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Linkage of Mineral Inclusions and Zoning of Magnetite with Fluid Evolution of Hydrothermal Systems:A Case Study of the Fenghuangshan Cu-Fe-Au Skarn Deposit,Eastern China

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摘要 Magnetite from hydrothermal deposits may show compositional zoning with various mineral inclusions in response to the evolution of hydrothermal fluids.Magnetite from the Fenghuangshan Cu-Fe-Au skarn deposit(eastern China)is a common mineral formed in the earlier stage of skarnization.Magnetite grains have dark gray and light gray zones and contain diverse mineral inclusions.Dark gray zones have higher Si,Ca,Al,and Mg contents than light gray zones.The magnetite matrix from dark gray zones shows superstructure along the[0-11]zone axis in fast Fourier transform patterns,different from magnetite in light gray zones with normal structure.Three types of mineral inclusions are identified within magnetite:nano-,micron-and submicron-nanometer inclusions.Nanoinclusions hosted in dark gray zones are actinolite,diopside,and trace element-rich magnetite,and these are likely formed by growth entrapment during magnetite crystallization at the skarn stage.The chainwidth order-disorder intergrowths of diopside nanoinclusion likely indicate fluctuating fluid compositions in a lattice scale.Submicron to nanometer inclusions at the boundary between dark gray and light gray zones are quartz,titanite,and Ti-rich magnetite,which were formed via a dissolution and reprecipitation process at the quartz-sulfide stage.Micron-inclusions randomly distributed in both dark and light gray zones include calcite,ankerite,quartz,and chlorite,and these were formed via penetration of fluids at the carbonate stage.Zoned magnetite was formed by fluid replacement,overgrowth,and fluid infilling.Our study highlights the importance of mineral inclusion assemblages,and textural and chemical zonation of magnetite in constraining fluid evolution.
出处 《Journal of Earth Science》 SCIE CAS CSCD 2024年第6期1902-1917,共16页 地球科学学刊(英文版)
基金 financially supported by the CAS Hundred Talents Program to Xiao-Wen Huang the National Natural Science Foundation of China(No.42173070) the Special Fund of the State Key Laboratory of Ore Deposit Geochemistry(No.202101)。
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