Publication detail

Chemical composition of tourmalines from the Manjaka pegmatite and its exocontact, Sahatany Valley, Madagascar

Gada P., Novák M., Vašinová Galiová M., Pezzota F.

Original Title

Chemical composition of tourmalines from the Manjaka pegmatite and its exocontact, Sahatany Valley, Madagascar

Type

journal article in Web of Science

Language

English

Original Abstract

Chemical compositions and mineral assemblages of tourmalines from the elbaite-subtype Manjaka pegmatite in the Sahatany Valley, central Madagascar, and its exocontact were examined using EPMA and LA-ICP-MS. Several textural, compositional and paragenetic types of tourmalines were recognized in the individual pegmatite units and in the zones located towards the host rock in the order: wall pegmatite unit -> border pegmatite unit -> contact zone -> recrystallization zone; the latter zone evidently originated after the host Mg-rich calc-silicate rock (Di+Tr+Qz>Pl+Kfs>Phl+ Dol>Cal). Zoned prismatic crystals from the border unit evolved from the core Tur Ia (dravite < Fe-rich elbaite), Tur Ib (Mn,Fe-rich to Mn-rich fluor-elbaite > elbaite), to the crystal rims Tur II (elbaite > darrellhenryite) via the substitutions: (1) 2(Y)R(2+) = (LiAl)-Li-Y, (2) (MnF)-Mn-Y-F-W = (Fe2+WOH)-Fe-Y, (3) Li-Y(0.5) (OH)-O-W = Al-Y(0.5) O-W, and (4) (LiT)-Li-Y (AlOH3)-O-W = (AlT)-Al-Y (SiO3)-O-W . The contact zone, similar to 2 mm thick, contains abundant Tur IV (Li,Fe,Al-enriched dravite > oxy-dravite), and the recrystallization zone, similar to 1.5 cm thick, common Tur V (fluor-uvite > dravite > fluor-dravite, magnesio-lucchesiite, uvite) via the substitutions: (1) 2(Y)R(2+) = (LiAl)-Li-Y and (5) (R2+WOH)-R-Y = (AlO)-Al-Y-O-W,(6) (NaOH)-Na-X-O-W = (CaO)-Ca-X-O-W and (7) Na-X(Y) Al = (CaR2+)-Ca-X-R-Y. The chemical compositions of the individual types of tourmalines suggest that the mobility of elements between calc-silicate rock and pegmatite was low. Only weak influx of Mg, V and Cr into pegmatite and Li and Al from the pegmatite to the host rock - recrystallization zone, respectively, were observed. The existence of thin B-rich contact zone with dominant Tur IV suggests low influx of B into the host rock in early magmatic stage. High contents of F in Tur V from the recrystallization zone were very likely triggered by influx of B,F-enriched residual pegmatite fluids. Very high a(B2O3), but low a(H2O) and a(F) in the pegmatite melt constrained very low degree of external contamination of the pegmatite. Compositional evolution in tourmalines from Manjaka was compared with the pegmatites and their exocontact at Stoffhutte, Koralpe, Austria, and Blizna I, Moldanubian Zone, Czech Republic.

Keywords

Tourmaline;granitic pegmatite;exocontact;mobility of elements;Manjaka;Madagascar

Authors

Gada P., Novák M., Vašinová Galiová M., Pezzota F.

Released

17. 4. 2023

ISBN

1802-6222

Periodical

Journal of GEOsciences

Year of study

3

Number

68

State

Czech Republic

Pages from

185

Pages to

202

Pages count

18

URL

http://www.jgeosci.org/content/jgeosci.374_Gadas.pdf

BibTex

@article{BUT187444,
  author="Michaela {Vašinová Galiová}",
  title="Chemical composition of tourmalines from the Manjaka pegmatite and its exocontact, Sahatany Valley, Madagascar",
  journal="Journal of GEOsciences",
  year="2023",
  volume="3",
  number="68",
  pages="185--202",
  doi="10.3190/jgeosci.374",
  issn="1802-6222",
  url="http://www.jgeosci.org/content/jgeosci.374_Gadas.pdf"
}