Original paper
Li-bearing tourmalines in Variscan granitic pegmatites from the Moldanubian nappes, Lower Austria
Ertl, Andreas; Schuster, Ralf; Hughes, John M.; Ludwig, Thomas; Meyer, Hans-Peter; Finger, Friedrich; Dyar, M. Darby; Ruschel, Katja; Rossman, George R.; Klötzli, Urs; Brandstätter, Franz; Lengauer, Christian L.; Tillmanns, Ekkehart
European Journal of Mineralogy Volume 24 Number 4 (2012), p. 695 - 715
published: Jul 30, 2012
DOI: 10.1127/0935-1221/2012/0024-2203
Open Access (paper may be downloaded free of charge)
Abstract
Crystal structures, chemical (including light elements) and spectral data (optical and Mössbauer spectroscopies) were used to characterize coloured (brown, pink, green) tourmalines from three granitic pegmatites from the Moldanubian nappes (Königsalm, Maigen and Blocherleitengraben; Lower Austria). The tourmalines can be classified as fluor-schorl, schorl, foitite, magnesiofoitite, olenite and “fluor-elbaite with varying Li contents, up to 1.2 wt% Li2O. Coexisting minerals are quartz, plagioclase (up to An7), microcline, garnet (spessartine-almandine), muscovite, biotite (annite), very rare lepidolite, apatite, monazite-(Ce), xenotime-(Y), allanite-(Ce) and zircon. The chemical composition of the Fe2+-rich tourmaline samples (up to ∼1.0 wt% TiO2) varies from fluorschorl, with a = 15.987(2), c = 7.163(2) Å to X(〈0.63Na0.37) Y(Fe2+1.12Al1.09Mg0.56Mn2+0.08Fe3+0.07Li0.02Ti4+0.01Zn0.01〈0.04) Z(Al5.74Mg0.26)(BO3)3 [Si5.96Al0.04O18] V(OH)3 W[(OH)0.95F0.05], strongly dichroic (pink and blue) foitite, with a = 15.9537(2), c = 7.1448(4) Å, to X (〈0.51Na0.49) Y(Fe2+0.97Al0.93Mg0.75Fe3+0.23Mn2+0.04Li0.01Ti4+0.01〈0.06) Z(Al5.72Mg0.28)(BO3)3 [Si5.95Al0.05O18] V(OH)3 W[(OH)0.91O0.06F0.03], magnesiofoitite, with a = 15.9476(4), c = 7.1578(4) Å. The chemical composition of the Al- and Lirich and Mn2+-bearing (up to ∼5.7 wt% MnO) samples varies from X(Na0.84Ca0.02〈0.14) Y(Al1.35Li0.78Mn2+0.65Ti4+0.01〈0.21) ZAl6 (BO3)3 [Si5.92Al0.04B0.04O18] V(OH)3 W[F0.81(OH)0.19], “fluor-elbaite with a = 15.8887(3), c = 7.1202(3) Å, to X(Na0.76Ca0.12〈0.12) Y(Al1.52Li0.69Mn2+0.43Fe2+0.09〈0.27) ZAl6(BO3)3 [Si5.71B0.29O18] V(OH)3 W[F0.69(OH)0.31], B-rich “fluorelbaite, with a = 15.8430(3), c = 7.1051(3) Å. A positive correlation between the ≪i>T-O> and ≪i>Z-O> bond lengths in tourmalines where the Z site is only occupied by Al (R2 = 0.617) is useful to correct the ≪i>Z-O> bond length for the inductive effect of the varying ≪i>T-O> bond length. This is important for producing accurate assignments for the different 6-coordinated sites in tourmaline. On the basis of Sm-Nd (garnet, monazite), U-Th-Pb, and U-Pb ages (monazite), the pegmatites crystallised during the Variscan tectonometamorphic event in the Visean (339±4 Ma Maigen, 332±3 Ma Königsalm). These ages are in the range of the earliest intrusions of the South Bohemian pluton (Rastenberg type durbachites). However, on the basis of the spatial relationship of the pegmatites and the Rastenberg type intrusions, a linkage of the intrusive body and the pegmatites is unlikely. Alternatively, the pegmatites may have evolved as granitic pegmatitic melts during decompression from the surrounding country rocks in the frame of exhumation of the Moldanubian nappes after the peak of the Variscan metamorphism.
Keywords
li-bearing tourmaline • granitic pegmatite • moldanubian nappes • chemical analyses • crystal structure • geochronology