Piemontites occur in manganiferous hematite ore deposits and radiolarian chest in the Nikoro Group, Tokoro Belt, eastern Hokkaido, Japan. The piemontite-bearing chest and ore bodies have suffered low-grade metamorphism of high pressure intermediate type. In ore bodies, piemontite forms veinlets with quartz and/or pumpellyite-(Mn²⁺) containing Mn³⁺ in Y site. In chest, piemontite occurs not only in veinlets but also in radiolarian tests with pumpellyite-(Mn²⁺). The mineral assemblages characterized by piemontite, pumpellyite-(Mn²⁺), okhotskite, hematite and bixbyite indicate that chest and ore deposits were metamorphosed under extremely highfO₂ condition. Some piemontites in ores contain as much as 1.12 Mn³⁺, and the sum of Mn³⁺ and Fe³⁺ attains 1.46 per formula unit, whereas piemontites in chest contain less (Mn³⁺ + Fe³⁺). This difference in compositions may essentially be ascribed to the difference in the host rock compositions. On the other hand, Mn³⁺ and Fe³⁺ contents of piemontites in ores vary considerably by Al (Mn³⁺, Fe³⁺) and Mn³⁺ Fe³⁺ substitutions. This phenomenon may be interpreted in terms of the local availability of Mn³⁺ and Fe³⁺ in the host rocks.

Piemontite treten in manganführenden Hämatitlagerstätten und Radiolariten in der Nikoro-Gruppe des Tokoro-Gürtels, Ost-Hokkaido, Japan; auf. Die Piemontit-füh-renden Radiolarite und Erzkörper zeigen eine niedrig temperierte (Low-grade Bereich), Hochdruck (intermediate-type)-Metamorphose. In den Erzkörpern bildet Piemontit Gänge zusammen mit Quarz und/oder Mn³⁺ (in der Y-Position)-führendem Pumpellyit-(Mn²⁺). In den Radiolariten tritt Piemontit nicht nur in Gängen, sondern auch zusammen mit Pumpellyit-(Mn²⁺) in Radiolarien auf. Die Mineralparagenese Piemontit, Pumpellyit-(Mn²⁺), Okhotskit, Hämatit und Bixbyit deutet darauf hin, daß die Radiolarite und Erzlagerstätten unter hohenfO₂-Bedingungen metamorphisiert worden sind.