堤岸强度变化及其对巴西亚马逊河上游系统尺度形态动力学的影响

Geology Pub Date : 2024-04-09 DOI:10.1130/g51862.1
Muriel Z.M. Brückner, R. Aalto, Jim Best, Renato Paes de Almeida, A. Nicholas, Phil Ashworth, Marco Ianniruberto
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摘要

由于侵蚀和沉积过程在地质时间尺度上的作用,大型无支流河流在不同强度的沉积物中形成河道。虽然众所周知河岸强度变化会影响河道形态动力学,但人们对其对大型沙床河流迁移的影响仍然知之甚少。我们首次报告了对索利蒙斯河(巴西马瑙斯上游的亚马逊河)100 公里长河段河岸强度的现场测量结果。测量结果表明,沿河右岸更新世阶地的粘性淤泥的堤岸强度是构成左岸的全新世洪泛平原沉积物的三倍之多。图像分析表明,这些抗性露头决定了河道-河床的动态变化:河道拓宽和河床沉积受到抑制,从而降低了平面曲率,减少了对岸的侵蚀。1984 年至 2021 年对全长 1600 公里的索利蒙斯河进行的平面形态分析表明,在河道与更新世阶地相关的地方,河岸侵蚀和河床沉积的速度明显较低。因此,河岸强度的异质性是世界上最大的低地河流大尺度形态动力学的一阶控制因素。
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Bank strength variability and its impact on the system-scale morphodynamics of the upper Amazon River in Brazil
Large anabranching rivers form channels in sediments of varying strength, resulting from erosional and depositional processes that act over geological time scales. Although bank strength variability is known to affect channel morphodynamics, its impact on the migration of large sand-bed rivers remains poorly understood. We report the first in situ measurements of bank strength from an ∼100-km-long reach of the Solimões River, the Brazilian Amazon River upstream of Manaus. These show that cohesive muds in Pleistocene terraces along the river’s right margin have bank strengths as much as three times greater than Holocene floodplain deposits composing the left bank. Image analysis suggests these resistant outcrops determine channel-bar dynamics: channel widening and bar deposition are inhibited, which lowers planform curvature and reduces erosion of the opposing bank. Planform analysis of the 1600-km-long Solimões River between 1984 and 2021 shows that where the channel is associated with Pleistocene terraces, lower rates of bank erosion and bar deposition are evident. Heterogeneity in bank strength is thus a first-order control on the large-scale morphodynamics of the world’s largest lowland river.
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