新西兰塔拉纳基盆地,因山体滑坡填充而重置的海底河道蜿蜒曲折

IF 1.9 3区 地球科学 Q1 GEOLOGY Depositional Record Pub Date : 2024-02-01 DOI:10.1002/dep2.267
Jacob A. Covault, Zoltán Sylvester, Dallas B. Dunlap
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引用次数: 0

摘要

山体滑坡是地球上最大的大规模运动之一。因此,山体滑坡的沉积物,也称为大规模运输沉积物,是大陆边缘的重要建筑元素,特别是那些接受来自大型三角洲的沉积物的大陆边缘。事实证明,滑坡大坝可以改变河流和海底河道的走向。然而,完全填满海底河道的滑坡以及随后地层演变的实例较少。我们利用新西兰北岛近海塔拉纳基盆地的三维地震反射数据集(1500 米)来探索河道沉积序列对滑坡填充的反应。基底河道系统最初像河流一样蜿蜒曲折,连续的河道位置非常接近,双向移动时间大于 250 毫秒。这种有系统、有组织的演化受早期河道演化记忆的支配,它确定了引导河道形成浊流的海底地貌。后来,一条宽约为下层水道两倍的水道切断了一些水道弯道,这可能是水道形成浊流的排水量增加的结果。最后这条河道被海底滑坡填满,根据由混乱的、振幅较低的地震面组成的基质中存在的块体,这些滑坡以泥石流的形式搬运和沉积沉积物。这些泥石流沉积物使海底变得平滑,有效地抹去了河道演变的记忆。因此,随后的河道模式与基底系统毫无相似之处。在新西兰近海等海盆边缘经常发生灾难性坍塌的地区,通过山体滑坡填充重置海底河道的现象非常普遍。
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Submarine-channel meandering reset by landslide filling, Taranaki Basin, New Zealand

Landslides are among the largest mass movements on Earth. As such, the deposits of landslides, also known as mass-transport deposits, are significant architectural elements of continental margins, especially those receiving sediment from large deltas. Landslide dams have been shown to alter the courses of rivers and submarine channels. However, there are fewer examples of landslides completely filling submarine channels and examples of the subsequent stratigraphic evolution. A three-dimensional seismic-reflection dataset (<90 Hz) from the deep-water (>1500 m) Taranaki Basin, offshore the North Island of New Zealand, was used to explore the response of a sequence of channel deposits to landslide filling. The basal channel system initially meandered like a river, with successive channel positions in close proximity, as it aggraded >250 ms two-way travel time. This systematic, organised evolution is governed by the memory of early channel evolution, which sets the sea floor geomorphology that guides channel-forming turbidity currents. Later, a channel approximately twice as wide as underlying channels cut off a number of channel bends, probably as a result of an increase in the discharge of channel-forming turbidity currents. This last channel was filled with submarine landslides, which transported and deposited sediment as debris flows based on the presence of blocks within a matrix comprising chaotic, lower amplitude seismic facies. These debris-flow deposits smoothed over the sea floor, effectively wiping the memory of channel evolution. As a result, the subsequent channel pattern bears no resemblance to the basal system. Submarine-channel resetting by landslide filling is common in settings with frequent catastrophic basin-margin collapses, like offshore New Zealand.

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来源期刊
CiteScore
4.10
自引率
16.70%
发文量
42
审稿时长
16 weeks
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