河流-三角洲体系的沉积学与演化:沙特阿拉伯红海沿岸地区的现代沉积模式模拟

O. Abdullatif, M. Osman, M. Bashri, Ammar Abdlmutalib, M. Yassin
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引用次数: 1

摘要

硅屑沉积物是红海沿岸平原重要的岩性单元。它们的地下当量是该地区地下水含水层和油气储集层的重要目标。现代河流三角洲体系的岩相具有冲积型、河流型、三角洲平原型、风成型、潮间带型、海岸沙坝型和河口沉积型等不同的地貌单元和亚环境。本研究拟对该现代河流三角洲体系进行岩相和沉积环境的表征,并建立一个完整的相模式。该研究可能为几个重要的地下新近系地层提供有价值的现代模拟,这些地层是重要的油气储集层和地下水含水层。这项研究综合了从景观卫星、地图和详细的实地观察以及从阿拉伯地盾到红海沿岸的河流和三角洲的相分析测量得到的信息和数据。岩相沉积分析显示A、B、C、d 4个主要岩相组合。A岩相组合代表最古老单元,以粗砾石为主,砂相较少。B岩相以细砾石、砂岩相为主,偶有砾质岩相,水平、平面至块状砂相,少量层状至块状粉砂、泥相。A、B区岩相表现出近端到远端的横向变化,并具有典型的垂向叠加模式。A相组合和B相组合表明河流沉积风格由砂质冲积扇向砂质砂质河流体系转变。岩相组合C代表了近代河流体系,主要由小型砾石滞后沉积组成,主要与各种规划砂岩相、水平砂岩相和块状砂岩相、块状砂岩相和有限砂泥岩相相结合。岩相组合D以Barchan沙丘为主,局部间带泥质沙丘和砂层。D岩相位于河流三角洲系较远的地貌位置,与海岸sabkha相邻。本文所描述的岩相组合记录了沿海平原沉积物在各种自旋回和异旋回控制下的时空演化和发展。这包括渐新世-中新世以来与红海裂谷和张开有关的构造和构造发育。其他控制因素还包括阿拉伯盾构(物源)和海岸平原的时空演化,这些演化受构造、沉积物供应、气候和局部自旋回环境的控制。该研究有助于了解红海地区的控制因素和地层演化,对储层和含水层的表征、开发和管理具有重要价值。这种现代模拟模型还可以帮助提供地质基线信息,这将有助于了解类似的古代河流三角洲沉积物。该研究可为认识潜在地下含水层和油气储层的地下相、地层构型和非均质性提供指导和线索。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sedimentology and Evolution of the Fluvial-Deltaic System: A Modern Depositional Model Analog from the Red Sea Coastal Region, Saudi Arabia
Siliciclastic sediments represent important lithological unit of the Red Sea coastal plain. Their subsurface equivalents are important targets of groundwater aquifer and hydrocarbon reservoirs in the region. The lithofacies of the modern fluvial deltaic system has several distinct geomorphic units and sub-environments such as alluvial, fluvial, delta plain, aeolian, intertidal, coastal sabkha and eustuarine sediments. This study intends to characterize the lithofacies and the depositional environments and to produce an integrated facies model for this modern fluvial-deltaic system. The study might provide a valuable modern analog to several important subsurface Neogene formations that act as important hydrocarbon reservoirs and groundwater aquifers. The study integrates information and data obtained from landsats, maps and detailed field observation and measurements of facies analysis of the fluvial and deltaic along traveses from the Arabian Shield to the Red Sea coast. The lithofacies sediment analysis revealed four main lithofacies associations namely lithofacies A,B,C ad D. Lithoacies Associations A, which represents the oldest unit is dominated by coarse gravel with minor sands facies. While the lithofacies B is dominated byfine gravel and sand lithofacies, occasionally pebbly, vary from horizontal, planar to massive sands with minor laminated to massive silts and mud facies. The lithofacies in A and B show lateral proximal to distal variation as well as characteristic vertical stacking patterns. The Facies Association A and B indicates a change in fluvial depositional styles from gravelly alluvial fans to gravelly sandy fluvial systems. The lithofacies association C represents the recent fluvial system which consists of minor gravel lag deposits associated maily with various sand lithofacies of planner, horizontal and massive sand associated with massive and limainted sand and mud lithofacies. The lithofacies Association D is dominated with Barchan sand dunes local interfigger with muddy iinterdunes and sand sheets. Lithofacies D occupies rather more distal geomporphic position of the fluvial deltaic system that is adjace to coastal sabkha. The lithofacies associations described here document the evolution and development of the coastal plain sediments through space and time under various autocyclic and allocyclic controls. This included the tectonics and structural development associated with the Red Sea rifting and opening since the Oligocene – Miocene time. Others controls include the evolution of the Arabian shield (provenance) and the coastal plain through space and time as controlled by tectonics, sediment supply, climate and locally by autocyclic environmental This study might be beneficial for understanding the controls and stratigraphic evolution of the Red Sea region and will be of great value for reservoir and aquifer characterization, development and management. This modern analog model can also help in providing geological baseline information that would be beneficial for understanding similar ancient fluvial deltaic sediments. The study might provide guides and leads to understand the subsurface facies, stratigraphic architecture and heterogeneity of any potential groundwater aquifers and hydrocarbon reservoirs.
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