Slide Stacking: A new mechanism to repeat stratigraphic sequences during gravity-driven extension

IF 2.6 2区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of Structural Geology Pub Date : 2024-06-10 DOI:10.1016/j.jsg.2024.105184
G.I. Alsop , S. Marco , R. Weinberger , T. Levi
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Abstract

Gravity-driven sliding of sediments down subaqueous slopes results in mass transport deposits (MTDs) recognised both in outcrop studies and from offshore margins where they may extend for 100's km. While seismic sections may reveal the large-scale geometry of such features, they fail to capture some of the structural and stratigraphic detail necessary for a fuller understanding of the processes involved. Using the late Pleistocene Lisan Formation sediments exposed around the Dead Sea Basin as our case study, we show that interplay between bed-parallel translational slides and associated normal faults may result in stratigraphic repetition through a process we term ‘slide stacking’. This mechanism, where retrogressive slope failure results in slides cutting across earlier normal faults, produces repeated sequences with older over younger stratigraphic relationships more usually attributed to compressional (thrust) deformation. Slide stacking results in a ∼25% attenuation of the upper sequence above the basal shear surface (BSS), which is itself associated with liquefaction and fluidised sediment. The displaced stratigraphy above the BSS is also marked by sedimentary rafts that are broken into blocks by normal faults and become increasingly separated from one another during downslope translation. The hangingwalls of synthetic listric faults form roll-overs that are progressively tightened towards the underlying BSS to create overturned anticlines that apparently verge upslope. The paradoxical situation therefore arises of contractional geometries, such as older over younger stratigraphic repetition across slides, and upslope-verging recumbent anticlines with locally overturned limbs being created during downslope-directed gravity-driven extension. The downslope margin of the slide stack displays earlier normal faults that created scarps where much of the sedimentary buttress, that would otherwise support the toe of the slide, was removed. Consequently, this leads to predominantly superficial and unrestrained downslope slipping, resulting in very localised contractional geometries that do not balance the overall extension, as in classical gravity-failure models. Localised deformation of the sedimentary sequence that unconformably overlies the slide stack indicates that downslope translation continued after the initial rapid slope failure, suggesting that the entire MTD remained inherently unstable. Slide stacking operates at km scales with stratigraphic repetition governed by the throw of earlier normal faults and the amount of downslope translation.

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滑动堆积:重力驱动延伸过程中重复地层序列的新机制
沉积物在重力作用下沿着水下斜坡滑动,形成了大量迁移沉积(MTDs),在露头研究和近海边缘研究中都得到了证实,这些沉积可能会延伸 100 千米。虽然地震剖面图可以揭示这类地貌的大尺度几何特征,但却无法捕捉到更全面了解相关过程所需的一些结构和地层细节。我们以死海盆地周围出露的晚更新世里桑地层沉积物为案例,展示了床面平行平移滑动与相关正断层之间的相互作用可能会通过我们称之为 "滑动堆积 "的过程造成地层重复。在这种机制下,倒退的斜坡崩塌导致滑坡穿越早期的正断层,从而产生重复的地层序列,其中较老的地层与较年轻的地层之间的关系通常归因于压缩(推力)变形。滑动堆积导致基底剪切面(BSS)以上的上部序列衰减 25%,而基底剪切面本身又与液化和流化沉积物有关。在基底剪切面以上的移位地层中,沉积筏也被正断层分割成块,并在下坡平移过程中逐渐相互分离。合成列状断层的悬壁形成翻滚,并逐渐向下层 BSS 收紧,形成明显向上倾的翻转反斜线。因此,出现了一种自相矛盾的情况,即收缩的几何形状,如较老的地层与较年轻的地层在滑动过程中重复,以及在下坡重力驱动的延伸过程中形成的具有局部翻转肢的上坡倾伏反斜线。滑坡体的下坡边缘显示了早期的正断层,这些断层形成了疤痕,在这些疤痕中,原本支撑滑坡体坡脚的大部分沉积支撑物被移除。因此,这导致了主要是表层和不受约束的下坡滑动,造成了非常局部的收缩几何形状,无法像经典的重力破坏模型那样平衡整体延伸。滑动堆积层上不整合的沉积序列的局部变形表明,在最初的快速斜坡崩塌之后,下坡平移仍在继续,这表明整个 MTD 在本质上仍不稳定。滑动堆积在千米范围内发生作用,地层重复受早期正断层的走向和下坡平移量的影响。
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来源期刊
Journal of Structural Geology
Journal of Structural Geology 地学-地球科学综合
CiteScore
6.00
自引率
19.40%
发文量
192
审稿时长
15.7 weeks
期刊介绍: The Journal of Structural Geology publishes process-oriented investigations about structural geology using appropriate combinations of analog and digital field data, seismic reflection data, satellite-derived data, geometric analysis, kinematic analysis, laboratory experiments, computer visualizations, and analogue or numerical modelling on all scales. Contributions are encouraged to draw perspectives from rheology, rock mechanics, geophysics,metamorphism, sedimentology, petroleum geology, economic geology, geodynamics, planetary geology, tectonics and neotectonics to provide a more powerful understanding of deformation processes and systems. Given the visual nature of the discipline, supplementary materials that portray the data and analysis in 3-D or quasi 3-D manners, including the use of videos, and/or graphical abstracts can significantly strengthen the impact of contributions.
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