Publication details

Bohuslavite, Fe-4(3+)(PO4)(3)(SO4)(OH)(H2O)(10)center dot nH(2)O, a new hydrated iron phosphate-sulfate

Authors

MAURO D. BIAGIONI C. BONACCORSI E. HALENIUS U. PASERO M. SKOGBY H. ZACCARINI F. SEJKORA Jiří PLÁŠIL Jakub KAMPF A.R. FILIP J. NOVOTNY P. ŠKODA Radek WITZKE T.

Year of publication 2019
Type Article in Periodical
Magazine / Source European Journal of Mineralogy
MU Faculty or unit

Faculty of Science

Citation
Web https://www.schweizerbart.de/papers/ejm/detail/31/92461/Bohuslavite_Fe_4_3__PO43SO4OHH2O10nH2O_a_new_hydrated_iron_phosphate_sulfate
Doi http://dx.doi.org/10.1127/ejm/2019/0031-2892
Keywords bohuslavite; sulfate; phosphate; iron; new mineral; crystal structure; Buca della Vena mine; Italy; Horni Mesto; Czech Republic
Description The new mineral species bohuslavite, Fe-4(3+)(PO4)(3)(SO4)(OH)(H2O)(10)center dot nH(2)O(5 <= n <= 14), has been discovered in the Buca della Vena baryte +/- iron oxides +/- pyrite ore deposit, Apuan Alps, Tuscany (Italy), and in the Horni Mesto deposit, northern Moravia (Czech Republic). It occurs as pinkish to lilac tabular 10011 crystals, with a pseudohexagonal outline, up to 0.25 mm in size, forming globular aggregates up to 1 mm across. At both localities, it is associated with gypsum. Optically, bohuslavite is biaxial negative. Indices of refraction and 2V angles, measured with white light, are alpha = 1.537(2), beta = 1.567(1), gamma = 1.568(1), 2V = 16(3)degrees and alpha = 1.550(2), beta = 1.579(2), gamma = 1.579(1), 2V = 5-10 degrees for the samples from Buca della Vena (BdV) and Horni Mesto (HM), respectively. Dispersion, with r > nu, is slight in BdV sample and it was not observed in HM. In both cases, X approximate to c. No pleochroism was observed. Electron microprobe analyses gave (in wt% - mean of 10 spot analyses on each sample): SO3 10.92, P2O5 25.34, Al2O3 0.26, Fe2O3 40.70, H2O 35.96, total 113.18 (BdV), and SO3 9.32, P2O5 24.84, Al2O3 0.30, Fe2O3 36.63, H2O 32.49, total 103.58 (HIM). The H2O contents were determined through thermo-gravimetric analyses. Mossbauer spectroscopy indicated that all iron occurs as Fe3+. Thus, the empirical formulae of bohuslavite, based on Sigma(Fe,Al) = 4 atoms per formula unit (apfu), are (Fe3.96Al0.04)(PO4)(2).(77)(SO4)(1.06)(OH)(1.56()H2O)(10)center dot 7.90H(2)O (BdV) and (Fe3.96Al0.05)(PO4)(3.02)(SO4)(1.00)(OH)(0.94)(H2O)(10)center dot 5.08H(2)O (HM), ideally Fe-4(3+) (PO4)(3)(SO4)(OH)(H2O)(10)center dot nH(2)O. Bohuslavite is triclinic, space group P (1) over bar, with a = 13.376(3), b = 13.338(3), c = 10.863(4) angstrom, alpha = 92.80(2), beta = 91.03(2), gamma = 119.92(2)degrees, V = 1675.7(9) angstrom(3) , Z = 2 (sample BdV). The crystal structure was solved and refined to R-1 = 0.232 on the basis of 2177 unique reflections with F-o > 4 sigma (F-o) and 208 refined parameters. Its crystal structure is based on {001} heteropolyhedral layers with composition [Fe-4(PO4)(3)O(OH)(H2O)(10)]. These layers are decorated, on both sides, by SO(4 )groups. Additional H2O groups are hosted in the interlayers and in the [001] channels. The name bohuslavite honours the Czech mineralogist and geologist Bohuslav Fojt for his contributions to mineralogy and economic geology. A third occurrence of bohuslavite from the Jeremias Gluck mine, Garnsdorf near Saalfeld, Thuringia (Germany), is briefly discussed.

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