Drainage rearrangement in an intra-continental mountain belt: A case study from the central South Tian Shan, Kyrgyzstan

IF 2.8 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL
Lingxiao Gong, Peter van der Beek, Taylor F. Schildgen, Edward R. Sobel, Simone Racano, Apolline Mariotti
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Abstract

Abstract. Fluvial drainage patterns in orogenic belts reflect the interaction between tectonics, climate, and lithology. The central South Tian Shan displays a complex fluvial drainage pattern that shifts from longitudinal (flowing parallel to mountain ranges) in the west to transverse (flowing across ranges) in the east. Whether such drainage patterns reflect underlying patterns of tectonic deformation, lithology, climatic changes, or the influence of surface processes within a drainage basin is often unclear. We focus here on the anomalously large Saryjaz catchment of SE Kyrgyzstan, which marks the transition between longitudinal and transverse drainage. We analyse topographic and fluvial metrics including slope, river steepness (ksn) and the integral proxy χ along the river profile, and map the spatial distribution and characteristics of knickpoints to discern the possible controls on the observed drainage pattern. We discriminate between knickpoints of different origin: tectonic, lithologic, glacial, and those linked to transient waves of incision. We find a series of transient knickpoints in tributaries downstream of a sharp 180ᵒ bend in the main stem of the Saryjaz River, which also marks a striking increase in channel steepness. Both observations indicate accelerated incision along this lower reach of the catchment. Knickpoint elevations decrease downstream, whereas incision depth, χ values of knickpoints (measured from the tributary junctions) and ksn values and ratios are constant among tributaries. These results suggest that incision is driven “top-down” by a large-magnitude river-capture event rather than “bottom-up” by base-level fall. We estimate an erodibility parameter from 10Be derived catchment-average denudation rates and use this to estimate the celerity of knickpoints. We find that the knickpoints started retreating at a similar time, between ca. 1.5 and 4.4 Myr ago. Considering the river patterns and the timing constraints, we suggest that this capture event was likely driven by the overfill of Neogene intermontane basins, potentially affected by both tectonic and climate factors.
大陆内部山地带的排水重排:吉尔吉斯斯坦南天山中部案例研究
摘要。造山带的冲积排水模式反映了构造、气候和岩性之间的相互作用。南天山中部显示出复杂的冲积排水模式,从西部的纵向(与山脉平行流动)到东部的横向(跨越山脉流动)。这种排水模式是反映了构造变形、岩性、气候变化的基本模式,还是反映了排水盆地内地表过程的影响,目前还不清楚。在此,我们将重点放在吉尔吉斯斯坦东南部异常大的 Saryjaz 流域,它标志着纵向排水和横向排水之间的过渡。我们分析了地形和河道指标,包括坡度、河流陡度(ksn)和沿河流剖面的积分代用指标χ,并绘制了节理点的空间分布图和特征图,以确定观察到的排水模式的可能控制因素。我们对不同起源的节理点进行了区分:构造节理点、岩性节理点、冰川节理点以及与瞬时切入波相关的节理点。我们在萨里亚兹河主干 180ᵒ急弯下游的支流中发现了一系列瞬时断裂点,这也标志着河道陡度的显著增加。这两项观测结果表明,汇水区下游的河道加速了侵蚀。节理点的海拔高度顺流而下,而切入深度、节理点的χ 值(从支流交界处测量)以及 ksn 值和比率在各支流之间保持不变。这些结果表明,侵蚀是由 "自上而下 "的大尺度河流捕获事件驱动的,而不是由 "自下而上 "的基面下降驱动的。我们根据 10Be 推算出的流域平均剥蚀率估算出一个侵蚀性参数,并以此估算出节理点的速度。我们发现,节理点开始后退的时间相近,大约在 1.5 至 4.4 百万年前。考虑到河流模式和时间限制,我们认为这一捕获事件很可能是由新近纪山间盆地的过度填充驱动的,可能同时受到构造和气候因素的影响。
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来源期刊
Earth Surface Dynamics
Earth Surface Dynamics GEOGRAPHY, PHYSICALGEOSCIENCES, MULTIDISCI-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
5.40
自引率
5.90%
发文量
56
审稿时长
20 weeks
期刊介绍: Earth Surface Dynamics (ESurf) is an international scientific journal dedicated to the publication and discussion of high-quality research on the physical, chemical, and biological processes shaping Earth''s surface and their interactions on all scales.
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