Assessment of plot-scale sediment transport on young moraines in the Swiss Alps using a fluorescent sand tracer

IF 5.7 1区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Hydrology and Earth System Sciences Pub Date : 2023-12-22 DOI:10.5194/hess-27-4609-2023

Fabian Maier, Florian Lustenberger, Ilja van Meerveld

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Abstract

Abstract. Glacial retreat uncovers large bodies of unconsolidated sediment that are prone to erosion. However, our knowledge of overland flow (OF) generation and sediment transport on moraines that have recently become ice-free is still limited. To investigate how the surface characteristics of young moraines affect OF and sediment transport, we installed five bounded runoff plots on two moraines of different ages in a proglacial area of the Swiss Alps. On each plot we conducted three sprinkling experiments to determine OF characteristics (i.e., total OF and peak OF flow rate) and measured sediment transport (turbidity, sediment concentrations, and total sediment yield). To determine and visualize where sediment transport takes place, we used a fluorescent sand tracer with an afterglow as well as ultraviolet (UV) and light-emitting diode (LED) lamps and a high-resolution camera. The results highlight the ability of this field setup to detect sand movement, even for individual fluorescent sand particles (300–500 µm grain size), and to distinguish between the two main mechanisms of sediment transport: OF-driven erosion and splash erosion. The higher rock cover on the younger moraine resulted in longer sediment transport distances and a higher sediment yield. In contrast, the higher vegetation cover on the older moraine promoted infiltration and reduced the length of the sediment transport pathways. Thus, this study demonstrates the potential of the use of fluorescent sand with an afterglow to determine sediment transport pathways as well as the fact that these observations can help to improve our understanding of OF and sediment transport processes on complex natural hillslopes.

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利用荧光砂示踪剂评估瑞士阿尔卑斯山年轻冰碛上的地块尺度沉积物迁移

摘要。冰川退缩会揭露大量容易受到侵蚀的未固结沉积物。然而，我们对新近无冰的冰碛的陆地流（OF）产生和沉积物迁移的了解仍然有限。为了研究年轻冰碛的表面特征如何影响陆地流和沉积物迁移，我们在瑞士阿尔卑斯山冰川地区的两块不同年龄的冰碛上设置了五个有界径流地块。我们在每个地块上进行了三次洒水实验，以确定径流特征（即总径流量和峰值径流量），并测量沉积物迁移（浊度、沉积物浓度和总沉积物量）。为了确定和观察沉积物迁移的位置，我们使用了一种带余辉的荧光沙示踪剂、紫外线 (UV) 灯、发光二极管 (LED) 灯和高分辨率照相机。结果表明，这种野外装置能够检测沙子的运动，甚至是单个荧光沙粒（粒径 300-500 微米）的运动，并区分沉积物迁移的两种主要机制：OF 驱动侵蚀和飞溅侵蚀。年轻冰碛上较高的岩石覆盖率导致了较长的沉积物迁移距离和较高的沉积物产量。相比之下，老冰碛上较高的植被覆盖率促进了渗透，减少了沉积物迁移路径的长度。因此，这项研究证明了使用带余辉的荧光砂来确定沉积物运移路径的潜力，同时也证明了这些观测结果有助于提高我们对复杂自然山坡的OF和沉积物运移过程的认识。

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来源期刊

Hydrology and Earth System Sciences 地学-地球科学综合

CiteScore

10.10

自引率

7.90%

发文量

273

审稿时长

15 months

期刊介绍： Hydrology and Earth System Sciences (HESS) is a not-for-profit international two-stage open-access journal for the publication of original research in hydrology. HESS encourages and supports fundamental and applied research that advances the understanding of hydrological systems, their role in providing water for ecosystems and society, and the role of the water cycle in the functioning of the Earth system. A multi-disciplinary approach is encouraged that broadens the hydrological perspective and the advancement of hydrological science through integration with other cognate sciences and cross-fertilization across disciplinary boundaries.