Fluid inclusions in hydrothermal quartz in the 2.4 Ga Ongeluk Formation, South Africa, arc expected to partially retain a component of the ancient seawater. To constrain the origin of the fluid and the quartz precipitation age, we conducted Ar -Ar dating for the quartz via a stepwise crushing method. The obtained argon isotopes slum two or three endmembers with one or two binary mixing lines as the crushing proceeds, suggesting that the isotopic compositions of these endmembers correspond to fluid inclusions of each generation, earlier generated smaller Ar-40- and K-rich inclusions, moderate Ar-40- and Ar-38(Cl) (neutron-induced Ar-38 from Cl)-rich inclusions and later generated larger atmospheric-rich inclusions. The K-rich inclusions show significantly different Ar-40/Ar-38(Cl) values compared to the Ar-38(Cl)-rich inclusions, indicating that it is difficult to constrain the quartz formation age using only fluid inclusions containing excess Ar-40. The highest obtained Ar-40/Ar-36 value from the fluid inclusions is consistent with an expected value of the Ongeluk plume source, suggesting that the quartz precipitation was driven by Ongeluk volcanism. Considering the fluid inclusion generations and their compositions, the hydrothermal system was composed of crustal fluid and magmatic fluid without seawater before the beginning of a small amount of seawater input to the hydrothermal system.

• 出版日期2018-9
• 单位中国地质科学院; 中国地质大学（武汉）