Local CO.sub.2 variation and evolution of metamorphic fluid at the lithologic boundary recorded in Sanbagawa metamorphic rocks, Central Shikoku, Japan

Alternating layers of pelitic and basic bands with occasional semi-pelitic band, millimeter to centimeter in width, occur between the epidote-amphibolite (metagabbro) and the pelitic schist in the epidote-amphibolite facies region of the Sanbagawa metamorphic belt, central Shikoku. The whole-rock major, trace, and rare earth element compositions of the semi-pelitic band are intermediate between those of the basic and pelitic bands. The peak metamorphic conditions were estimated at 1.0-1.2 GPa/600-630 °C for the mineral assemblage of the pelitic and semi-pelitic bands. The evolution of the CO.sub.2-rich fluid [X(CO.sub.2) = CO.sub.2/(CO.sub.2 + H.sub.2O)] at the lithologic boundary between the epidote-amphibolite and the pelitic schist, during the Sanbagawa prograde metamorphism, is discussed in the context of a titanite, rutile, calcite, dolomite, and quartz assemblage. The X(CO.sub.2) of the semi-pelitic band and basic and the pelitic bands increased during prograde metamorphism from the stability field of titanite to those of rutile + dolomite + amphibole + quartz and rutile + calcite + amphibole + quartz, respectively. The X(CO.sub.2) values of the metamorphic fluid at the peak metamorphic stage estimated by the matrix assemblages were higher in the order of the pelitic schist and epidote-amphibolite (less than 0.12-0.23), basic and pelitic bands (0.23-0.38), and semi-pelitic band (0.38-0.57), suggesting variations in the fluid compositions on a millimeter to centimeter scale. The CO.sub.2-rich fluid in the alternating layers, especially in the semi-pelitic band, was probably generated by a redox reaction between Fe.sup.3+-bearing silicate phases, such as amphibole and epidote in the basic band and carbonaceous material in the pelitic band. This reaction is thought to have been triggered by the chemical and/or mechanical mixing of these two bands during prograde metamorphism, resulting in the formation of the semi-pelitic band.
Author(s): Masaki Enami [sup.1], Yuki Wakasugi [sup.1], Motohiro Tsuboi [sup.2] Author Affiliations: (1) grid.27476.30, 0000 0001 0943 978X, Institute for Space-Earth Environmental Research, Nagoya University, , Chikusa-ku, 464-8601, Nagoya, Japan [...]