Yanshanian thermo-upwelling extension and palaeo-hydrothermal system in southeast Guangdong: A case study of Enping-Xinfeng detachment fault

QIN Xuping; LI Dewei; LIU Jianxiong; MAO Chen

doi:10.12029/gc20180609

GEOLOGY IN CHINA > 2018 > 45(6): 1188-1204. > DOI: 10.12029/gc20180609

QIN Xuping, LI Dewei, LIU Jianxiong, MAO Chen. Yanshanian thermo-upwelling extension and palaeo-hydrothermal system in southeast Guangdong: A case study of Enping-Xinfeng detachment fault[J]. GEOLOGY IN CHINA, 2018, 45(6): 1188-1204. DOI: 10.12029/gc20180609

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Yanshanian thermo-upwelling extension and palaeo-hydrothermal system in southeast Guangdong: A case study of Enping-Xinfeng detachment fault

QIN Xuping^{1, 2,},
LI Dewei^1, ,,
LIU Jianxiong³,
MAO Chen⁴

1.
Faculty of Earth Sciences, China University of Geosciences, Wuhan 430074, Hubei, China
2.
China Nonferrous Metals(Guilin) Geology and Mining Co, . Ltd, Guilin 541000, Guangxi, China
3.
Foshan Geological Bureau of Guangdong Province, Foshan 528000, Guangdong, China
4.
Faculty of Earth Resources, China University of Geosciences, Wuhan 430074, Hubei, China

Funds:

China Geological Survey Program 1212011121246

China Geological Survey Program 1212011220400

National Natural Science Foundation of China 41172188

More Information

Author Bio:
QIN Xuping, male, born in 1991, master candidate, engages in the study of regional thermal controlling structures and geothermal systems; E−mail: 1459315842@qq.com
Corresponding author:
LI Dewei, male, born in 1962, supervisor of doctor candidates, engages in the study of structure geology, tectonics and their applications in energy and disasters; E−mail: dewei89@sina.com
Received Date: April 15, 2016
Revised Date: August 05, 2017
Available Online: September 25, 2023

Graphical Abstract

Abstract

Abstract

NE-SW trending Yanshanian detachment faults are widely spread in southeast Guangdong. The authors carried out geological survey and physical and chemical test of Enping-Xinfeng detachment fault, with emphasis placed on the mylonite in the ductile shear zone below this detachment fault and the silicified rocks related to the high angle normal fault on the hanging wall of the detachment fault. The authors believe that the initiation age of the upwelling-extension structure was in early Yanshanian, the deformation temperatures of the mylonite which had the kinematic property of ductile rheology in the ductile shear zone were about 350℃, and the mylonite was brought onto the surface during later tectonic uplift. The microthermometric study of the fluid inclusions in the silicified rocks indicates that the homogeneous temperatures of the fluid inclusions are between 155℃ and 326℃. The salinities are between 2.74% and 21.61% NaCleqv, with an average of 11.17% NaCleqv, the temperatures of the silicon-contained hot liquid are about 241℃, and the silicon-contained hot liquid is believed to be NaCl-H₂O solution with rich silicon and carbon dioxide according to Laser-Raman microspectroscopy. Compositions of H-O stable isotope imply that the paleo-hydrothermal fluids were derived from the mixing of magmatic water and rain water in the study area. The silicified rocks distributed along the strike of the normal fault possibly are the significant indications of the paleo-hydrothermal system in Yanshanian. The thermo-upwelling extension system and the deep and shallow integrated palaeo-hydrothermal system in the late Yanshanian are significant for the understanding of the type, the mechanism and the distribution regularities of the modern geothermal system in southeast Guangdong.
- thermo-upwelling extension,
- detachment fault,
- ductile shear zone,
- fluid inclusions,
- silicified rock,
- paleo-hydrothermal system

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References (90)

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Yanshanian thermo-upwelling extension and palaeo-hydrothermal system in southeast Guangdong: A case study of Enping-Xinfeng detachment fault