Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean Peninsula

Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean Peninsula

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...

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Main Authors: Jungrae Noh, Changyeob Kim, Vinod O. Samuel, Yirang Jang, Seung-Ik Park, Sanghoon Kwon
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Minerals
Subjects:
dyke–marble contact
metasomatism
dissolution-precipitation
phase equilibria
H<sub>2</sub>O-CO<sub>2</sub> fluid
K activity
Online Access:https://www.mdpi.com/2075-163X/10/9/828
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spelling doaj-73b92866df66437f80bf0a01b567f43b2020-11-25T01:29:01ZengMDPI AGMinerals2075-163X2020-09-011082882810.3390/min10090828Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean PeninsulaJungrae Noh0Changyeob Kim1Vinod O. Samuel2Yirang Jang3Seung-Ik Park4Sanghoon Kwon5Department of Earth System Sciences, Yonsei University, Seoul 03722, KoreaDepartment of Earth System Sciences, Yonsei University, Seoul 03722, KoreaDepartment of Earth System Sciences, Yonsei University, Seoul 03722, KoreaDepartment of Earth and Environmental Sciences, Chonnam National University, Gwangju 61186, KoreaDepartment of Geology, Kyungpook National University, Daegu 41566, KoreaDepartment of Earth System Sciences, Yonsei University, Seoul 03722, KoreaIn 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 H<sub>2</sub>O-CO<sub>2</sub> fluid. SiO<sub>2</sub> (12.42 wt %), FeO (1.83 wt %), K<sub>2</sub>O (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 K<sub>2</sub>O (a<sub>K2O</sub>)–temperature pseudosection shows that at a<sub>K2O</sub>~−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 H<sub>2</sub>O during the cooling of the lamprophyre dyke. This suggests that hot H<sub>2</sub>O-CO<sub>2</sub> 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 CO<sub>2</sub> 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.https://www.mdpi.com/2075-163X/10/9/828dyke–marble contactmetasomatismdissolution-precipitationphase equilibriaH<sub>2</sub>O-CO<sub>2</sub> fluidK activity
collection DOAJ
language English
format Article
sources DOAJ
author Jungrae Noh
Changyeob Kim
Vinod O. Samuel
Yirang Jang
Seung-Ik Park
Sanghoon Kwon
spellingShingle Jungrae Noh
Changyeob Kim
Vinod O. Samuel
Yirang Jang
Seung-Ik Park
Sanghoon Kwon
Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean Peninsula
Minerals
dyke–marble contact
metasomatism
dissolution-precipitation
phase equilibria
H<sub>2</sub>O-CO<sub>2</sub> fluid
K activity
author_facet Jungrae Noh
Changyeob Kim
Vinod O. Samuel
Yirang Jang
Seung-Ik Park
Sanghoon Kwon
author_sort Jungrae Noh
title Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean Peninsula
title_short Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean Peninsula
title_full Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean Peninsula
title_fullStr Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean Peninsula
title_full_unstemmed Fluid Infiltration and Mass Transfer along a Lamprophyre Dyke–Marble Contact: An Example from the South-Western Korean Peninsula
title_sort fluid infiltration and mass transfer along a lamprophyre dyke–marble contact: an example from the south-western korean peninsula
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2020-09-01
description 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 H<sub>2</sub>O-CO<sub>2</sub> fluid. SiO<sub>2</sub> (12.42 wt %), FeO (1.83 wt %), K<sub>2</sub>O (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 K<sub>2</sub>O (a<sub>K2O</sub>)–temperature pseudosection shows that at a<sub>K2O</sub>~−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 H<sub>2</sub>O during the cooling of the lamprophyre dyke. This suggests that hot H<sub>2</sub>O-CO<sub>2</sub> 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 CO<sub>2</sub> 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.
topic dyke–marble contact
metasomatism
dissolution-precipitation
phase equilibria
H<sub>2</sub>O-CO<sub>2</sub> fluid
K activity
url https://www.mdpi.com/2075-163X/10/9/828
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