上扬子地台下志留统龙马溪快海侵黑色页岩及其有机质分布

IF 1.1 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
Zhensheng Shi, Tianqi Zhou, Ling Qi
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引用次数: 0

摘要

最大驱油(MF)黑色页岩的特征和形成是定义细粒储层地质的重要方面。MF黑色页岩位于上扬子地台龙马溪组底部,对应于笔石带LM1。地震解释、良好对比、x射线衍射全岩分析、总有机碳(TOC)测试和场发射扫描电镜分析表明,MF黑色页岩平均石英含量为49.3%(粘土粒径85%),方解石含量为10.5%,白云石含量为8.4%,粘土矿物含量为23.4%。石英含量向盆内增加,粘土矿物含量减少。该页岩发育于海平面快速上升时期,厚度为0.5 ~ 2.8 m,向盆地内逐渐变厚。TOC含量向盆地内逐渐降低,平均为5.4%,呈4种不同的堆积模式。龙马溪页岩的矿物组成和厚度与沉积期的快速海侵、生物作用和火山作用密切相关。快速海侵导致陆源输入减少,页岩厚度减少。此外,生物活动和火山活动也导致了微晶石英的盛行。高TOC含量的页岩与缺氧条件有关,同时沉积速率低,初级生产力高。缺氧水柱、弱稀释和增强有机质供应的组合增强了有机质的保存。四种TOC叠加模式均与水深有关。黏土矿物的供给随着水深的增加而减少,有机质的降解和再循环使TOC含量降低。沉积物容纳量随水深的增加而增加,形成4种TOC堆积模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Lower Silurian Longmaxi rapid-transgressive black shale and organic matter distribution on the Upper Yangtze Platform, China
The characteristics and formation of maximum flooding (MF) black shales are important aspects in defining the geology of fine-grained reservoirs. The MF black shales are located at the bottom of the Longmaxi Formation on the Upper Yangtze Platform, corresponding to graptolite zone LM1. Seismic interpretation, good correlation, X-ray diffraction whole- rock analysis, total organic carbon (TOC) tests, and field emission scanning electron microscopy analysis showed that the MF black shales have an average content of 49.3% quartz (85% clay size), 10.5% calcite, 8.4% dolomite, and 23.4% clay minerals. The quartz content increases basinward, whereas the clay mineral content decreases. The shale developed during rapid sea level rise, with a thickness of 0.5–2.8 m that gradually thickens basinward. The TOC content, averaging 5.4%, gradually decreases basinward, with four distinct stacking patterns. The mineral composition and thickness of the Longmaxi shale are related closely to rapid transgression, biology, and volcanism during the period of sedimentation. Rapid transgression has led to a decrease in terrestrial input and shale thickness. In addition, biological activity and volcanism have caused the prevalence of microcrystalline quartz. Shales with high TOC content are related to anoxic conditions, along with low sedimentation rates and high primary productivity. The combination of an anoxic water column, weak dilution, and enhanced organic matter supply enhanced the preservation of the organic matter. The four TOC stacking patterns are related to the water depth. The supply of clay minerals decreases with increasing water depth, whereas the degradation and recycling of organic matter decrease the TOC content. The sediment accommodation increases with increasing water depth, resulting in four TOC stacking patterns.
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来源期刊
CiteScore
2.50
自引率
8.30%
发文量
126
期刊介绍: ***Jointly published by the American Association of Petroleum Geologists (AAPG) and the Society of Exploration Geophysicists (SEG)*** Interpretation is a new, peer-reviewed journal for advancing the practice of subsurface interpretation.
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