Sedimentary environment shift and organic matter enrichment mechanism in response to volcanic ash influence: A case study of the Permian Lucaogou Formation, Santanghu Basin, NW China
Miao Yu , Gang Gao , Miao Liu , Hui Liang , Ji-Lun Kang , Xiong-Fei Xu , Xin-Ying Zhao
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Abstract
The second member of the Lucaogou Formation (P2l2) in the Tiaohu and Malang Sags of the Santanghu Basin (study area) underwent periodic volcanic activity and frequent lithological changes. This study comprehensively analyzed the organic geochemistry, mineral composition, organic matter (OM) types, volcanic cycle, and palaeoenvironment of shale in the study area. Techniques such as total organic carbon (TOC), rock pyrolysis (Rock-Eval), organic petrology, scanning electron microscopy (SEM) with energy-dispersive spectrum (EDS) analysis, X-ray diffraction (XRD), trace elements, and saturated hydrocarbon gas chromatography and mass spectrometry (GC–MS) were employed. The findings suggest that limited terrigenous input during the sedimentary period of the P2l2 led to the deposition of a distinctive mixture of volcanic ash (felsic) and carbonate (dolomite and calcite), with a low average clay mineral content of 6%. The P2l2 shale emerged as a high-quality source rock, predominantly composed of type I and II kerogens, with moderate OM maturity. The deposition environment was characterized by hot and arid conditions, high salinity, and intensive reducibility, which was favorable for algae development and conducive to OM preservation. Notably, two lamalginite types, labeled as lamalginite “A” and lamalginite “B,” were identified. Lamalginite “B”-rich shales were deposited in a hotter and drier climate compared to lamalginite “A”-rich shales. Lamalginite “B”- rich shale inexhibited high levels of C28 regular sterane and β-carotenes, distinguishing it from lamalginite “A”-rich shale. A comprehensive analysis involving organic petrology, SEM, sedimentary environment, and biomarker characteristics suggests that lamalginite “B” may be a salt-tolerant green alga, while lamalginite “A” may be a cyanobacterium. Finally, an OM enrichment model for the P2l2 shale was established.
三塘湖盆地(研究区)蕉湖、马栏沙组卢草沟地层第二系(P2l2)经历了周期性的火山活动,岩性变化频繁。本研究全面分析了研究区页岩的有机地球化学、矿物组成、有机质(OM)类型、火山周期和古环境。研究采用了总有机碳(TOC)、岩石热解(Rock-Eval)、有机岩石学、扫描电子显微镜(SEM)与能量色散光谱(EDS)分析、X射线衍射(XRD)、微量元素和饱和碳氢化合物气相色谱-质谱(GC-MS)等技术。研究结果表明,在 P2l2 的沉积时期,有限的陆相沉积导致火山灰(长石)和碳酸盐(白云石和方解石)的独特混合物沉积,粘土矿物的平均含量较低,仅为 6%。P2l2 页岩是一种优质原岩,主要由 I 型和 II 型角砾岩组成,OM 成熟度适中。沉积环境的特点是炎热干旱、盐度高、还原性强,有利于藻类的生长,也有利于 OM 的保存。值得注意的是,发现了两种薄片岩类型,分别称为薄片岩 "A "和薄片岩 "B"。与富含片麻岩 "A "的页岩相比,富含片麻岩 "B "的页岩沉积在更炎热、更干燥的气候中。富含薄片岩 "B "的页岩中含有大量的 C28 正甾烷和 β-胡萝卜素,这使其有别于富含薄片岩 "A "的页岩。一项涉及有机岩石学、扫描电镜、沉积环境和生物标记特征的综合分析表明,薄片岩 "B "可能是一种耐盐绿藻,而薄片岩 "A "可能是一种蓝藻。最后,建立了 P2l2 页岩的 OM 富集模型。
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