Journal/NDM46 2011 eng — различия между версиями

This issue includes the articles about new mineral species found from rocks of the Dara-i-Pioz alkaline massif, Tajikistan: byzantievite, Ba, Ca, REE, Ti, and Nb silico-phospho-borate with complex structure and orlovite, titanium analogue of polylithionite, which is a new member of mica group. Rare minerals, rooseveltite and preisingerite from the Oranzhevoye ore f ield, Verkhne-Kalganinsky massif, Magadan region, Russia, mannardite from carbonaceous-siliceous schists, South Kirgizstan and Kazakhstan, and palladoarsenide and mayakite from sulfide of ores of Norilsk field are described. The new data of fahlores and secondary minerals at the Labedinoe deposit, Central Aldan, Li mineralization from the Glubostrovskoye granitic pegmatite, South Urals, and mineralogy of wood tin at the Dzhalinda deposit, Khingan-Oloi tin district are given. The published and novel data of uranium oxides and hydroxides are reviewed. The experimental study of crystallization products of chalcopyrite solid solution was carried out.
In section “Mineralogical museums and collections”, stone-cutting articles of the Peterhof lapidary factory in the collection of the Fersman Mineralogical Museum, Russian Academy of Sciences are described. The other two articles are devoted to the history of first catalogues of the museum collections and the attribution of marble specimens of Florentine marble mosaic and ruin marble involved in the first Mineral catalogue by M.V. Lomonosov. The exhibition “Amazing stone” held in 2011 in the Fersman Mineralogical Museum and the new acquisitions to the museum 2009–2010 are also reported in this section. An article about Yu.L. Orlov, talented mineralogist, the head of the Fersman Mineralogical Museum from 1976 to 1980, is placed in section “Persons”.
A section “Mineralogical notes” briefly informs about the new data of the process of formation of skeletal crystals of calcite from carst cavities, reports bilibinskite from the cementation zone of gold-telluride deposits (Aginskoe, Kamchatka and Pionerskoe, Syan Mountains), and the minerals from metakimberlites of the Udachnaya-Vostochnaya Pipe, Northern Yakutia.
This journal is interest for mineralogists, geochemists, geologists, workers of natural history museums, collectors, and amateurs of stone.

• Editor in Chief Victor K. Garanin, Doctor in Science, Professor
• Executive Editor Elena A. Borisova, Ph.D.
• Editorial Board Margarita I. Novgorodova, Doctor in Science, Professor,
• Eugeny I. Semenov, Doctor in Science,
• Svetlana N. Nenasheva, Ph.D.,
• Elena N. Matvienko, Ph.D.,
• Marianna B. Chistyakova, Ph.D.,
• Mikhail E. Generalov, Ph.D.

• Photo Michael B. Leybov
• Leader of Publishing group Michael B. Leybov
• Managing Editor Ludmila A. Cheshko
• Art Director Nikolay O. Parlashkevich
• Editor Andrey L. Cheshko
• Design and Layout Ivan A. Glazov
• Translators Maria S. Alferova, Il'ya A. Anisimov, Ivan A. Baksheev, Mark Fed’kun
• Valerii V. Gerasimovskii, Mikhail Povarennykh
• Editors (English Style) Patricia Gray, Frank C. Hawthorne, Peter Modreski

Authorized for printing by Institution of Russian Academy of Sciences, Fersman Mineralogical Museum RAS
Text,photo,drawings andschemes, InstitutionofRussianAcademyof Sciences, Fersman Mineralogical MuseumRAS,2013
Design BRITAN Ltd, 2011

Published by Fersman Mineralogical Museum, BRITAN Ltd Russian Academy of Sciences Box 71 Moscow 117556 Bld. 18/2 Leninsky ProspektMoscow 119071 Russia Phone/fax +7(495) 629G48G12 Phone: +7(495) 952-00-67; fax +7(495) 952-48-50 e-mail: minbooks@inbox.ru e-mail: mineral@fmm.ru www.minbook.com www.fmm.ru

A new silico-phosphate of Ba, Ca, REE, Ti, and Nb found in the Darai-Pioz alkaline massif, Tajikistan, has been named byzantievite because of its complex chemical composition and structure, reminiscent of the complex, but well-organized structure of the Byzantine Empire. The new mineral was discovered on a rock composed of microcline, quartz, aegirine and ferrileakeite; accessory minerals are: calcybeborosilite-(Y), pyrophanite, stillwellite(Ce), danburite, thorite and pyrochlore. The new mineral occurs as tabular grains up to 0.5 x 1.8 mm in size and aggregates of these grains up to 2.5 mm in size. Byzantievite is brown with a pale-yellow streak. Luster is vitreous, slightly greasy on fracture surfaces. Cleavage is not observable; fracture is conchoidal. The Mohs’ hardness is 4.5–5. The mean (10 measurements) microhardness VHN is 486 kg/mm². The measured density is 4.10(3) g/cm³, calculated density is 4.15 g/cm³. Byzantievite is optically negative, uniaxial, ω = 1.940, ε = 1.860 ± 0.005. The new mineral is pleochroic from light brown along ε to very pale brown along ω; absorption is ε >> ω. The symmetry is hexagonal, space group R3, a = 9.128(5); c = 102.1(1) Å; V = 7363 (15) Å3, Z = 3. The crystal structure was solved to R1 = 13.14%. The strong reflections in the X-ray powder – diffraction pattern are (d, Å; I; hkl): 4.02(2)(1 2 12); 3.95(2)(222); 3.112(10)(1 1 24; 1 2 24); 2.982(4)(321; 231); 2.908(2)(1 1 27; 138; 128); 2.885(2)(3 2 10; 2 3 10); 2.632(2)(030); 2.127(2)(0 0 48). The chemical composition is as follows (electron microprobe, average value and range of content of 60 point analyses; B₂O₃ was determined by SIMS; H₂O on the basis of structural data; wt.%): SiO₂ 4.73(3.15–5.84), Nb₂O₅ 10.97 (10.35–12.82), P₂O₅ 3.83(2.64–4.88), TiO₂ 15.21(13.84–16.56), ThO₂ 1.48(1.48–1.88), UO₂ 0.55(0.29–0.35), La₂O₃ 4.01(3.27–4.41), Ce₂O₃ 9.19(6.76–9.73), Nd₂O₃ 3.35(3.42–4.42), Pr₂O₃ 1.02(0.17–1.77), Sm₂O3 0.71 (0.58–1.23), Dy₂O₃ 1.25(1.05–1.30), Gd₂O₃ 0.95(0.68–1.49), Y₂O₃ 7.39(5.21–9.00), B₂O₃ 5.09(4.38–6.12), FeO 0.49(0.48–0.73), BaO 13.30(12.76–14.91), CaO 8.01(5.41–10.31), SrO 1.95(1.08–2.17), Na₂O 0.16 (0.00–0.22), H₂O 6.00, F 1.80(1.30–2.08), O=F (0.76), total is 100.68. The empirical formula, calculated on the basis of 124.5 anions for the grain used for the structure analysis is: Ba_5.05[(Ca_8.99Sr_0.96Fe²⁺_0.42Na_0.10)∑_10.47(Ce_3.46La_1.54Nd_1.20Pr_0.30Sm_0.26Dy_0.41Gd_0.32Th_0.39U⁴⁺_0.17)∑_8.03Y_3.53](Ti_12.31Nb_5.30)∑_17.61(SiO₄)_4.65(PO₄)_3.12 (BO₃)_8.89O_22.16(OH)_38.21F_4.89(H₂O)_1.5. The simplified formula is Ba₅(Ca,REE,Y)₂₂(Ti,Nb)₁₈ (SiO₄)₄[(PO₄),(SiO₄)]₄ (BO₃)₉O₂₁[(OH),F]₄₃(H₂O)_1.5. The compatibility index 0.003 (from calculated density) and -0.009 (from measured density). The type material was deposited in the Fersman Mineralogical Museum, Russian Academy of Sciences, Moscow, Russia. читать далее...

Orlovite is a new mineral of the mica group, the titanium analogue of polylithionite. It was discovered in highly quartz rocks in association with pectolite, baratovite, faizievite, aegirine, polylithionite, leucosphenite, fluorite and other minerals in a moraine of the Darai-Pioz glacier (Tajikistan). The mineral is colourless with a glassy to pearly luster. It occurs in flaky aggregates up to 2 cm in size. Cleavage is perfect along (001). Mohs hardness is 2–3. Density (measured) D_m = 2.91(2) g/cm³, density (calculated) D_c = 2.914 g/cm³. The mineral is optically negative, biaxial, n_p = 1.600, n_m = 1.620, n_g = 1.625, all ± 0.002, 2Vm = 52(2)°, 2Vc = 52.6°. Orlovite is monoclinic, С2, a = 5.199(3)Å; b = 9.068(7)Å; c = 10.070(4)Å; a = 90°, b = 99.35 (2)°, g = 90°, V = 468.4(4)Å3 , Z = 2. The strongest X-ray lines [(d, Å), (I, %), (hkl)]: 9.96 (40) (001), 4.48 (67) (002), 3.87 (40) (111), 3.33 (100) (121), 2.860 (35) (113), 2.600 (28) (130), 2.570 (30) (131), 2.400 (31) (014), 1.507 (20) (206). IR – spectra (the strongest absorption bands) are as follows: 3600, 1130, 1087, 985, 961, 878, 776, 721, 669, 613, 567, 530, 512, 458, 405 cm1. Chemical composition (microprobe, Li₂O, Rb₂O – ICP OES, H2O – SIMS, wt.%): SiO₂ – 58.31, TiO₂ – 18.05, Nb₂O₅ – 0.50, Al₂O₃ – 0.22, FeO – 0.40, MnO – 0.03, K₂O – 11.13, Cs₂O – 0.24, Li₂O – 7.25, Rb₂O – 0.69, H₂O – 0.21, F – 4.35, O=F₂ – 1.83, total – 99.55. The empirical formula of orlovite is (K_0.97Rb_0.03Cs_0.01)_1.01Li_2.00(Ti_0.93Nb_0.02Fe_0.02Al_0.02)_0.99Si₄O_11.04(F_0.94OH_0.10)_1.04. Simplified formula KLi2TiSi4O10(ОF). The mineral is named to honor the well-known Russian mineralogist, doctor of mineralogy Yury Leonidivich Orlov (1926–1980), Director (1976–1980) of the A.E. Fersman Mineralogical museum, RAS, specialist in the mineralogy of diamonds and gem stones, and author of more than 50 works including the classical monographs “Mineralogy of Diamond” and “Morphology of Diamond”. читать далее...

New data on bismuth, arsenic, uranium and copper minerals (rooseveltite, preisingerite, zeunerite, and tröegerite) obtained with the help of an optical microscope and scanning electron microscope equipped with a Link detector are represented in the article. The minerals were established within Bi-As-Cu-U-mineralization at the Oranzhevoye ore field of the Verkhne-Kalganinsky massif in sulfide-quartz, arsenopyrite-quartz and sulfide-quartz-chlorite veinlets that intersect andesites. The following secondary minerals: scorodite, rooseveltite and preisingerite replace arsenopyrite, bismuthinite, tetradymite, and native bismuth. Uranium minerals – zeunerite and tröegerite – also associate with these minerals. Rooseveltite and preisingerite are established in Russia for the first time. Character of occurrence of rooseveltite and preisingerite indicates that they formed during low-temperature metasomatic (hydrothermal) processes. The established association – arsenopyrite, pyrrhotite, chalkopyrite, and minerals of bismuth (bismuthinite and native bismuth, rooseveltite and preisingerite), tellurium (tetradymite), tin (stannite), gold and silver (tellurides, akanthite, native silver) – allowed to attribute this mineralization to the goldpolysulfide-quartz formation. читать далее...