火山断裂湖沼盆地细粒岩有机质富集模型:中国东北松辽盆地梨树断裂坳陷下白垩统沙河子地层第二段下亚段实例研究

IF 7 Q1 ENERGY & FUELS Petroleum Exploration and Development Pub Date : 2024-10-01 DOI:10.1016/S1876-3804(25)60537-4
Huanyu XIE , Zaixing JIANG , Li WANG , Xinyu XUE
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引用次数: 0

摘要

根据梨树断裂凹陷下白垩统沙河子地层(K1sh2L)第二亚系下统细粒岩的沉积特征,结合有机岩石学、主微量元素及生物标志化合物分析等方法,研究了火山断裂湖沼盆地细粒沉积岩中有机质的富集条件和富集模式。沉积古环境的变化控制了 K1sh2L 不同岩性类型的垂直分布,并将其划分为上部和下部。下部包含块状硅质泥岩和含生物碎屑硅质泥岩,而上部主要由层状硅质页岩和层状细粒混合页岩组成。下部和上部有机质的角质类型分别为 II2-III 型和 I-II1 型。上部的有机碳含量普遍高于下部。火山裂谷湖沼盆地有机质的富集有三个有利条件。首先,断裂的持续加强是古水深增加的直接因素,基底面的上升导致深水泥岩/页岩沉积范围的扩大。其次,相对强烈的水下火山喷发与断裂同时发生,可为湖盆提供大量营养物质,有利于藻类的大量繁殖,导致Ⅰ-Ⅱ1型角质的生产力提高。第三,相对干燥的古气候导致淡水和陆地物质(包括来自陆地高等植物的Ⅲ型角质)的输入减少,造成水体盐度升高和缺氧分层,更有利于有机质的保存。建立了火山裂谷湖沼盆地细粒沉积岩有机质富集模型,对认识松辽盆地乃至东北地区沙河子地层细粒沉积岩有机质富集机理具有参考意义。
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Organic matter enrichment model of fine-grained rocks in volcanic rift lacustrine basin: A case study of lower submember of second member of Lower Cretaceous Shahezi Formation in Lishu rift depression of Songliao Basin, NE China
Based on sedimentary characteristics of the fine-grained rocks of the lower submember of second member of the Lower Cretaceous Shahezi Formation (K1sh2L) in the Lishu rift depression, combined with methods of organic petrology, analysis of major and trace elements as well as biological marker compound, the enrichment conditions and enrichment model of organic matter in the fine-grained sedimentary rocks in volcanic rift lacustrine basin are investigated. The change of sedimentary paleoenvironment controls the vertical distribution of different lithofacies types in the K1sh2L and divides it into the upper and lower parts. The lower part contains massive siliceous mudstone with bioclast-bearing siliceous mudstone, whereas the upper part is mostly composed of laminated siliceous shale and laminated fine-grained mixed shale. The kerogen types of organic matter in the lower and upper parts are types II2–III and types I–II1, respectively. The organic carbon content in the upper part is higher than that in the lower part generally. The enrichment of organic matter in volcanic rift lacustrine basin is subjected to three favorable conditions. First, continuous enhancement of rifting is the direct factor increasing the paleo-water depth, and the rise of base level leads to the expansion of deep-water mudstone/shale deposition range. Second, relatively strong underwater volcanic eruption and rifting are simultaneous, and such event can provide a lot of nutrients for the lake basin, which is conducive to the bloom of algae, resulting in higher productivity of types I–II1 kerogen. Third, the relatively dry paleoclimate leads to a decrease in input of fresh water and terrestrial materials, including Type III kerogen from terrestrial higher plants, resulting in a water body with higher salinity and anoxic stratification, which is more favorable for preservation of organic matter. The organic matter enrichment model of fine-grained sedimentary rocks of volcanic rift lacustrine basin is established, which is of reference significance to the understanding of the organic matter enrichment mechanism of fine-grained sedimentary rocks of Shahezi Formation in Songliao Basin and even in the northeast China.
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