盆地底部扇缘的流动转换、泥质划分和可变地层结构

IF 2 4区 地球科学 Q1 GEOLOGY
Arnau Obradors-Latre, P. Haughton, Colm S. Pierce, P. Shannon, A. Lacchia, Simon P. Barker, O. Martinsen
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引用次数: 0

摘要

高效的沉积物重力流可以绕过扇中部通道和叶状体,在扇外侧和盆地平原沉积大量的砂、泥和颗粒有机质。爱尔兰西部香农盆地的Serpukhovian - Bashkirian充填层包括深水扇状沉积(Ross Sandstone Fm),这些沉积层逐渐覆盖在盆地底部页岩(Clare Shale Fm)上。作为更广泛的递进演替的一部分,从泥质盆地底到砂质扇底的向上过渡保留了中扇通道和扇叶之前和外部的堆积沉积。三个完全取心的井眼和相关的电缆数据限制了18公里长的面板上的相带,这些相带向原始沉积倾角倾斜。两个以混合事件层(HEBs)为主的远端序列被识别出来,由一个突出的浓缩剖面分开。较低的Cosheen系统包括m厚的板状heb,其中有明显的连接碎屑,这些碎屑向下延伸到更薄的砂岩中,上面覆盖着砂斑泥岩盖层,这些盖层在远处变厚,然后变薄。后者被解释为上倾连接的碎屑的更彻底混合部分的重建后释放的二次泥流。通过这种机制,泥浆的显著绕道和堆积有助于修复局部地形,保持相对平坦的海底,促进整体板状几何形状的沉积,使更大体积的混合流到达盆地的远端。上覆的远端罗斯系统边缘以非常细至细粒砂岩为特征,并在西边更远的地方与补偿堆积的叶片横向。它具有递进式(至少最初是)叠层模式,相转换在较短的长度尺度上发展,包括超大的事件层,但这些事件层比Cosheen系统中的事件层薄。共同的带状带和分散的粘土抑制湍流的证据,而不是夹带的泥屑,表明这些是过渡性流动。在这种情况下,事件层被推断为远端逐渐变细,大量泥浆被堵塞流作为盖层保留在砂质事件层上,而不是向下绕过。因此,不同的流动转化机制影响了泥浆在两个体系边缘的分割方式,从而影响了地层几何形状、更大规模的地层堆积模式和地层学。尽管流动效率概念强调的是流动向盆地内携带砂土的能力,但考虑到粘土诱导的流动转换的作用,也必须考虑泥浆输运的可变效率。这些可能会促进旁路或触发泥浆的过早沉降,从而影响系统如何填充调节,床级相转变以及深水系统边缘的颗粒有机碳随粘土分异的埋藏和保存。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flow transformations, mud partitioning and the variable stratigraphic architecture of basin-floor fan fringes
Highly efficient sediment gravity flows can bypass mid fan channels and lobes and deposit significant volumes of sand, mud and particulate organic matter in outer fan and basin plain settings. The Serpukhovian to Bashkirian fill to the Shannon Basin, western Ireland, includes deep-water fan deposits (Ross Sandstone Fm) that gradationally overlie basin floor shales (Clare Shale Fm). As part of a broader progradational succession, the upward transition from muddy basin floor to sandy fan preserves the stacked deposits of settings present prior to and outboard of mid-fan channels and lobes. Three fully cored boreholes and associated wireline data constrain the facies tracts in an 18 km long panel orientated oblique to original depositional dip. Two distal successions dominated by hybrid event beds (HEBs) are recognised, separated by a prominent condensed section. The lower Cosheen system includes m-thick, tabular HEBs with prominent linked debrites that pass down dip into much thinner sandstones overlain by sand-speckled mudstone caps that thicken distally before thinning. The latter are interpreted as secondary mudflows released following reconstitution of more thoroughly mixed sections of the up-dip linked debrites. Significant bypass and accumulation of mud by this mechanism helped heal local topography and maintain a relatively flat sea floor promoting an overall tabular geometry for the deposits of larger volume hybrid flows reaching the distal sector of the basin. The overlying distal Ross system fringe is characterised by very fine to fine-grained sandstones and is lateral to compensationally-stacked lobes further to the west. It has a progradational (at least initially) stacking pattern, facies transitions developed over shorter length scales, and includes outsized event beds but these are thinner than those in the Cosheen system. Common banding and evidence for turbulence suppression by dispersed clay rather than entrained mud clasts indicate these were transitional flows. In this case, event beds are inferred to taper distally, with significant mud emplaced by plug flow retained as caps to sandy event beds rather than bypassing down-dip. Different flow transformation mechanisms thus impacted how mud was partitioned across the fringe of the two systems and this influenced bed geometries, larger scale bed stacking patterns and stratigraphy. Whereas the flow efficiency concept stresses the ability of flows to carry sand in a basinward direction, it is also imperative to consider the variable efficiency of mud transport given the operation of clay-induced flow transformations. These can either promote bypass or trigger premature fallout of mud with implications for how systems fill accommodation, bed -scale facies transitions and the burial and preservation of particulate organic carbon fractionated along with the clay in deep-water system fringes.
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来源期刊
CiteScore
3.80
自引率
5.00%
发文量
50
审稿时长
3 months
期刊介绍: The journal is broad and international in scope and welcomes contributions that further the fundamental understanding of sedimentary processes, the origin of sedimentary deposits, the workings of sedimentary systems, and the records of earth history contained within sedimentary rocks.
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