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Stavelotite-(La), a new lanthanum-manganese-sorosilicate mineral from the Stavelot Massif, Belgium

¹ Institut für Geologie, Mineralogie und Geophysik, Ruhr-Universität, D-44780 Bochum, Germany
² Laboratorium für chemische und mineralogische Kristallographie, University of Bern, Freiestr. 3, CH-3012 Bern, Switzerland
³ Laboratoire de Minéralogie, Université de Liège, Bâtiment B 18, Sart Tilman, B-40000 Liège, Belgium

^* E-mail: werner.schreyer{at}ruhr-uni-bochum.de

Stavelotite-(La), simplified formula La₃Mn²⁺₃Cu(Mn³⁺,Fe³⁺,Mn⁴⁺)₂₆[SiO₂O₇]₆O₃₀, occurs as an accessory opaque mineral in a late quartz vein cross-cutting the deep-purple, highly oxidised manganiferous phyllites of Ordovician age at Le Coreux near Salmchâteau, Belgium. Accompanying minerals are hematite, braunite, hollandite-strontiomelane, kanonaite, Mn-oxides, albite and muscovite. Stavelotite-(La) is trigonal, space group P3₁, with a = 11.525(2), c = 33.347(9) Å, V= 3836(1) ų and Z = 3. Its very complex, densely packed crystal structure consists of four different polyhedral layers stacked parallel to the c-axis: Layer 1 consists of eight-coordinated distorted cube sites for Mn²⁺ sharing edges with strongly distorted Mn³⁺ polyhedra (tetragonal bipyramids), and also contains one planar square site for Cu²⁺. Layer 2 has more regular octahedra for Mn³⁺ as well as for the Mn⁴⁺ required for charge balance, and it contains SiO₄ tetrahedra oriented in one direction. Layer 3 contains additional SiO₄ tetrahedra oriented in two different opposing directions in order to make connection with those of layers 2 and 4, thus forming the [Si₂O₇] groups, and it carries La in eightfold coordination. Layer 4 is of similar architecture as layer 2, but in an inverted position. Layers 1, 2 and 4 are geometrically similar to respective layers in the structure of the mineral långbanite. 65 electron microprobe analyses yielded the following mean composition (Mn valences calculated on the basis of structural data): SiO₂ 20.17; TiO₂ 0.44; MnO₂ 4.83; Mn₂O₃ 31.67; MnO 5.99; Al₂O₃ 3.30; Fe₂O₃ 13.08; Sc₂O₃ 1.47; La₂O₃ 8.39; Nd₂O₃ 3.39; Ce₂O₃ 0.44; CaO 0.33; MgO 1.06; CuO 2.11; CoO 0.18; total 96.86 wt.% giving the empirical formula (45 cations, 72 oxygens) (La_1.828Nd_0.715Ce_0.095Ca_0.209Sc_0.153)_3.000 Mn²⁺_2.998 (Cu_0.941Mn³⁺_0.058)_0.999 (Mn³⁺_14.183Fe³⁺_5.814Al_2.298 Ti_0.195Sc_0.604Mg_0.933Co_0.085Mn⁴⁺_1.973)_26.085 Si_11.915 O₇₂. Thus, the structural and chemical data are mutually consistent showing all crystallographic positions fully occupied. There are no indications for the presence of hydrogen or other light elements, which were not analysed. Stavelotite-(La) is the first REE silicate mineral containing only large amounts of Mn (with some Fe) as additional cations.

Key-words: new mineral: stavelotite-(La), sorosilicate, new crystal structure, chemical analysis (mineral), Belgian Ardennes.

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