The Dajiangping pyrite deposit is hosted in a carbonate-elastic rock series which ischaracterized by a bioreef-chert suite in its middle part. Conformable lenses of various sizesconstitute the oretheies which often br...The Dajiangping pyrite deposit is hosted in a carbonate-elastic rock series which ischaracterized by a bioreef-chert suite in its middle part. Conformable lenses of various sizesconstitute the oretheies which often branch transitionally into the surroundingS. Syngenetic deformation fabrics can be observed in orethey No. 3. Orethey No. 4 is composed almost entirely ofmassive pyrite, with conspicuous hydrotherrnal sedimentation and bacterium-alga features. Thehydrothermal sedimentation origin is also reflected by simple chemistry of the ore (predominated by quartz and paste), the presence of U and Th, and the REE compositions of paste andankerite. The ores are rich in organic matter and the difference in organic content between thebanded ores and the massive ores is mainly owing to the difference in the elastic componentsthey contain rather than to the subsequent processes of reworking. CO/Ni ratios in the ore mayreflect the temperature pattern during hydrothermal sedimentation.展开更多
There occur abundant cherts in the Mesozoic and Cenozoic strata in southern Tibet. Some of them possess characteristic hydrothermal structures such as layered, laminated, massive and breccia structures. Ratios of Al/...There occur abundant cherts in the Mesozoic and Cenozoic strata in southern Tibet. Some of them possess characteristic hydrothermal structures such as layered, laminated, massive and breccia structures. Ratios of Al/(Al+Fe+Mn), Co/Ni, Fe/Ti and TiO2-A1203 demonstrate that their origin is related to hydrothermal sedimentation. The chert formations have close relationship with Sb, Au and poly-metallic mineralization, and the ore-forming fluid show strong correlation with fossil hydrothermal water. There occur abundant cherts in the Mesozoic and Cenozoic strata in southern Tibet. Some of them possess characteristic hydrothermal structures such as layered, laminated, massive and breccia structures. Ratios of A1/(AI+Fe+Mn), Co/Ni, Fe/Ti and TiO2-A1203 demonstrate that their origin is related to hydrothermal sedimentation. The chert formations have close relationship with Sb, Au and poly-metallic mineralization, and the ore-forming fluid show strong correlation with fossil hvdrothermal water.展开更多
文摘The Dajiangping pyrite deposit is hosted in a carbonate-elastic rock series which ischaracterized by a bioreef-chert suite in its middle part. Conformable lenses of various sizesconstitute the oretheies which often branch transitionally into the surroundingS. Syngenetic deformation fabrics can be observed in orethey No. 3. Orethey No. 4 is composed almost entirely ofmassive pyrite, with conspicuous hydrotherrnal sedimentation and bacterium-alga features. Thehydrothermal sedimentation origin is also reflected by simple chemistry of the ore (predominated by quartz and paste), the presence of U and Th, and the REE compositions of paste andankerite. The ores are rich in organic matter and the difference in organic content between thebanded ores and the massive ores is mainly owing to the difference in the elastic componentsthey contain rather than to the subsequent processes of reworking. CO/Ni ratios in the ore mayreflect the temperature pattern during hydrothermal sedimentation.
基金Ministry of Science and Technology 973 Program(Grant No.2002CB412600-VI)NSFC(Grant No.40073010)the Ph.D.Training Base Fund the National Education Ministry of China(Grant Nos.20040558050,20000099815)
文摘There occur abundant cherts in the Mesozoic and Cenozoic strata in southern Tibet. Some of them possess characteristic hydrothermal structures such as layered, laminated, massive and breccia structures. Ratios of Al/(Al+Fe+Mn), Co/Ni, Fe/Ti and TiO2-A1203 demonstrate that their origin is related to hydrothermal sedimentation. The chert formations have close relationship with Sb, Au and poly-metallic mineralization, and the ore-forming fluid show strong correlation with fossil hydrothermal water. There occur abundant cherts in the Mesozoic and Cenozoic strata in southern Tibet. Some of them possess characteristic hydrothermal structures such as layered, laminated, massive and breccia structures. Ratios of A1/(AI+Fe+Mn), Co/Ni, Fe/Ti and TiO2-A1203 demonstrate that their origin is related to hydrothermal sedimentation. The chert formations have close relationship with Sb, Au and poly-metallic mineralization, and the ore-forming fluid show strong correlation with fossil hvdrothermal water.
