Redefinition of beraunite, Fe3+6(PO4)4O(OH)4 ⋅ 6H2O, and discreditation of the name eleonorite: a re-investigation of type material from the Hrbek Mine (Czech Republic)

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Title in English Redefinition of beraunite, Fe3+6(PO4)4O(OH)4 · 6H2O, and discreditation of the name eleonorite: a re-investigation of type material from the Hrbek Mine (Czech Republic)
Authors

VRTIŠKA Luboš TVRDÝ Jaromír PLÁŠIL Jakub SEJKORA Jiří ŠKODA Radek CHUKANOV Nikita V. MASSANEK Andreas FILIP Jan DOLNÍČEK Zdeněk VESELOVSKÝ František

Year of publication 2022
Type Article in Periodical
Magazine / Source European Journal of Mineralogy
MU Faculty or unit

Faculty of Science

Citation
Web http://ejm.copernicus.org/articles/34/223/2022/
Doi http://dx.doi.org/10.5194/ejm-34-223-2022
Keywords beraunite; eleonorite; discreditation; electron microprobe analysis; single-crystal X-ray diffraction; Raman spectroscopy; Mössbauer spectroscopy; Hrbek mine; Svatá Dobrotivá; Czech Republic
Description Re-investigation of the type material of beraunite from the Hrbek Mine, Svata Dobrotiva, Czech Republic, proved the identity of beraunite and eleonorite. Based on this study, the mineral eleonorite was discredited, and the ideal formula of beraunite was redefined from Fe2+Fe53+(PO4)(4)O(OH)(5)center dot 6H(2)O to Fe-6(3+)(PO4)(4)O(OH)(4)center dot 6H(2)O. Beraunite from Hrbek Mine usually forms prismatic crystals flattened on {100}; elongated along b axis, striated on {100} parallel to b, up to 0.2 x 0.5 x 3 mm, often in radial clusters up to 6 mm in size in association with black goethite, olive-green to dark green dufrenite and yellow to orange cacoxenite. Beraunite is hyacinth red, dark red, or red-brown and has a light orange-red streak; crystals are translucent, with a vitreous luster. The symmetry of the structure was found to be lower (Cc) than reported in the past (C2/c); this has been proven by the crystal structure refinement, R-obs = 2.7 % for Cc and similar to 8 % for C2/m. Refined unit-cell parameters obtained from powder X-ray diffraction data of the original material of Friedrich August Breithaupt are a = 20.653(2), b = 5.1433(6), c = 19.241(2) angstrom, beta =93.560(9)degrees, and V = 2039.9(2) angstrom(3). Calculated density is 2.961 g cm(-3). Beraunite is optically biaxial (+), alpha = 1.768(2), beta = 1.781(3), gamma >1.805, 2V(meas) = 69(4)degrees, and 2V(calc) is not possible to calculate. Dispersion of optical axes is strong, r >v. The orientation is Y = b, X approximate to a, and Z approximate to c. Pleochroism is strong; Z (brown-red) >> Y >X (both brownish yellow). The empirical formula of the original beraunite sample calculated on the basis of P = 4 apfu is (Fe5.763+Al0.15Zn0.01)(5)(.92)(PO4)(4.00)O-0.99(OH)(3.77) center dot 6H(2)O. The Fe-57 Mossbauer spectrum of beraunite neotype (National Museum, Prague) from type locality implies that all iron atoms in beraunite structure are exclusively trivalent, located at the M site with different next-nearest-neighbor configurations. There is no spectral evidence for Fe2+ or iron in some impurities (e.g., limonite).
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