重新审视后冰期、横断古长江口的地层发展:从潮汐主导的河口到三角洲的历程

Shihao Liu, John A. Goff, Wei Feng, Yan Liu, Xin Shan, Weifen Hu, Yufeng Chen, Ya Ping Wang
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引用次数: 0

摘要

潮汐主导的河口与潮汐主导的三角洲之间的过渡是了解海平面和环境变化的关键过程,在现代环境中可以观察到,在地质记录中也多次出现。然而,对这一转变过程的记录仍然很少,因此在有关沉积和地层过程方面存在知识空白。为了弥补这一空白,我们利用新的啁啾数据,辅以与以前记录的钻孔的相关性,重新研究了由世界上最大的河流之一建造的现代长江(长江)三角洲下面的冰期后横断系统。我们的研究结果表明,在小干冰期前后,出现了以前未曾记载的以潮汐为主的河口向三角洲的过渡,过渡前的演化主要是以潮汐为主的河口的逆变,它填补了低台切谷的大部分容纳空间。这一过渡发生在河口的中段和向海部分到达水下的现代长江三角洲地区,并经历了广泛的潮汐侵蚀。在潮汐沟壑的上部,由于潮汐/风化作用,在以泥质为主的杂岩基底上形成了一系列脊谷结构,这些基底主要由三角洲前缘沉积物组成,其特点是平整、分层反射(层理),并呈浅上趋势。海脊的走向从北向南顺时针旋转,中间的沼泽从一个共同的顶点分叉,这些地貌的两侧是倾斜的、弧形的堤坝状河道填充物,以均质泥浆(声学透明物质)为主。我们将这些特征重新解释为以潮汐为主的三角洲岛和分流河道,而不是之前解释的河口向海部分的侵蚀泥脊,因为它们与在典型的以潮汐为主的三角洲中观察到的模式一致。这些模式还表明,三角洲前沿环境向三角洲平原环境的转变,与海岸线在大约公元前 10 千年的推进相吻合。但在此之前,三角洲出现了后退演化。我们的研究强调了沉积物供应与海平面波动之间的相互作用,它们控制着以潮汐为主的河口系统的大规模地层和环境演变。在古长江入海口,这种相互作用促使江口系统经历了逆退河口、逆退三角洲和顺退三角洲等阶段,每种环境都与现代长江三角洲观察到的模式有很大不同。这项研究为评估其他潮汐沉积系统的演化和层序重建提供了重要的启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Revisiting the stratigraphic development of the postglacial, transgressive paleo-Changjiang (Yangtze River) mouth: A journey from tide-dominated estuary to delta
The transition between a tide-dominated estuary and a tide-dominated delta, which is observed in modern settings and repeatedly throughout the geologic record, is a critical process for understanding sea-level and environmental changes. This transition remains poorly documented, however, leaving a knowledge gap about the sedimentary and stratigraphic processes involved. To help bridge the gap, we reexamined the postglacial transgressive system beneath the modern Changjiang (Yangtze River) Delta, built by one of the world’s largest rivers, using new chirp data supplemented by correlation with previously documented boreholes. Our results revealed a previously undocumented tide-dominated estuary-to-delta transition around the Younger Dryas, with the pretransition evolution dominated by the retrogradation of the tide-dominated estuary, which fills most of the accommodation space in the lowstand incised valley. This transition occurred when the middle and seaward parts of the estuary reached the subaqueous modern Changjiang Delta area and underwent extensive tidal erosion. Overlying the tidal ravinement, a series of ridge-and-swale structures formed due to tidal/fluviotidal channelization on the mud-dominated heterolithic substrate, primarily consisting of delta-front sediments characterized by flat, stratified reflections (bedding) with shallowing-upward trends. Ridge orientation rotates clockwise from north to south, with intervening swales bifurcating from a common apex point, and these features are flanked by inclined and sigmoidal levee-like channel fills dominated by homogeneous mud (acoustically transparent material). We reinterpret these features as tide-dominated delta islands and distributary channels, rather than the previously interpreted erosional mud ridges in the seaward part of the estuary, as they align with patterns observed in classic tide-dominated deltas. These patterns also suggest a shift from delta-front to delta-plain environments coinciding with shoreline advance ca. 10 k.y. B.P., but this was preceded by the evolution of a backstepping delta. Our study highlights the interplay between sediment supply and sea-level fluctuations in controlling the large-scale stratigraphic and environmental evolution of tidal-dominated river mouth systems. In the transgressive, paleo-Changjiang mouth, this interplay drove the system to evolve through stages of retrogradational estuary, backstepping delta, and progradational delta, and each environment differs significantly from the pattern observed in the modern Changjiang Delta. This study provides important insights for evaluating the evolution and sequence-stratigraphic reconstruction of other tidal depositional systems.
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