Sedimentary dynamics and depositional model for mud accumulation in deep lake basins: A case study in the Upper Triassic Chang-7 Member, Ordos Basin, northern China

Wei Yu , Feng Wang , Jing-Chun Tian , Jiao Wang , Benjamin Kneller , Tian Yang , Wei-Zhen Chen
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Abstract

Shales in deep lake basins have become the main focus of continental shale oil and gas exploration. In order to highlight the sedimentary dynamics of mud deposition in deep lake basins, a combination of core observation, thin section examination, X-ray diffraction, and QEMSCAN (quantitative evaluation of minerals by scanning electron microscopy) was used to analyze the depositional characteristics of mudrocks in the Chang-7 Member from the Yanchang Formation (Upper Triassic) in Ordos Basin, and to establish a depositional model for mud accumulation in deep lake basins. This study recognizes four mudrock lithofacies in the Chang-7 Member: (1) the laminated silt-bearing mudstone, which generally develops a binary composition of “silt–clay” or a ternary composition of “silt–clay–organic matter”; (2) the graded mudstone, mainly composed of dark gray and gray-black mudstone sandwiched by silt-bearing mudstone; (3) the massive mudstone, internally showing a uniform distribution of quartz, clay, and carbonate minerals, with also a small amount of organic detritus; and (4) the laminated shale, which is generally composed of clay laminae, and organic laminae of the former two. Sediment supply, topographic slope, and flood intensity combine to control the evolution of gravity flows and the transport and deposition of the mudrock in the Chang-7 Member. The influence of orogeny provides terrain gradient, water depth, abundant sediments at source areas, and triggering mechanism for the formation of gravity flows. Floods triggered by wetting events provide the impetus for sediment transport. Mud deposition in the Chang-7 Member was mainly related to the transport and sedimentation of mud by hyperpycnal flows and rapid sedimentation by buoyant plume flocculation. A comprehensive evolutionary model for shale accumulation in the deep lake basin is established by integrating various triggering mechanisms and mud transport sedimentary processes.
深湖盆地泥质堆积的沉积动力学和沉积模型:中国北部鄂尔多斯盆地上三叠统长-7组的案例研究
深湖盆地页岩已成为大陆页岩油气勘探的重点。为揭示深湖盆地泥岩沉积动力学特征,本研究采用岩芯观察、薄片检验、X射线衍射和QEMSCAN(扫描电镜矿物定量评价)相结合的方法,分析了鄂尔多斯盆地延长地层(上三叠统)长-7组泥岩的沉积特征,建立了深湖盆地泥岩堆积的沉积模型。本研究确认了长-7 组的四种泥岩岩相:(1)层状粉砂质泥岩,一般发育 "粉砂-粘土 "二元组合或 "粉砂-粘土-有机质 "三元组合;(2)层状泥岩,主要由深灰色和灰黑色泥岩夹粉砂质泥岩组成;(3) 块状泥岩,内部呈均匀分布的石英、粘土和碳酸盐矿物,也有少量有机碎屑;以及 (4) 层状页岩,一般由粘土层和前两者的有机层组成。沉积物的供应、地形坡度和洪水强度共同控制着重力流的演变以及长-7 组泥岩的搬运和沉积。造山运动的影响为重力流的形成提供了地形坡度、水深、源区丰富的沉积物和触发机制。湿润事件引发的洪水为沉积物迁移提供了动力。长-7 组的泥质沉积主要与超热流的泥质运移和沉积以及浮力羽流絮凝的快速沉积有关。综合各种触发机制和泥质运移沉积过程,建立了深湖盆地页岩堆积的综合演化模型。
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