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    南秦岭造山带安康石梯—旬阳神河早古生代热水沉积盆地构造-沉积相与热水聚矿特征

    Structure-sedimentary facies and hydrothermal mineralization characteristics of Shiti (in Ankang) -Shenhe (in Xunyang) Early Paleozoic hydrothermal basin in South Qinling orogenic belt

    • 摘要: 提要:南秦岭造山带安康石梯—旬阳神河一带早古生代为裂陷沉积盆地区,发育一套深水相“硅、灰、泥”沉积建造,伸展构造体制下形成的裂陷型盆地中,具有典型的深水沉积、火山喷流沉积与热水沉积同盆共存,形成规模巨大独具特色的以重晶石、磁铁矿为主的多金属成矿带。热水沉积成矿盆地构造-沉积相反映了不同的构造变形-岩石组合-地球化学-沉积岩相的多维组合。南秦岭带三级热水沉积盆地发育的构造-沉积相,可初步划分为3种类型:(火山)热水沉积成矿盆地构造-沉积相、深水缺氧环境中裂陷沉积成矿盆地的构造-沉积相、碳酸盐岩台地浅水沉积盆地的构造-沉积相。(火山)热水沉积成矿盆地构造沉积相主要表现为火山沉积、热水沉积、深水化学沉积、热水沉积成矿四位一体。裂陷沉积成矿盆地的构造沉积相主要表现为热水沉积、深水化学沉积、热水沉积成矿三位一体。碳酸盐岩浅水沉积盆地的构造沉积相主要表现为正常浅水沉积、热水沉积、热水沉积成矿三位一体。通过对区内沉积成矿盆地的识别分析,三级构造热水沉积成矿盆地受控于盆地中的同生断裂和火山活动,具有沉积岩相、热水沉积岩组合、火山喷流沉积组合、显著成矿作用及物化探异常分布。三级构造热水沉积成矿盆地是矿床定位的构造空间,四级热水沉积洼地为矿体(矿层)的容纳空间。区内热水沉积岩主要为重晶石(毒重石)岩、硅质岩、磁铁钠长石岩和铁碳酸盐岩类,重晶石、磁铁矿等矿产多产于热水沉积岩中或火山(喷流)沉积岩的上盘。

       

      Abstract: Abstract:The Early Paleozoic Shiti (in Ankang) -Shenhe (in Xunyang) area belongs to the South Qinling orogenic belt and has the characteristics of the so-called “chert-limestone-mudstone” sedimentary edifice in deep-water setting. It was a rifting basin formed in the extensive structural regime, and there coexisted the classic deep-water sedimentation, volcanic exhalative sedimentation and hydrothermal sedimentation, producing the special and unique polymetallic field composed mainly of barite and magnetite. The facies of hydrothermal sedimentary mineralization basin show distinct several-dimensional associations comprising structural deformation, petrologic composition, geochemical signature and features of sedimentary rocks. The structure-sedimentary facies of the third-grade hydrothermal sedimentary basin in South Qinling orogenic belt can be roughly divided into 3 types. The first type is the structure-sedimentary facies of volcanic hydrothermal sedimentary mineralization basin, which has the Quaternary characteristics of volcanic sedimentation, hydrothermal sedimentation, deep-water chemical sedimentation and hydrothermal sedimentary mineralization. The second is the facies of the deep-water and oxygen-absent rifting sedimentary mineralization basin, which has the trinity characteristics of hydrothermal sedimentation, deep-water chemical sedimentation and hydrothermal sedimentary mineralization. The third is the facies of the shallow-water carbonate platform, which has the trinity characteristics of normal shallow-water chemical sedimentation, hydrothermal sedimentation and hydrothermal sedimentary mineralization.The analysis and identification show that the third-grade hydrothermal sedimentary mineralization basin is controlled by the syngenetic faults and the volcanic actions, having the geographic features of the sedimentary rocks, association of hydrothermal sedimentary rock, exhalation association, obvious mineralization and distribution of geophysical and geochemical anomalies. The third-grade hydrothermal sedimentary mineralization basin is the structural space for ore deposits, and the fourth-grade hydrothermal sedimentary depression acts as the suitable space for ore body. The exhalites in the region mainly include baritite, chert, magnet-albitite and ferro-carbonate. The minerals such as barite and magnetite are mostly grown in the exhalites or the hanging wall of the volcanic sedimentary rocks.

       

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