Formational stages of natural fractures revealed by U-Pb dating and C-O-Sr-Nd isotopes of dolomites in the Ediacaran Dengying Formation, Sichuan Basin, southwest China

Chen Zhang, Huaguo Wen, Xin Wang, Long Wen, Anjiang Shen, Gang Zhou, Qiqi Wang, Min She, Chao Ma, Zhanfeng Qiao, Da-Quan Liu, Yiquan Ma
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Abstract

Deep core (>4.9 km) from Ediacaran Deng IV Member algal dolomites in the Gaoshiti-Moxi block in the Sichuan Basin, southwest China, reveals multiple generations of dolomite-lined and dolomite-filled opening-mode fractures. Three progressive stages of fracture formation are marked by crosscutting relations visible in the core, by acoustic emission experiments revealing evidence of past stress directions, and by fluid inclusions, U-Pb ages, C-O-Sr-Nd isotope patterns, and rare earth element data for dolomite cements in fractures, which document ages and differing thermal conditions and fluid compositions during fracture. In calcite-filled fractures, U-Pb ages and carbon and oxygen isotope signatures vary greatly, indicating that fractures developed with intensified tectonic activity marked by regional structures and with enhanced diagenetic alteration. In stage I, WNW-striking opening-mode fractures formed that contain dolomite deposits precipitated from basinal fluids between ca. 549 Ma and ca. 532 Ma. At this time, the Sichuan Basin experienced Xingkai taphrogenesis (rifting) from the late Neoproterozoic to early Cambrian. The central Sichuan paleo-uplift was undergoing ENE extension, and preexisting ESE- and nearly E-W−striking faults were oblique to the ENE principal stress orientation. This led to a local stress field favoring dextral shear near fault zones accommodated by the fractures. In stage II, ENE-striking fractures that are younger based on crosscutting relations contain dolomite deposits from basinal fluids with ages from ca. 423 Ma to ca. 411 Ma. Contemporaneous with Xuefeng thrusting, the central Sichuan paleo-uplift was in a NNE-striking transpressional stress field, which likely further generated ENE-striking fractures. In stage III, nearly N-S−striking fractures formed in the Gaoshiti-Moxi block. High-temperature fluids related to the Permian Emeishan large igneous province invaded these fractures from ca. 260 Ma to ca. 256 Ma. At this time, the Sichuan Basin was uplifted under the influence of the Emei taphrogenesis in the late Permian, and the central Sichuan paleo-uplift was subjected to E-W−striking extension. In fractures in these carbonate rocks, micro-computed tomography imaging reveals that macropores (>10 μm, 12.1%−21.8%) and small pores (2−10 μm, 76.6%−86.1%) dominate the dolomite mineral deposits, and that there are few (1.6%−1.8%) micropores or nanopores (<2 μm). Medium-sized throats (1−3 μm) are the main connecting channels. We infer that fractures served as conduits for fluid migration, leading to the dissolution of matrix pores adjacent to the fractures. This secondary porosity not only enhances reservoir storage capacity but also augments reservoir connectivity. Our study shows that in situ U-Pb dating and full-diameter rock acoustic emission data can effectively constrain the timing of fractures. By integrating this information with regional tectonic sequences and fracture diagenetic sequences from combined relative timing, geochemistry, and rock mechanics evidence, we clarify the factors controlling fracture formation.
中国西南四川盆地二迭纪登瀛组白云岩的U-Pb年代测定和C-O-Sr-Nd同位素揭示的天然断裂的形成阶段
中国西南部四川盆地高石梯-磨溪区块埃迪卡拉纪邓四世藻白云岩的深部岩芯(大于4.9千米)揭示了多代白云岩衬砌和白云岩填充的开裂模式断裂。岩芯中可见的横切关系、声发射实验揭示的过去应力方向的证据,以及断裂中白云岩胶结物的流体包裹体、U-Pb年龄、C-O-Sr-Nd同位素模式和稀土元素数据,都标志着断裂形成的三个渐进阶段。在方解石填充的断裂中,U-Pb年龄和碳氧同位素特征差异很大,表明断裂是在以区域构造为标志的构造活动加剧和成岩蚀变增强的情况下发育的。在第一阶段,形成了向西北方向冲击的开口模式断裂,其中含有约 549 Ma 至约 532 Ma 之间基底流体沉淀的白云岩沉积物。此时,四川盆地经历了新元古代晚期至寒武纪早期的兴凯断裂。四川中部的古隆起正经历着ENE向的延伸,原有的ESE向和近E-W向断层与ENE向的主应力方向相斜。这导致局部应力场有利于断裂所容纳的断层带附近的右旋剪切。在第二阶段,根据横切关系,ENE-条纹断裂的年龄较小,其中含有来自基底流体的白云岩沉积物,其年龄约为423Ma至约411Ma。与雪峰推覆同时,四川中部古隆起处于NNE向转压应力场中,这很可能进一步产生了ENE向断裂。在第三阶段,高石梯-磨溪地块形成了近N-S向的断裂。与二叠纪峨眉山大型火成岩带有关的高温流体在约260Ma至约256Ma期间侵入了这些断裂。此时,四川盆地在二叠纪晚期峨眉山大火成岩带的影响下发生隆起,川中古隆起带受到了东西向的伸展。在这些碳酸盐岩的断裂中,显微计算机断层扫描成像显示,白云岩矿物沉积以大孔隙(>10 μm,12.1%-21.8%)和小孔隙(2-10 μm,76.6%-86.1%)为主,微孔或纳米孔(<2 μm)很少(1.6%-1.8%)。中等大小的节理(1-3 μm)是主要的连接通道。我们推断,裂缝是流体迁移的通道,导致裂缝附近的基质孔隙溶解。这种次生孔隙度不仅提高了储层的存储能力,还增强了储层的连通性。我们的研究表明,原位铀-铅年代测定和全直径岩石声发射数据可以有效地确定裂缝的时间。通过将这些信息与区域构造序列和裂缝成因序列相结合,结合相对时间、地球化学和岩石力学证据,我们阐明了控制裂缝形成的因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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