超深层白云岩成因及大型储层控制因素:四川盆地新元古代登瀛组和寒武纪龙王庙组的案例研究

IF 6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Xi Li, Guangyou Zhu, Zhiyao Zhang
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引用次数: 0

摘要

本文以四川盆地新元古代登瀛组和寒武系龙王庙组为研究对象,探讨了超深层白云岩的成因及大型白云岩储层的影响因素。研究涉及岩石学、微尺度 X 射线衍射、微量元素分析和 C-O-Sr-Mg 同位素实验,以提供详细分析。研究结果表明,邓营地层和龙王庙地层由六种基质白云石和四种胶结物组成。丹营地层发育于限制平台沉积背景下,含有特殊的微生物白云石和微晶白云石。白云石晶粒小(30 微米),阶度低(Min=0.55),单胞参数大,Na 含量极高(Max=788 ppm)。白云石的 87Sr/86Sr 值与同期海水一致,而 δ13C 和 δ18O 值则低于同期海水。δ26Mg值很小(Min=-2.31‰)。粉晶白云石、细晶白云石和方解石白云石的晶体较粗且有序,其δ13C和87Sr/86Sr值与微生物白云石和微晶白云石相似。在登瀛组沉积时期,古海洋条件有利于微生物的生存。微生物在海水中诱导原生白云石直接沉淀,在海水成岩期形成了微生物白云石和微晶白云石。在随后的成岩期,白云石经历了溶解-重结晶、结构和热液的作用。这就形成了晶体更粗大、有序度更高的白云石和各种类型的胶结物。龙王庙地层发育于以特殊颗粒白云石为特征的平台间海滩。颗粒白云石粒度大(30 微米)、阶次高(最小=0.7)、单胞参数小、Na 含量高(最大=432 ppm)、Fe 和 Mn 含量低。δ26Mg和δ13C值与同期海水一致,而δ18O和87Sr/86Sr值则高于同期海水。多周期变化的δ26Mg值与沉积周期之间存在相互耦合的关系。龙王庙地层中的白云石是由蒸发海水对石灰岩的变质作用形成的。龙王庙地层白云岩的厚度和规模受海平面周期性变化的控制。从新元古代到寒武纪的白云岩发展时期,恰好是罗迪尼亚断裂向冈瓦纳聚合过渡的时期。这些事件导致中新世和寒武纪之间的海洋属性、微生物活动和沉积气候背景大不相同。这些差异可能是导致这两个时期形成的白云石不同起源的根本因素。四川盆地从新元古代到寒武纪的沉积面分布和深部构造活动受到超大陆断裂和汇聚的影响。这一过程对超深白云岩储层的分布、孔隙形成、保存和调整机制起着关键作用。要有效分析其他地区或地层,特别是超大陆断裂和汇聚特定时期超深层白云岩的成因和成藏机制,关键是要考虑海水性质、微生物活动、沉积环境以及构造活动驱动的断层系统等综合特征。这有助于预测高质量和大规模超深层白云岩储层的分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genesis of ultra-deep dolostone and controlling factors of large-scale reservoir: A case study of the Sinian Dengying Formation and the Cambrian Longwangmiao Formation in the Sichuan Basin

This paper investigates the origin of ultra-deep dolostone and the factors influencing large-scale dolostone reservoirs, focusing on the Sinian Dengying Formation and the Cambrian Longwangmiao Formation in the Sichuan Basin. The study involves petrology, microscale X-ray diffraction, trace element analysis, and C-O-Sr-Mg isotope experiments to provide a detailed analysis. The research findings indicate that the Dengying and Longwangmiao formations comprise six types of matrix dolostone and four types of cement. The Dengying Formation, which developed under a sedimentary background of a restricted platform, contains special microbial and microcrystalline dolostones. The dolomite grains are small (<30 µm) and have a low order degree (Min=0.55), with large unit cell parameters and an extremely high Na content (Max=788 ppm). The 87Sr/86Sr value of the dolostone is consistent with contemporaneous seawater, while the δ13C and δ18O values are lower than those of the contemporaneous seawater. The δ26Mg value is small (Min=−2.31‰). Powder crystal, fine-crystalline, and calcite dolostones with coarser and more ordered crystals exhibit similar δ13C and 87Sr/86Sr values to microbial and microcrystalline dolostone. During the sedimentary period of the Dengying Formation, ancient marine conditions were favorable for microbial survival. Microorganisms induced the direct precipitation of primary dolomite in seawater, forming microbial and microcrystalline dolostones during the seawater diagenesis period. During the subsequent diagenesis period, dolostones underwent the effects of dissolution-recrystallization, structures, and hydrothermal fluids. This resulted in the formation of dolostone with coarser crystals, a higher degree of order, and various types of cement. The Longwangmiao Formation was developed in an inter-platform beach characterized by special particle dolostone. The particle dolostone has a large grain size (>30 µm), high order degree (Min=0.7), small unit cell parameters, high Na content (Max=432 ppm), and low Fe and Mn content. The δ26Mg and δ13C values are consistent with the contemporaneous seawater, while the δ18O and 87Sr/86Sr values are higher than those of the contemporaneous seawater. There is mutual coupling between multiple-period varying δ26Mg values and sedimentary cycles. The dolostone in the Longwangmiao Formation resulted from the metasomatism of limestone by evaporated seawater. The thickness and scale of the dolostone in the Longwangmiao Formation are controlled by the periodic changes in sea level. The period of dolostone development from the Sinian to the Cambrian coincides with the transition from Rodinia’s breakup to Gondwana’s convergence. These events have resulted in vastly different marine properties, microbial activities, and sedimentary climate backgrounds between the Sinian and the Cambrian. These differences may be the fundamental factors leading to the distinct origins of dolostone formed in the two periods. The distribution of sedimentary facies and deep tectonic activities in the Sichuan Basin from the Sinian to the Cambrian is influenced by the breakup and convergence of the supercontinent. This process plays a key role in determining the distribution, pore formation, preservation, and adjustment mechanisms of ultra-deep dolostone reservoirs. To effectively analyze the genesis and reservoir mechanisms of ultra-deep dolostone in other regions or layers, especially during the specific period of supercontinent breakup and convergence, it is crucial to consider the comprehensive characteristics of seawater properties, microbial activities, sedimentary environment, and fault systems driven by tectonic activities. This can help predict the distribution of high-quality and large-scale ultra-deep dolostone reservoirs.

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来源期刊
Science China Earth Sciences
Science China Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
9.60
自引率
5.30%
发文量
135
审稿时长
3-8 weeks
期刊介绍: Science China Earth Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.
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