Chlorine-bearing lizardite from metakimberlite of the Udachnaya-East pipe,northern Yakutia

Doklady Earth Sciences -     

Voloshinite,a new rubidium mica from granitic pegmatite of Voron’i Tundras,Kola Peninsula,Russia

Voloshinite, a new mineral of the mica group, a rubidium analogue of lepidolite, has been found from the rare-element granitic pegmatite at Mt. Vasin-Myl’k, Voron’i Tundras, Kola Peninsula, Russia. It is closely associated with pollucite and lepidolite and commonly with muscovite, albite, and quartz; K,Rb-feldspar, rubicline, spodumene, montebrasite, and elbaite are among associated minerals as well. Voloshinite, a late mineral that formed after pollucite, commonly fills polymineralic veinlets and pods within the pollucite aggregates. It occurs as rims up to 0.05 mm thick around lepidolite, as intergrowths of tabular crystals up to 0.25 mm in size, and occasionally replaces lepidolite. The new mineral is colorless, transparent, with vitreous luster. Cleavage is eminent parallel to {001}; flakes are flexible. The calculated density is 2.95 g/cm³. The new mineral is biaxial (?), with 2V = 25°, α calc = 1.511, β = 1.586, and γ = 1.590. The optical orientation is Y = b, Z = a. The chemical composition of the type material determined by electron microprobe (average of five point analyses; Li has been determined with ICP-OES) is as follows (wt %): 0.03 Na₂O, 3.70 K₂O, 12.18 Rb₂O, 2.02 Cs₂O, 4.0 Li₂O, 0.03 CaO, 0.02 MgO, 0.14 MnO, 21.33 Al₂O₃, 53.14 SiO₂, 6.41 F, -O = F₂ 2.70, total is 100.30. The empirical formula is: (Rb_0.54K_0.33Cs_0.06)_Σ0.93(Al_1.42Li_1.11Mn_0.01)_Σ2.54(Si_3.68Al_0.32)_Σ4O₁₀ (F_1.40(OH)_0.60)_Σ2. The idealized formula is as follows: Rb(LiAl_1.5□_0.5)[Al_0.5Si_3.5O₁₀]F₂. Voloshinite forms a continuous solid solution with lepidolite. According to X-ray single crystal study, voloshinite is monoclinic, space group C2/c. The unit-cell dimensions are: a = 5.191, b = 9.025, c = 20.40 Å, β = 95.37°, V= 951.5 ų, Z = 4. Polytype is 2M ₁. The strongest reflections in the X-ray powder diffraction pattern (d, Å-I[hkl]) are: 10.1-60[001]; 4.55-80[020, 110, 11\(\bar 1\)]; 3.49-50[11\(\bar 4\)]; 3.35-60[024, 006]; 3.02-45[025]; 2.575-100[11\(\bar 6\), 131, 20\(\bar 2\), 13\(\bar 4\)], 2.017-50[136, 0.0.10]. The mineral was named in honor of A.V. Voloshin (born in 1937), the famous Russian mineralogist. The type material is deposited at the Fersman Mineralogical Museum of the Russian Academy of Sciences, Moscow.     

Rutile Enriched in Chalcophile Elements (Sb,Sn, Te), and Ti-rich Varieties of Tripuhyute and Cassiterite from Sublimates of Active Fumaroles at the Tolbachik Volcano,Kamchatka, Russia

Geology of Ore Deposits - Abstract—The paper contains data on rutile, tripuhyite, and unusual Ti-rich cassiterite found in sublimates of active fumaroles at the Tolbachik volcano, Kamchatka,...     

Discovery of low aluminium nevadaite from the Kara-Chagyr Area,Kyrgyzstan

The rare phosphate—nevadaite has been found at Kara-Chagyr (Batken region, Kyrgyzstan) in a zone of alteration of vanadium bearing “black shales”. It occurs as blue crusts of spherulitic aggregates of tiny tabular crystals (0.1–10 μm). It is associated with metahewettite, hummerite, carnotite, minyulite, fluellite, crandallite, variscite, and woodhouseite. Optical properties: n = 1.542–1.555, D _meas (for aggregates) = 2.58(1) g/cm³, D _calc = 2.582 g/cm³. The most intense X-ray powder reflections are as follows: [d/n, Å, (I _meas), (hkl)]: 9.54 (80) (020), 6.03 (100) (200), 5.61 (100) (130), 3.91 (60) (310), 3.41 (80) (041), 2.982 (100) (241), 2.804 (60) (331), 2.672 (70) (061), 1.845 (60) (352) 1.507 (70) (243). Calculated cell dimensions are: a = 12.072(10) Å, b = 18.958(15) Å, c = 4.969(5) Å, α = β = γ = 90°, V = 1137.2 ų. Electron microprobe analyses gives (wt %): (observed (average of 8 analyses); (calculated for 22H₂O)): P₂O₅ 34.69 (31.85), SiO₂ 0.25 (0.24), Al₂O₃ 25.61 (23.50), V₂O 5.58 (5.13), Fe₂O₃ 0.48 (0.46), MnO 0.03 (0.03), CuO 10.79 (9.90), ZnO 0.69 (0.65), CaO 0.18 (0.15), MgO 0.17 (0.17), K₂O 0.08 (0.08), F 7.40 (6.79), H₂O 17.16 (by diff.) (23.90), ?F₂ =O \(\bar 3\).11 (\(\bar 2\).86), total 100.00 (100.00).The crystal-chemical formula of the mineral is (Cu _2.2 ⁺² □_2.03V _1.21 ⁺³ Al_0.15Zn_0.14Fe_0.10Mg_0.07Ca_0.05K_0.03Mn_0.01)_6.00(Al_8.00(P_7.93Si_0.07O₃₂)F_6.32(OH)_2.98 · 22(H₂O) for the ideal number of water molecules. Nevadaite from Kara-Chagyr differs from that from the type locality, Gold Quarry (Nev., USA), by its lower Al content. The IR-spectrum, and microphotographs of nevadaite and associated minerals are given.     

Avdeevite,a Na-Dominant Alkali Beryl: Determination as Valid Mineral Species and New Data

Geology of Ore Deposits - Abstract—This paper describes the first Na-dominant member of the beryl group, named avdeevite. The sample, which became its holotype, was found in a granitic...     

A Novel Solid Solution between Wagnerite and Arsenowagnerite

Doklady Earth Sciences - A novel solid solution between isostructural Mg arsenate and phosphate of the wagnerite group and a new As5+-rich variety of wagnerite were discovered in sublimates of the...     

Belogubite,a New Mineral of the Chalcanthite Group from the Gaiskoe Deposit,South Urals,Russia

Geology of Ore Deposits - Belogubite CuZn(SO4)2 ⋅ 10H2O, a new mineral of the chalcanthite group, is found in the Gai (Gaiskoe) massive sulfide deposit, South Urals, Russia. This mineral...     

A New Solid Solution with Garnet Structure: Berzeliite–Schäferite Isomorphic Series from the Fumarole Exhalation of the Tolbachik Volcano,Kamchatka

Geology of Ore Deposits - An extended isostructural solid solution (isomorphic series) between arsenate and vanadate of the garnet supergroup — berzeliite (NaCa2)Mg2(AsO4)3 and...     

Thallium-rich murunskite from the Lovozero pluton,Kola Peninsula,and partitioning of alkali metals and thallium between sulfide minerals

A new thallium-rich variety of murunskite has been found in the Palitra peralkaline pegmatite at Mount Kedykverpakhk, the Lovozero alkaline pluton, Kola Peninsula, Russia. This mineral occurs as a flattened dark bronze segregation (0.3 × 0.8 × 0.8 mm) overgrowing ussingite in a cavity. The chemical composition is as follows, wt %: 8.35 K, 24.31 Tl, 29.01 Cu, 14.58 Fe, 23.26 S, total is 99.51. The empirical formula is (K_1.18Tl_0.66)_1.84(Cu_2.53Fe_1.45)_3.98S_4.02. According to X-ray powder diffraction data, the dimensions of the tetragonal unit cell are: a = 3.869 (1), c = 13.206 (6) Å, V = 197.7 (2) ų. This variety is the closest to the intermediate member of the murunskite-thalcusite series. The youngest mineral complex of the Palitra Pegmatite includes four sulfides belonging to three different structure types. These sulfides also may be regarded as three topological types distinguished by the arrangement of alkali metal atoms in their structures: (1) bartonite and chlorbartonite belonging to the zero-dimensional topological type with K atoms in isolated cells, (2) pautovite pertaining to the one-dimensional type with Cs (+Rb, K, Tl) atoms making up chains in ample tunnels, and (3) murunskite belonging to the two-dimensional type with K (+Tl) atoms forming sheets. There is pronounced partitioning of K (Cs + Rb) and Tl between these sulfides: bartonite and chlorbartonite contain 9.5–9.7 wt % K and 0.2 wt % Tl; pautovite, 36.1 wt % Cs, 1.3 wt % Rb, 0.5 wt % Tl, and 0.2 wt % K; and murunskite, 8.35 wt % K and 24.31 wt % Tl.