Lithological controls on the timing of strath terrace staircase formation in a collisional mountain belt

IF 2.8 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Jesse R. Zondervan, Martin Stokes, Sarah J. Boulton, Matt W. Telfer, Anne E. Mather, Mhamed A. Belfoul
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Abstract

In mountain belts, strath terrace staircases serve as markers for deriving river incision rates and erosional patterns. Distinguishing between terrace patterns influenced by external perturbations like changes in climate and tectonics and those driven by internal dynamics including feedbacks between topography, erosion and sediment transport remains challenging. We demonstrate that in a collisional mountain belt, lithology can act as a first-order control on the spatial and temporal scales of strath terrace formation. Here, we investigate the role of lithology in modulating internal dynamics and the formation of strath terraces in the Mgoun River catchment of the High Atlas in Morocco, a region characterised by constant low-rate rock uplift, a cyclical cool-warm/arid-humid Quaternary climate history and contrasting bedrock lithologies. By collecting (1) modern river and terrace clast data, (2) bedrock strath and strath-top sediment elevations of four terrace levels, (3) terrace sedimentology and (4) integration with published terrace chronology, we found a dominance of local sediment input from hillslopes, mostly from recycled bedrock conglomerates. Additionally, we found valley width, controlled by the stratigraphic and structural configuration of lithological erodibility, significantly impacts sediment connectivity. The isolation between valleys with varying widths results in varied timescales of river channel response to hillslope coupling, with hillslope-derived stochastic sediment gravity flows preserved in fluvial terraces in some river reaches and not in others. Furthermore, asynchronous terrace formation and abandonment ages result from the low longitudinal river connectivity between multiple valleys formed in erodible rock separated by gorges in high-strength rock. These gorges limit knickpoint migration rates, inhibiting the ability of terraces formed in one valley to spread through the catchment. These findings can inform future research distinguishing between autogenic and external signals in erosional landscapes and help carefully derive river incision rates and climate insights from terraces.

Abstract Image

Abstract Image

岩性对碰撞山地带地层阶梯形成时间的影响
在山地带,地层阶梯是推断河流侵蚀速率和侵蚀模式的标志。如何区分受气候和构造变化等外部扰动影响的阶地模式,以及受内部动力(包括地形、侵蚀和沉积物迁移之间的反馈作用)驱动的阶地模式,仍然具有挑战性。我们的研究表明,在碰撞山地带,岩性对地层阶地形成的空间和时间尺度具有一阶控制作用。在这里,我们研究了岩性在摩洛哥高阿特拉斯地区姆贡河流域内部动力学和地层阶地形成过程中的调节作用,该地区的特点是岩石持续低速率隆起、第四纪气候冷暖/干旱-湿润周期性变化以及基岩岩性对比强烈。通过收集(1)现代河流和阶地碎屑数据,(2)四级阶地的基岩岩层和岩层顶沉积高程,(3)阶地沉积学,(4)与已出版的阶地年代学相结合,我们发现当地沉积物主要来自山坡,其中大部分来自回收的基岩砾岩。此外,我们还发现,山谷宽度受岩性侵蚀的地层和结构构造控制,对沉积物的连通性有重大影响。宽度不同的山谷之间的隔离导致河道对山坡耦合反应的时间尺度不同,山坡产生的随机沉积物重力流在某些河段保留在河流阶地中,而在其他河段则没有。此外,由于在易侵蚀岩石中形成的多个山谷之间的河流纵向连通性较低,而这些山谷又被高强度岩石中的峡谷分隔开来,这就造成了阶地形成和废弃的年龄不同步。这些峡谷限制了节理点的迁移速度,抑制了在一个山谷中形成的阶地向整个流域扩散的能力。这些发现可为今后区分侵蚀地貌中的自生信号和外部信号的研究提供信息,并有助于从梯田中仔细推导出河流侵蚀速率和气候特征。
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来源期刊
Earth Surface Processes and Landforms
Earth Surface Processes and Landforms 地学-地球科学综合
CiteScore
6.40
自引率
12.10%
发文量
215
审稿时长
4 months
期刊介绍: Earth Surface Processes and Landforms is an interdisciplinary international journal concerned with: the interactions between surface processes and landforms and landscapes; that lead to physical, chemical and biological changes; and which in turn create; current landscapes and the geological record of past landscapes. Its focus is core to both physical geographical and geological communities, and also the wider geosciences
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