1. Vladykinite, Na3Sr4(Fe2+Fe3+)Si8O24: A new complex sheet silicate from peralkaline rocks of the Murun complex, eastern Siberia, Russia.
- Author
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CHAKHMOURADIAN, ANTON R., COOPER, MARK A., BALL, NEIL, REGUIR, EKATERINA P., MEDICI, LUCA, ABDU, YASSIR A., and ANTONOV, ANTON A.
- Subjects
SILICATES ,MINES & mineral resources ,MINERALS ,SCIENTIFIC discoveries ,ROCKS ,EUDIALYTE - Abstract
Vladykinite, ideally Na
3 Sr4 (Fe2+ Fe3+ )Si8 O24 , is a new complex sheet silicate occurring as abundant prismatic crystals in a dike of coarse-grained peralkaline feldspathoid syenite in the north-central part of the Murun complex in eastern Siberia, Russia (Lat. 58° 22' 48" N; Long. 119° 03' 44" E). The new mineral is an early magmatic phase associated with aegirine, potassium feldspar, eudialyte, lamprophyllite, and nepheline; strontianite (as pseudomorphs after vladykinite) and K-rich vishnevite are found in the same assemblage, but represent products of late hydrothermal reworking. Vladykinite is brittle, has a Mohs hardness of 5, and distinct cleavage on {100}. In thin section, it is colorless, biaxial negative [α = 1.624(2), β = 1.652(2), γ = 1.657(2), 2Vmeas = 44(1)°, 2Vcalc = 45(1)°] and shows an optic orientation consistent with its structural characteristics (X^a = 5.1° in β obtuse, Z^c = 4.7° in β acute, Y = b). The Raman spectrum of vladykinite consists of the following vibration modes (listed in order of decreasing intensity): 401, 203, 465, 991, 968, 915, 348, 167, 129, 264, 1039, and 681 cm-1 ; O-H signals were not detected. The Mössbauer spectrum indicates that both Fe2+ and Fe3+ are present in the mineral (Fe3+ /Fe∑ = 0.47), and that both cations occur in a tetrahedral coordination. The mean chemical composition of vladykinite (acquired by wavelength-dispersive X-ray spectrometry and laser-ablation inductively-coupled-plasma mass-spectrometry), with FeΣ recast into Fe2+ and Fe3+ in accord with the Mössbauer data, gives the following empirical formula calculated to 24 O atoms: (Na2.45 Ca0.56 )Σ3.01 (Sr3.81 K0.04 Ba0.02 La0.02 Ce0.01 )Σ3.90 (Fe0.75 2+ Fe0.66 3+ Mn0.26 Zn0.16 Al0.12 Mg0.05 Ti0.01 )γ2.01 (Si7.81 Al0.19 )Σ8.00 O24 . The mineral is monoclinic, space group P21 /c, a = 5.21381(13), b = 7.9143(2), c = 26.0888(7) Å, β = 90.3556(7)°, V = 1076.50(5) ų, Z = 2. The ten strongest lines in the powder X-ray diffraction pattern are [dobs in Å (I) (hkl)]: 2.957 (100) (123, 123); 2.826 (100) (117, 117); 3.612 (58) (114, 114); 3.146 (37) (120); 2.470 (32) (210, 01.10); 4.290 (30) (111, 111); 3.339 (30) (106, 115, 106); 2.604 (28) (200); 2.437 (25) (034); 1.785 (25) (21.10, 234). The structure of vladykinite, refined by single-crystal techniques on the basis of 3032 reflections with F0 > 4σF0 to R1 = 1.6%, consists of tetrahedral sheets parallel to (100) and consisting of (Si8 O24 )16- units incorporating four-membered silicate rings and joined into five- and eight-membered rings by sharing vertices with larger tetrahedra hosting Fe2+ , Fe3+ , Mn, Zn, Al, Mg, and Ti. Larger cations (predominantly Na, Sr, and Ca) are accommodated in octahedral and square-antiprismatic interlayer sites sandwiched between the tetrahedral sheets. Structural relations between vladykinite and other sheet silicates incorporating four-, five-, and eight-membered rings are discussed. The name vladykinite is in honor of Nikolay V. Vladykin (Vinogradov Institute of Geochemistry, Russia), in recognition of his contribution to the study of alkaline rocks. Holotype and co-type specimens of the mineral were deposited in the Robert B. Ferguson Museum of Mineralogy in Winnipeg, Canada. [ABSTRACT FROM AUTHOR]- Published
- 2014
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