineral nomenclature Clays & Clay Minerals 19 129132.CrossRefGoogle Scholar
Bailey, S. W. Brindley, G. W. Johns, W. D. Martin, R. T. and Ross, M., (1971) Clay Mineral Society. Report of nomenclature committee 1969–1970 Clays & Clay Minerals 19 132133.CrossRefGoogle Scholar
Bailey, S. W. and Langston, R. B., (1969) Anauxite and ka-olinite structures identical Clays & Clay Minerals 17 241243.CrossRefGoogle Scholar
Bayliss, P., (1975) Nomenclature of the trioctahedral chlorites Can. Mineral. 13 178180.Google Scholar
Bish, D. L. and Brindley, G. W., (1978) Deweylites, mixtures of poorly crystalline hydrous serpentine and talc-like minerals Mineral. Mag. 42 7579.CrossRefGoogle Scholar
Brindley, G. W., (1967) CIPEA Nomenclature Sub-Committee, Minutes of meetings held June 20 and 23 (1966), Jerusalem, Israel Proc. Int. Clay Conf. 1966 II xxviixxix.Google Scholar
Brindley, G. W. Bish, D. L. and Wan, H.-M., (1977) The nature of kerolite, its relation to talc and stevensite Mineral. Mag. 41 443452.CrossRefGoogle Scholar
Brindley, G. W. Bish, D. L. and Wan, H.-M., (1979) Compositions, structures, and properties of nickel-containing minerals in the kerolite-pimelite series Amer. Mineral. 64 615625.Google Scholar
Brindley, G. W. and De Souza, J. V., (1975) Nickel-containing montmorillonites and chlorites from Brazil, with remarks on schuchardite Mineral. Mag. 40 141152.CrossRefGoogle Scholar
Brindley, G. W. MacEwan, D. M. C. Caillère, S. Correns, C. W. Favajee, J Ch L and Grim, R. E., (1951) The nomenclature of clay minerals Clay Mineral. Bull. 1 194195.Google Scholar
Brindley, G. W. and Pedro, G., (1970) Report of the AIPEA Nomenclature Committee AIPEA Newsletter No. 4 34.Google Scholar
Brindley, G. W. and Pedro, G., (1972) Report of the AIPEA Nomenclature Committee AIPEA Newsletter No. 7 813.Google Scholar
Brindley, G. W. and Pedro, G., (1976) Meeting of the Nomenclature Committee of A.I.P.E. A., Mexico City, July 21, 1975 AIPEA Newsletter No. 12 56.Google Scholar
Brindley, G. W. and Wan, H.-M., (1975) Compositions, structures, and thermal behavior of nickel-containing minerals in the lizardite-nepouite series Amer. Mineral. 60 861871.Google Scholar
Brown, G., (1955) Report of the Clay Minerals Group Sub-Committee on Nomenclature of Clay Minerals Clay Miner. Bull. 2 294302.CrossRefGoogle Scholar
Brown, G. and Weir, A. H., (1963) The identity of rectorite and allevardite Proc. Int. Clay Conf. 1963, Stockholm 1 2735.Google Scholar
Buckley, H. A. Bevan, J. C. Brown, K. M. Johnson, L. R. and Farmer, V. C., (1978) Glauconite and celadonite: two separate mineral species Mineral. Mag. 42 373382.CrossRefGoogle Scholar
Chukhrov, F. V. Zvyagin, B. B. Drits, V. A. Gorshkov, A. I. Ermilova, L. P. Goilo, E. A. and Rudnitskaya, E. S., (1979) The ferric analogue of pyrophyllite and related phases Proc. Int. Clay Conf. 1978, Oxford 5564.Google Scholar
Chukhrov, F. V. Zvyagin, B. B. Ermilova, L. P. Gorshkov, A. I. and Rudnitskaya, E. S., (1969) The relation between chrysocolla, medmontite, and copper-halloysite Proc. Int. Clay Conf. 1969, Tokyo 1 141150.Google Scholar
Chukhrov, F. V. Zvyagin, B. B. Gorshkov, A. I. Ermilova, L. P. and Rudnitskaya, E. S., (1968) The nature of medmontite Izv. Akad. Nauk SSSR, Ser. Geol. 6771.Google Scholar
Drits, V. A. and Kossovskaya, A. G., (1963) Sangarite, a new clay mineral with ordered mixed-layer structure Dokl. Akad. Nauk SSSR 151 934937.Google Scholar
Faust, G. T. Fahey, J. J. Mason, B. and Dwornik, E. J., (1969) Pecoraite, NiGSi4Oi0(OH)8, nickel analog of clino-chrysotile, formed in the Wolf Creek meteorite Science 165 5960.CrossRefGoogle ScholarPubMed
Fleischer, M., (1969) New mineral names Amer. Mineral. 54 990994.Google Scholar
Fleischer, M., (1969) New mineral names Amer. Mineral. 54 17391742.Google Scholar
Forman, S. A. Kodama, H. and Maxwell, J. A., (1967) The trioctahedral brittle micas Amer. Mineral. 52 11221128.Google Scholar
Frank-Kamenetskii, V. A. Logvinenko, N. V. and Drits, V. A., (1963) A dioctahedral mixed-layer clay mineral, tosu-dite Zap. Vses. Mineral. Ova. 92 560565.Google Scholar
Frondel, C. and Einaudi, M., (1968) Zinc-rich micas from Sterling Hill, New Jersey Amer. Mineral. 53 17521754.Google Scholar
Frondel, C. and Ito, J., (1966) Hendricksite, a new species of mica Amer. Mineral. 51 11071123.Google Scholar
Frondel, C. and Ito, J., (1975) Zinc-rich chlorites from Franklin, New Jersey Neues Jahrb. Mineral. Abh. 123 111115.Google Scholar
Glasser, E., (1907) Sur une espèce minérale nouvelle, la né-pouite, silicate hydraté de nickel et de magnésie Bull. Soc. Fr. Minerai. 30 1728.Google Scholar
Harada, K. Honda, M. Nagashima, K. and Kanisawa, S., (1976) Masutomilite, manganese analogue of zinnwaldite, with special reference to masutomilite-lepidolite-zinnwald-ite series Mineral. J. 8 95109.CrossRefGoogle Scholar
Hayase, K. Dristas, J. A. Tsutsumi, S. Otsuka, R. Tanabe, S. Sudo, T. and Nishiyama, T., (1978) Surrte, a new Pb-rich layer silicate mineral Amer. Mineral. 63 11751181.Google Scholar
Hiemstra, S. A. and de Waal, S. A., (1968) Nickel minerals from Barberton. II. Nimite, a nickelian chlorite Nat. Inst. Met. (South Africa) Res. Rep. 344 110.Google Scholar
Hiemstra, S. A. and de Waal, S. A., (1968) Nickel minerals from Barberton. III. Willemseite, a nickelian talc Nat. Inst. Met. (South Africa) Res. Rep. 353 114.Google Scholar
Ivanova, V. P. Kasatov, B. K. and Moskaleva, V. N., (1973) Thermographic studies of serpentines on heating them to 1400° Zap. Vses. Mineral. Ova. 102 315.Google Scholar
Kato, T., (1963) New data on the so-called bementite J. Mineral. Soc. Jpn. 6 93103.Google Scholar
Langston, R. B. and Pask, J. A., (1968) The nature of anaux-ite Clays & Clay Minerals 16 425436.CrossRefGoogle Scholar
Lazarenko, E. K., (1940) Donbassites, a new group of minerals from the Donetz Basin C. R. Acad. Sci. URSS 28 519521.Google Scholar
Lazarenko, E. K. Yu. M., (1970) Tarasovite, a new dioctahedral ordered interlayer mineral Zap. Vses. Mineral. Ova. 99 214224.Google Scholar
Lippmann, F., (1954) Über einen Keuperton von Zaiserswei-her bei Maulbronn Heidelb. Beitr. Mineral. Petrog. 4 130134.Google Scholar
Logvinenko, L. V. and Frank-Kamenetskii, V. A., (1955) On the so-called alushtite Dokl. Akad. Nauk SSSR 105 554557.Google Scholar
Mackenzie, R. C., (1959) The classification and nomenclature of clay minerals Clay Miner. Bull. 4 5266.CrossRefGoogle Scholar
Mackenzie, R. C., (1965) Report of Chairman on meeting of Nomenclature Sub-Committee of CIPEA Proc. Int. Clay Conf. 1963, Stockholm, Sweden 2 439442.Google Scholar
Mackenzie, R. C., (1965) Nomenclature Sub-Committee of C.I.P.E.A. Clay Miner. 6 123126.CrossRefGoogle Scholar
Maksimovic, Z., (1966) β-kerolite-pimelite series from Goleš Mountain, Yugoslavia Proc. Int. Clay Conf. 1966, Jerusalem I 97105.Google Scholar
Maksimovic, Z., (1973) Lizardite-nepouite isomorphic series Zap. Vses. Mineral. Ova. 102 143149.Google Scholar
Orcel, J. Hénin, S. and Caillère, S., (1949) Sur les silicates phylliteux des minéraux de fer oolithiques C. R. Acad. Sci. Paris 229 134135.Google Scholar
Pattiaratchi, D. B. Saari, E. and Sahama, Th G, (1967) Anandite, a new barium-iron silicate from Wilagedera, North Western Province, Ceylon Mineral. Mag. 36 14.Google Scholar
Peacor, D. R. Essene, E. J. and Simmons, W B W C Jr., (1974) Kellyite, a new Mn-Al member of the serpentine group from Bald Knob, North Carolina, and new data on grovesite Amer. Mineral. 59 11531156.Google Scholar
Pedro, G., (1967) Commentaires sur la classification et la nomenclature des mineraux argileux Bull. Groupe Fr. Argiles 19 6986.CrossRefGoogle Scholar
Perrault, G. Harvey, Y. and Pertsowsky, R., (1975) La yo-fortierite, un nouveau silicate hydraté de manganèse de St-Hilaire, P. Q. Can. Mineral. 13 6874.Google Scholar
Schaller, W. T., (1930) Adjectival ending of chemical elements used as modifiers to mineral names Amer. Mineral. 15 566574.Google Scholar
Schaller, W. T. Carron, M. K. and Fleischer, M., (1967) Ephesite, Na(LiAl2)(Al2Si2)O10(OH)2, a trioctahedral member of the margarite group, and related brittle micas Amer. Mineral. 52 16891696.Google Scholar
Semenov.E, I., (1969) Mineralogy of the Ilimaussaq Alkaline Massif, Southern Greenland .Google Scholar
Shimoda, S., (1969) New data for tosudite Clays & Clay Minerals 17 179184.CrossRefGoogle Scholar
Springer, G., (1976) Falcondoite, nickel analogue of sepiolite Can. Mineral. 14 407409.Google Scholar
Tien, P.-L. Leavens, P. B. and Nelen, J. A., (1975) Swine-fordite, a dioctahedral-trioctahedral Li-rich member of the smectite group from Kings Mountain, North Carolina Amer. Mineral. 60 540547.Google Scholar
Veniale, F. and van der Marel, H. W., (1969) Identification of some 1:1 regular interstratified trioctahedral clay minerals Proc. Int. Clay Conf. 1969, Tokyo 1 233244.Google Scholar
Wada, K. and Yoshinaga, N., (1969) The structure of “imogolite” Amer. Mineral. 54 5071.Google Scholar
Yoshii, M. Maeda, K. Kato, T. Watanabe, S Yu Kato, A. and Nagashima, K., (1973) Kinoshitalite, a new mineral from the Noda-Tamagawa mine, Iwate Prefecture Chigaku Kenkyu 24 181190.Google Scholar
Zhoukhlistov, A. P. and Zvyagin, B. B., (1977) Determination of the crystal structure of chapmanite and bismutoferrite by high-voltage electron diffraction Sov. Phys. Crystallogr. 22 419423.Google Scholar
Zhoukhlistov, A. P. Zvyagin, B. B. Soboleva, S. V. and Shlain, L. B., (1974) The crystal structure determination of chapmanite SbFe2Si2O8(OH) by high-voltage electron diffraction Coll. Abstr. I.M.A. General Meeting, Regensburg 79.Google Scholar