四川盆地威远—荣昌北地区龙马溪组古流体活动记录及其地质意义

Records of paleofluid activity and their geological significance in Longmaxi Formation of Weiyuan-Rongchang north area, Sichuan Basin

  • 摘要: 裂缝脉体是页岩气勘探开发研究中的热点,对揭示古构造运动、流体埋藏与成藏演化过程具有重要的指示意义。威远—荣昌北地区作为当前页岩气开发的重点区块,其深层页岩中裂缝脉体的发育特征、形成时代及其与构造—沉积演化的关系尚不明确。以该区志留系龙马溪组深层页岩裂缝中的脉体矿物为研究对象,综合运用岩相学观察、阴极发光分析、流体包裹体均一温度测试、激光拉曼光谱分析、U-Pb定年以及主微量元素和稀土元素测试等方法,系统揭示了裂缝脉体的成因及其地质意义。威远—荣昌北地区龙马溪组深层页岩裂缝中的方解石脉体形成于古流体温度相对较低、埋藏较浅的氧化环境,其流体来源为受热液影响的地下淡水。U-Pb定年结果显示,方解石脉体形成时代为(245.2±5.1)Ma。同期盐水包裹体的均一温度主要集中于130~ 150 ℃,对应第一期流体充注阶段,指示裂缝初次开启时间早于该脉体形成时代(245.2±5.1)Ma。该期方解石脉体反映了龙马溪组深层页岩受构造作用影响,裂缝系统与外界环境发生沟通,但整体规模有限,页岩气保存条件未被显著破坏。

     

    Abstract: Fracture veins are a research hotspot in shale gas exploration and development, and they play a significant role in revealing paleotectonic movements, fluid burial, and reservoir evolution processes. The Weiyuan-Rongchang north area, as a key block for current shale gas development, still lacks clarity regarding the development characteristics and formation age of fracture veins in its deep shale formations, as well as their relationship with tectonic and sedimentary evolution. The genesis and geological significance of these features require further investigation. Therefore, this study took the vein minerals in the deep shale fractures of Longmaxi Formation in this area as the research object. Through petrographic observation, cathodoluminescence analysis, fluid inclusion homogenization temperature testing, laser Raman spectroscopy analysis, U-Pb dating, and major and trace element and rare earth element testing, the genesis and geological significance of the fracture veins were revealed. The results showed that the calcite veins in deep shale fractures of the Longmaxi Formation in the Weiyuan-Rongchang north area formed in an oxidizing environment with relatively low paleofluid temperature and shallow burial depth, and their fluid source was groundwater influenced by hydrothermal activity. The U-Pb dating results showed that the formation age of the calcite veins was about (245.2 ± 5.1)Ma. The homogeneous temperature of coeval aqueous inclusions was mainly concentrated at 130 to 150 ℃, corresponding to the first stage of fluid charging, indicating that the initial opening of fractures occurred earlier than the formation age of the vein (245.2 ± 5.1)Ma. The calcite veins in this stage reflected that the Longmaxi Formation shale was affected by tectonic activity, with fracture systems communicating with the external environment, but the overall scale was limited, and the shale gas preservation conditions were not significantly damaged.

     

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