Abstract
In this contribution, we report the metasomatic characteristics of a lamprophyre dyke–marble contact zone from the Hongseong–Imjingang belt along the western Gyeonggi Massif, South Korea. The lamprophyre dyke intruded into the dolomitic marble, forming a serpentinized contact zone. The zone consists of olivine, serpentine, calcite, dolomite, biotite, spinel, and hematite. Minor F and Cl contents in the serpentine and biotite indicate the composition of the infiltrating H2O-CO2 fluid. SiO2 (12.42 wt %), FeO (1.83 wt %), K2O (0.03 wt %), Sr (89 ppm), U (0.7 ppm), Th (1.44 ppm), and rare earth elements (REEs) are highly mobile, while Zr, Cr, and Ba are moderately mobile in the fluid. Phase equilibria modelling suggests that the olivine, spinel, biotite, and calcite assemblage might be formed by the dissolution of dolomite at ~700 °C, 130 MPa. Such modelling requires stable diopside in the observed conditions in the presence of silica-saturated fluid. The lack of diopside in the metasomatized region is due to the high K activity of the fluid. Our log activity K2O (aK2O)–temperature pseudosection shows that at aK2O~−40, the olivine, spinel, biotite, and calcite assemblage is stable without diopside. Subsequently, at ~450 °C, 130 MPa, serpentine is formed due to the infiltration of H2O during the cooling of the lamprophyre dyke. This suggests that hot H2O-CO2 fluids with dissolved major and trace elements infiltrated through fractures, grain boundaries, and micron-scale porosity, which dissolved dolomite in the marble and precipitated the observed olivine-bearing peak metasomatic assemblage. During cooling, exsolved CO2 could increase the water activity to stabilize the serpentine. Our example implies that dissolution-reprecipitation is an important process, locally and regionally, that could impart important textural and geochemical variations in metasomatized rocks.
Highlights
Metasomatism is the alteration of rocks by hot, chemically active fluids that infiltrate or diffuse through the rocks, causing recrystallization and compositional change [1]
Primary minerals analyzed in the lamprophyre dyke include biotite, amphibole, plagioclase, ilmenite, and apatite (Supplementary Materials Table S1)
We provide the characteristics of formation of such a metasomatized zone developed at the contact between the intruded lamprophyre dyke and the dolomitic marble
Summary
Metasomatism is the alteration of rocks by hot, chemically active fluids that infiltrate or diffuse through the rocks, causing recrystallization and compositional change [1]. The chemical potential of perfectly mobile components depends on their concentration and on the influence of inert (immobile) components in the system during the infiltration metasomatism, where the chemical potentials of perfectly mobile components differ from those in the external medium in contrast to diffusion processes [9]. Our understanding of such processes is limited because of the lack of fluid properties under high pressure (P) and temperature (T)
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