The Clay Minerals Society Glossary of Clay Science, 2018 version Part Clay-Related Materials (Excluding exchanged phases) achlusite

Yüklə 428,36 Kb.
ölçüsü428,36 Kb.
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zweiaxiger glimmer an obsolete term for muscovite

References for Part 2
Abraham, K., Schreyer, W., Medenbach, O., and Gebert, W. (1980) Kulkeit, ein geordnetes 1:1 Mixed-Layer-Mineral zwischen Klinochlor und Talk (abstr). Fortschritte der Mineralogie, 58, 4-5.

Alberico, A. (1998) Crystal-chemical and structural revision of carlosturanite. Plinius, 19, 111-114.

Bailey, S.W. (1980) Structures of layer silicates. In Crystal Structures of Clay Minerals and Their X-Ray Identification, Monograph No. 5, Brindley, G.W., and Brown, G., Eds, Mineralogical Society, London, 1-123.

Bailey, S.W. (1981) A system of nomenclature for regular interstratifications. Canadian Mineralogist, 19, 651-655.

Bailey, S.W. (1982) Nomenclature for regular interstratifications. American Mineralogist, 67,


Bailey, S.W. (1988) Odinite, a new dioctahedral-trioctahedral Fe3+-rich clay mineral. Clay

Minerals, 23, 237-247.

Bailey, S.W. (1989) Halloysite –a critical assessment. Sciences Géologiques Mémoirs,

Proceedings 9th International Clay Conference, 86, vol. II, Farmer, V.C. and Tardy, Y.,

Eds, Strasbourg, 89-98.

Bailey, S.W. (Chair) (1980) Summary of recommendations of the AIPEA Nomenclature

Committee. Clays and Clay Minerals, 28, 73-78.

Bailey, S.W., Banfield, J.F., Barker, W.W., and Katchan, G. (1995) Dozyite, a 1:1 regular

interstratification of serpentine and chlorite: American Mineralogist, 80, 65-77.

Barronet, A. (1982) Ostwald ripening in solution. The case for calcite and mica. Estudios

Geológicos, 38, 185-198.

Bayliss, P. (1975) Nomenclature of the trioctahedral chlorites. Canadian Mineralogist, 13, 178-


Beaufort, D., Baronnet, A., Lanson, B., and Meunier, A. (1997) Corrensite: A single phase or a

mixed-layer phyllosilicate in the saponite-to-chlorite conversion series? A case study of

Sancerre-Couy deep drill hole (France). American Mineralogist, 82, 109-124.

Biagioni, C., Capalbo, C., and Pasero, M. (2012) Nomenclature tunings in the hollandite

supergroup. European Journal of Mineralogy, 25, 85-90.

Bish, D.L. and Johnston, C.T. (1993) Rietveld refinement and Fourier transform infrared

spectroscopic study of the dickite structure at low temperature. Clays and Clay Minerals,

41, 297-304.

Bish, D.L. and Von Dreele, R.B. (1989) Rietveld refinement of non-hydrogen atomic positions in

kaolinite. Clays and Clay Minerals, 37, 289-296.

Bohor, B.F., and Triplehorn, D.M. (1993) Tonsteins: Altered Volcanic-Ash Layers in Coal-

Bearing Sequences. Geological Society of America Special Paper 285, Geological

Society of America, Inc., Boulder, Colorado, 44 p.

Breu, J., Seidl, W., and Stoll, A. (2003) Disorder in smectites and dependence of the interlayer

cation. Zeitschrift für Anorganische and Allgemeine Chemie, 629, 503-515 (in German).

Brindley, G.W. (1955) Stevensite, a montmorillonite-type mineral showing mixed-layer

characterisitics. American Mineralogist, 40, 239-247.

Brindley, G.W., Bish, D.L., and Wan, H-M. (1977) The nature of kerolite, its relation to talc and

stevensite. Mineralogical Magazine, 41, 443-452.

Brindley, G.W., and Pedro, G. (1976) Meeting of the Nomenclature Committee of AIPEA:

Mexico City, July 12, 1975. AIPEA Newsletter No. 12, 5-6.

Brindley, G.W. and Wan, H-M. (1975) Compositions, structures, and thermal behavior of nickel-

containing minerals in the laizardite-nepouite series. American Mineralogist, 60, 863-


Brindley, G.W., Zalba, P.E., and Bethke, C.M. (1983) Hydrobiotite, a regular 1:1

interstratification of biotite and vermiculite layers. American Mineralogist, 68, 420-425.

Brown, G. and Weir, A.H. (1963) The identity of rectorite and allevardite. International Clay

Conference, 1963, Pergamon Press, New York, 27-35.

Bujnowski, T.J., Guggenheim, S., and Kato, T. (2009) Crystal structure determination of

anandite-2M mica. American Mineralogist, 1144-1152.

Capitani, G. and Mellini, M. (2004) The modulated crystal structure of antigorite: The m = 17

polysome. American Mineralogist, 89, 147-158.

Christidis, G.E. and Mitsis, I. (2006) A new Ni-rich stevensite from the ophiolite complex of

Othrys, central Greece. Clays and Clay Minerals, 54, 653-666.

Chukanov, N.V., Pekov, I.V., Zadov, A.E., Chukanova, V.N., and Mökkel, S. (2003)

Ferrosaponite Ca0.3 (Fe2+,Mg,Fe3+)3(Si,Al)4O10(OH)2 . 4H2O, the new trioctahedral

smectite. Zapiski Vserossiyskogo Mineralogicheskogo Obshchestva, 132, 68-74 (in


Chukhrov, F.V., Gorshkov, A.I., Rudnitskaya, E.S., Berezovskaya, V.V., and Sivitsov, A.V.

(1980) Manganese minerals in clays: a review. Clays and Clay Minerals, 28, 346-354.

Dong, H., Peacor, D.R., Merriman, R.J., and Kemp, S.J. (2002) A new R1 interstratified

pyrophyllite/smectite-like clay mineral: characterization and geological origin.

Mineralogical Magazine, 66, 605–617.

Drits, V.A., Sakharov, B.A., and Manceau, A. (1993) Structure of feroxyhite as determined by

simulation of X-ray diffrction curves. Clay Minerals, 28, 209-222.

Drits, V.A., Sokolova, T.N., Sokolova, G.V., and Cherkashin, V.I. (1987) New members of the

hydrotalcite-manasseite group. Clays and Clay Minerals, 35, 401-417.

Eggleton, R.A. (1972) The crystal structure of stilpnomelane, Part II. The full cell.

Mineralogical Magazine, 38, 693-711.

Eggleton, R.A. and Bailey, S.W. (1967) Structural aspects of dioctahedral chlorite. American

Mineralogist 52, 673-689.

Eggleton, R.A. and Guggenheim, S. (1986) A re-examination of the structure of ganophyllite. Mineralogical Magazine, 50, 307-315.

Eggleton, R.A. and Guggenheim, S. (1994) The use of electron optical methods to determine the crystal structure of a modulated phyllosilicate: Parsettensite. American Mineralogist, 79, 426-437.

Evans, B.W. and Guggenheim, S. (1988) Talc, pyrophyllite, and related minerals. In Reviews in Mineralogy, vol. 19, Hydrous phyllosilicates (Exclusive of the micas), Bailey, S. W., Ed., Mineralogical Society of America, Washington, D.C., 225-294.

Faust, G.T., Hathaway, J.C., and Millot, G. (1959) A restudy of stevensite and allied minerals. American Mineralogist, 44, 342-370.

Faust, G.T. (1951) Thermal analysis and X-ray studies of sauconite and some zinc minerals of the same paragenetic association. American Mineralogist, 36, 795-822.

Ferraris, G. (1997) Polysomatism as a tool for correlating properties and structure. In EMU Notes in Mineralogy, vol. 1, Merlino, S., Ed., 275-295, Eötvös University Press, Budapest, Hungary, 275-296.

Ferraris, G. Khomyakov, A.P., Belluso, E., and Soboleva, S.V. (1998) Kalifersite, a new alkaline silicate from Kola Peninsula (Russia) based on a palygorskite-sepiolite polysomatic series. European Journal of Mineralogy 10, 865-874.

Ferrow, E.A., Wallenberg, L.R., and Holstam, D. (1999) Crystal chemistry and defect structure of ekmanite: new data from transmission electron microscopy and Mössbauer spectroscopy. European Journal of Mineralogy, 11, 299-308.

Fleet, M.E. (2003) Sheet silicates: Micas. V. 3A, Deer, Howie and Zussman, The Rock-Forming Minerals, The Geological Society (of Great Britain).

Frank-Kamenetskii, V.A., Logvinenko, N.V., and Drits, V.A. (1965) Tosudite—a new mineral, forming the mixed-layer phase in alushite. Proceedings of the International Clay Conference, Stockholm 2, 181-186.

Frondel, C. (1955) Two chlorites: gonyerite and melanolite. American Mineralogist, 40, 1090-1094.

Garcés J.M. , Rocke, S.C. , Crowder, C.E., and Hasha, D.L. (1988) Hypothetical structures of magadiite and sodium octosilicate and structural relationships between the layered alkali metal silicates and the mordenite- and pentasil-group zeolites. Clays and Clay Minerals , 36, 409-418.

Goffé, B., Baronnet, A., and Morin, G. (1994) La saliotite, interstratifié régulier 1:1 cookéite/paragonite, Nouveau phyllosilicate du métamorphisme de haute pression et basse température. European Journal of Mineralogy, 6, 897-911.

Graeser, S., Hetherington, C.J., and Gieré, R. (2003) Ganterite, a new barium-dominant analogue of muscovite from the Berisal Complex, Simplon Region, Switzerland. Canadian Mineralogist, 41, 1271-1280.

Graetsch, H. (1994) Structural characteristics of opaline and microcrystalline silica minerals. In Reviews in Mineralogy, vol. 29, Silica: Physical behavior, geochemistry, and materials applications, P.J. Heaney, C.T. Prewitt, and G.V. Gibbs, Eds., Mineralogical Society of America, Washington, D.C., 209-232.

Greene-Kelly, R. (1953) Irreversible dehydration in montmorillonite. Part II: Clay Mineral Bulletin 2, 52-56.

Grice, J.D. and Gault, R.A. (1995) Varennesite, a new species of hydrated Na-Mn silicate with a unique monophyllosilicate structure. Canadian Mineralogist, 33, 1073-1081.

Guggenheim, S. (2011) Introduction to Mg-rich clay minerals: Structure and composition. In Magnesian clays: Characterization, origin and applications, Educational Series, No. 2, Pozo, M. and Galan, E., Eds. AIPEA Digilabs, Bari, Italy, 1- 62.

Guggenheim, S., Adams, J.M., Bain, D.C., Bergaya, F., Brigatti, M.F., Drits, V.A., Formoso, M.L.L., Galán, E., Kogure, T., and Stanjek, H. (2006) Summary of recommendations of nomenclature committees relevant to clay minerals: Report of the Association Internationale pour L’etude des Argiles (AIPEA) Nomenclature Committee for 2006. Clays and Clay Minerals, 54, 761-772.

Guggenheim, S. and Eggleton, R.A. (1986) Structural modulations in iron-rich and magnesium-rich minnesotaite. Canadian Mineralogist, 24, 479-497.

Guggenheim, S. and Eggleton, R.A. (1987) Modulated 2:1 layer silicates: Review, systematics, and predictions. American Mineralogist, 72,724-738.

Guggenheim, S. and Eggleton, R.A. (1998) Modulated crystal structures of greenalite and caryopilite: A system with long-range, in-plane structural disorder in the tetrahedral sheet. Canadian Mineralogist, 36, 163-179.

Guggenheim, S. and Frimmel, H.E. (1999) Ferrokinoshitalite, a new species of brittle mica from the Broken Hill Mine, South Africa: Structural and mineralogical characterization. Canadian Mineralogist, 37, 1445-1452.

Guggenheim, S. and Martin, R. T. (1995) Definition of clay and clay mineral: Joint Report of the AIPEA and CMS Nomenclature Committees. Clays and Clay Minerals, 43, 255-256.

Guggenheim, S. and Zhan, W. (1999) Crystal structures of two partially dehydrated chlorites: The “modified” chlorite structure. American Mineralogist, 84, 1415-1421.

Guiner, A. (Chair) et al. (1984) Nomenclature of polytype structures: Report of the International Union of Crystallography Ad-Hoc Committee on the Nomenclature of Disordered, Modulated and Polytype Structures. Acta Crystallographica, A40, 399-404.

Guthrie, G.D., Bish, D.L., and Reynolds, R.C., Jr. (1995) Modeling the X-ray diffraction pattern of opal-CT. American Mineralogist, 80, 869-872.

Güven, N. (1971) Structural factors controlling stacking sequences in dioctahedral micas. Clays

and Clay Minerals, 19, 159-165.

Güven, N. (1988) Smectites. In Reviews in Mineralogy, vol. 19, Hydrous phyllosilicates

(Exclusive of the micas), Bailey, S. W., Ed., Mineralogical Society of America,

Washington, D.C., 497-559.

Heaney, P.J. (1994) Structure and chemistry of the low-pressure silica polymorphs. In Reviews

in Mineralogy, vol. 29, Silica: Physical behavior, geochemistry, and materials

applications, P.J. Heaney, C.T. Prewitt, and G.V. Gibbs, Eds., Mineralogical Society of

America, Washington, D.C., 1-40.

Heaney, P.J., Post, J.E., and Evans, H.T., Jr. (1992) The crystal structure of bannisterite. Clays

and Clay Minerals, 40, 129-144.

Heinrich, A.R., Eggleton, R.A., and Guggenheim, S. (1994) Structure and polytypism of

bementite, a modulated layer silicate. American Mineralogist, 79, 91-106.

Higashi, S. (1982) Tobelite, a new ammonium dioctahedral mica. Mineralogical Journal (of

Japan), 11, 138-146.

Hower, J., Eslinger, E.V., Hower, M.E., and Perry, E.A. (1976) Mechanism of burial

metamorphism of argillaceous sediments. Geological Society of America Bulletin, 87,


Hughes, R.E., Moore, D.M., and Reynolds, R.C., Jr., (1993) The nature, detection, and

occurrence, and origin of kaolinite/smectite. In Kaolin Genesis and Utilization, Spec.

Publication No. 1, Murray, H.H., Bundy, W.M., and Harvey, C.C., Eds,, Clay Minerals

Society, Boulder, CO, 291-323.

Inoue, A., Kohyama, N., Kitagawa, R., and Watanabe, T. (1987) Chemical and morphological

evidence for the conversion of smectite to illite. Clays and Clay Minerals, 35, 111-120.

Jarosch, D. (1987) Crystal structure refinement and reflectance measurements of hausmannite,

Mn3O4. Mineralogy and Petrology, 37, 15-23.

Klug, H.P., and Alexander, L.E. (1974) X-Ray Diffraction Procedures, 2nd ed., Wiley, New

York, 966 p.

Kodama, H., De Kimpe, C.R., and Dejou, J. (1988) Ferrian saponite in a gabbro saprolite at Mont

Mégantic, Quebec. Clays and Clay Minerals, 36, 102-110.

Kogarko, L.N., Uvarova, Y.A., Sokolova, E., Hawthorne, F.C., Ottolini, L., and Grice, J.D.

(2005) Oxykinoshitalite, a new species of mica from Fernando de Noronha Island,

Pernambuco, Brazil: Occurrence and crystal structure. Canadian Mineralogist, 43, 1501-1510.

Kohler, T., Armbruster, T., and Libowitzky, E. (1997) Hydrogen bonding and Jahn-Teller

distortion in groutite, alpha-MnOOH, and manganite, gamma-MnOOH, and their

relations to the manganese dioxides ramsdellite and pyrolusite. Journal of Solid State

Chemistry, 133, 486-500.

Köster, H.M. (1982) The crystal structure of 2:1 layer silicates. In International Clay

Conference, 1981, van Olphen, H. and Veniale, F., Eds., Elsevier, 41-71.

Krivovichev, S.V., Armbruster, T., Organova, N.I., Burns, P.C., Seredkin, M.V., and Chukanov,

N.V. (2004) Incorporation of sodium into the chlorite structure: the crystal structure of

glagolevite, Na(Mg,Al)6[Si3AlO10](OH,O)8. American Mineralogist, 89, 1138-1141.

Krivovichev, S.V., Yakovenchuk, V.N., Armbruster, T., Pakhomovsky, Y.A., Weber, H-P., and

Depmeier, W. (2004) Synchrotron X-ray diffraction study of the structure of

shafranovskite, K2Na3(Mn,Fe,Na)4[Si9(O,OH)27](OH)2 . nH2O, a rare manganese

phyllosilicate from the Kola peninsula, Russia. American Mineralogist, 89, 1816-1821.

Krüger, H., Tropper, P., Haefeker, U., Kaindl, R., Tribus, M., Kahlenberg, V., Wikete, C., Fuchs,

M.R., and Olieric, V. (2014) Innsbrukerite, Mn33(Si2O5)14(OH)38 – a new mineral from

Tyrol, Austria. Mineralogical Magazine, 78, 1613-1627.

Laudelout, H. (1987) Cation exchange equilibria in clays. In Chemistry of Clays and Clay

Minerals: Monograph No. 6, Newman, A.C.D., Ed, Mineralogical Society, London, 225-


Lee, J.H. and Guggenheim, S. (1981) Single crystal X-ray refinement of pyrophyllite-1Tc.

American Mineralogist, 66, 350-357.

Lepore, G.O., Bindi, L., Zanetti, A., Ciriotti, M.E., Medenbach, O., and Bonazzi, P. (2015)

Balestraite, KLi2VSi4O10O2, the first member of the mica group with octahedral V5+.

American Mineralogist, 100, 608-614.

Léveillé, R.J., Longstaffe, F.J., and Fyfe, W.S. (2002) Kerolite in carbonate-rich speleothems and

microbial deposits from basaltic caves, Kauai, Hawaii. Clays and Clay Minerals, 50, 514-


Li, G., Peacor, D.R., Coombs, D.S., and Kawachi, Y. (1997) Solid solution in the celadonite

family: The new minerals ferroceladonite, K2Fe2+2Fe3+2Si8O20(OH)4, and ferroceladonite

K2Fe2+2Al2Si8O20(OH)4. American Mineralogist, 82, 503-511.

Lopes-Vieira, A. and Zussman, J. (1969) Further detail on the crystal structure of zussmanite.

Mineralogical Magazine, 37, 49-60.

Mellini, M., Ferraris, G., and Compagnoni, R. (1985) Carlosturanite: HRTEM evidence of a

polysomatic series including serpentine. American Mineralogist, 70, 773-781.

Merlino, S. (1988a) The crystal structure of reyerite, (Na,K)2Ca14Si22Al2O58(OH)8 . 6H2O.

Mineralogical Magazine, 52, 247-256.

Merlino, S. (1988b) Gyrolite: its crystal structure and crystal chemistry. Mineralogical

Magazine, 52, 377-387.

Merlino, S., Bonaccorsi, E., and Armbruster, T. (1999) Tobermorites: Their real structure and

order-disorder (OD) character. American Mineralogist, 84, 1613-1621.

Mesto, E., Scordari, F., Lacalamita, M., and Schingaro, E. (2012) Tobelite and NH+4-rich

muscovite single crystals from Ordivician Armorican sandstones (Brittany, France):

Structure and crystal chemistry. American Mineralogist, 97, 1460-1468.

Michel, F.M., Ehm, L., Antao, S.M., Lee, P.L., Chupas, P.J., Liu, G., Strongin, D.R., Schoonen,

M.A.A., Phillips, B.L., and Parise, J.B. (2007) The structure of ferrihydrite, a

nanocrystalline material. Science, 316, 1726-1729.

Miehe, G. and Graetsch, H. (1992) Crystal structure of moganite: A new structure type for silica.

European Journal of Mineralogy, 4, 693-706.

Miyawaki, R., Shimazaki, H., Shigeoka, M., Yokoyama, K., Matsubara, S., and Yurimoto, H.

(2011) Yangzhumingite, KMg2.5Si4O10F2, a new mineral in the mica group from Bayan

Obo, Inner Mongolia, China. European Journal of Mineralogy, 23, 467-473.

Moore, D.M., and Reynolds, R.C., Jr. (1997) X-Ray Diffraction and the Identification and

Analysis of Clay Minerals, 2nd Ed, Oxford University Press, New York, NY, 380 p.

Moore, D.M. (1996) Comment on: Definition of Clay and clay mineral: Joint report of the

AIPEA nomenclature committees. Clays and Clay Minerals, 44, 710-712.

Newman, A.C.D. and Brown, G. (1987) The chemical constitution of clays. In Chemistry of

Clays and Clay Minerals Monograph 6, Newman, A.C.D., Ed.. Mineralogical Society,


Peacor, D.R., Rouse, R.C., and Bailey, S.W. (1988) Crystal structure of franklinfurnaceite: A tri-

dioctahedral zincosilicate intermediate between chlorite and mica. American

Mineralogist, 73, 876-887.

Pekov, I.V., Chukanov, N.V., Ferraris, G., Ivaldi, G., Pushcharovsky, D. Yu., and Zadov, A.E.

(2003) Shirokshinite, K(NaMg2)Si4O10F2, a new mica with octahedral Na from Khibiny

massif, Kola Peninsula: descriptive data and structural disorder. European Journal of

Mineralogy, 15, 447-454.

Post, J.E. (1999) Manganese oxide minerals: Crystal structures and economic and environmental

significance. Proceedings of the National Academy of Sciences, 96, 3447-3454.

Post, J.E. and Appleman, D.E. (1994) Crystal structure refinement of lithiophorite. American

Mineralogist, 79, 370-374.

Post, J.E. and Bish, D.L. (1988) Rietveld refinement of the todorokite structure. American

Mineralogist, 73, 861-869.

Post, J.E. and Veblen, D.R. (1990) Crystal structure determinations of synthetic sodium,

magnesium, and potassium birnessite using TEM and the Rieveld method. American

Mineralogist, 75, 477-489.

Post, J.E., von Dreele, R.B. and Buseck, P.R. (1982) Symmetry and cation displacements in

hollandites: Structure refinements of hollandite, cryptomelane and priderite. Acta

Crystallographica, B38, 1056-1065.

Postnikova, V.P., Tsipurskij, S.I., Sidorenko, G.A., and Mokhov, A.V. (1986) Yakhontovite– a

new copper-bearing smectite. Mineralogiceskij Zhournal, 8, 80-84 (in Russian).

Pozo, M. and Casas, J. (1999) Origin of kerolite and associated Mg clays in palustrine-lacustrine

environments. The Esquivias deposit (Neogene Madrid Basin, Spain). Clay Minerals,

34, 395-418.

Ranorosoa, N., Fontan, F., and Fransolet, A.-M. (1989) Rediscovery of manandonite in the

Sahatany Valley, Madagascar. European Journal of Mineralogy, 1, 633-638.

Reynolds, R.C., Jr., DiStefano, M.P., and Lahann, R.W. (1992) Randomly interstratified

serpentine/chlorite: Its detection and quantification by powder X-ray diffraction methods.

Clays and Clay Minerals, 40, 262-267.

Robert, J.-L. and Maury, R.C. (1979) Natural occurrence of a (Fe, Mn, Mg) tetrasilicic potassium

mica. Contributions to Mineralogy and Petrology, 68, 117-123.

Ross, C.S. (1946) Sauconite– a clay mineral of the montmorillonite group. American

Mineralogist, 31, 411-424.

Ruiz Cruz, M.D. and Sanz de Galdeano, C. (2009) Suhailite, a new ammonium trioctahedral

mica. American Mineralogist, 94, 210-221.

Shimoda, S. (1971) Mineralogical studies of a species of stevensite from the Obori Mine,

Yamagata Prefecture, Japan. Clay Minerals, 9, 185-192.

Sokolova, E. and Hawthorne, F.C. (2016) The crystal structure of zircophyllite,

K2NaFe2+7Zr2(Si4O12)2O2(OH)4F, an astrophyllite-supergroup mineral from Mont Saint-

Hilaire, Québec, Canada. Canadian Mineralogist, 54, 1539-1547.

Srodo, J., Elass, F., McHardy, W.J., and Morgan, D.J. (1992) Chemistry of illite-smectite

inferred from TEM measurements of fundamental particles. Clay Minerals, 27, 137-158.

Stoessell, R.K. (1988) 25 oC and 1 atm dissolution experiments of sepiolite and kerolite.

Geochimica Cosmochimica Acta, 52, 365-374.

Suquet, H., de la Calle, C., and Pezerat, H. (1975) Swelling and structural organization of

saponite. Clays and Clay Minerals, 23, 1-9.

Tien, P-L., Leavens, P.B., and Nelen, J.A. (1975) Swinefordite, a dioctahedral-trioctahedral Li-

rich member of the smectite group from Kings Mountain, North Carolina. American

Mineralogist, 60, 540-547.

Veblen, D.R. (1991) Polysomatism and polysomatic series: a review and applications. American

Mineralogist, 76, 801-826.

Veniale, F., and van der Marel, H.W. (1969) Identification of some 1:1 regular interstratified

trioctahedral clay minerals, Proceedings of the International Clay Conference, Tokyo 1,


Wada, K. (1989) Allophane and imogolite. In Minerals in the Soil Environment, 2nd Edition,

Dixon, J.B., and Weed, S.B., Eds, Soil Science Society of America, 1051-1087.

Wahle, M.W., Bujnowski, T.J., Guggenheim, S., and Kogure, T. (2010) Guidottiite, the Mn-analogue of cronstedtite: A new serpentine-group mineral from South Africa. Clays and Clay Minerals, 58, 364-376.

Yakovenchuk, V.N., Krivovichev, S.V., Pakhomovsky, Y.A., Ivanyuk, G.Yu., Selivanova, E.A., Men’shikov, Y.P., and Britvin, S.N. (2007) Ambrusterite, K5Na6Mn3+Mn2+14(Si9O22)4(OH)10 . 4H2O, a new Mn hydrous heterophyllosilicate from the Khibiny alkaline massif, Kola Peninsula, Russia. American Mineralogist, 92, 416-423.

Zagorsky, V.Y., Peretyazhko, I.S., Sapozhnikov, A.N., Zhukhlistov, A.P., and Zvygin, B.B. (2003) Borocookeite, a new member of the chlorite group from the Malkhan gem tourmaline deposit, Central Transbaikalia, Russia. American Mineralogist, 88, 830-836.

Zheng, H. and Bailey, S.W. (1994) Refinement of the nacrite structure. Clays and Clay Minerals, 42, 46-52.

Zwicker, W.K., Groeneveld Meijer, W.O.J., and Jaffe, H.W. (1962) Nsutite–a widespread manganese oxide mineral. American Mineralogist, 47, 246-266.

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