1. Partitioning of Sr between coexisting minerals of the hollandite- and piemontite-groups in a quartz-rich schist from the Sanbagawa metamorphic belt, Japan
- Author
-
ENAMI, MASAKI and BANNO, YASUYUKI
- Subjects
Aluminum silicates -- Distribution ,Mineralogical research -- Analysis ,Strontium -- Distribution ,Earth sciences - Abstract
Coexisting minerals of the hollandite-cryptomelane series, piemontite-group, and abswurmbachite-braunite series occur as a small nodule in a quartzose schist (metachert) from the epidote-amphibolite facies area of the Sanbagawa metamorphic belt, central Shikoku, Japan. Strontium, Ba, K, and Pb contents of the hollandite-cryptomelane minerals are 0.00-0.42, 0.07-0.99, 0.00-0.75 and 0.00-0.05 apfu (atoms per formula unit: O = 16), respectively. The piemontite-group minerals can be divided into common piemontite (Ca [is greater than] Sr in the ten-coordinated A2-site) and strontiopiemontite (Sr [is greater than] Ca). Strontium, Ba and Pb contents of the strontiopiemontite reach 0.71, 0.26 and 0.20 apfu (O = 12.5), respectively, suggesting the existence of two possible new end-members for epidote-group minerals: 'Ba-piemontite [BaCa[([Mn.sup.3+], [Fe.sup.3+], Al).sub.3][Si.sub.3][O.sub.12](OH)]' and 'Pb-piemontite [PbCa[([Mn.sup.3+], [Fe.sup.3+], Al).sub.3][Si.sub.3][O.sub.12](OH)].' The abswurmbachite-braunite series minerals (Cu = 0.30-0.53 apfu: O = 12) contain up to 0.34 apfu Mg, indicating the exchange Mg[([Mn.sup.2+], Cu).sub.-1]. Distribution coefficients for Sr between the hollandite-cryptomelane series and the piemontite-group minerals are up to 20, implying that the hollandite-type structure with its large open tunnel is more suitable for incorporation of Sr than the A2-site of the piemontite-group minerals. A synthetic aluminosilicate analogue of the hollandite-cryptomelane compound is stable under P [is greater than] 8-10 GPa, and suggests the hollandite-type aluminosilicate may be a reservoir of Sr and other large-ion-lithophile elements in the upper mantle.
- Published
- 2001