Combining Instrumental Monitoring and High-Resolution Topography for Estimating Sediment Yield in a Debris-Flow Catchment

IF 1 4区 工程技术 Q4 ENGINEERING, ENVIRONMENTAL Environmental & Engineering Geoscience Pub Date : 2021-02-01 DOI:10.2113/EEG-D-20-00025
V. Coviello, J. Theule, S. Crema, M. Arattano, F. Comiti, M. Cavalli, A. Lucía, P. Macconi, L. Marchi
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引用次数: 11

Abstract

In mountain basins, long-term instrumental monitoring coupled with high-resolution topographic surveys can provide important information on sediment yield. The Gadria catchment, located in the eastern Italian Alps, typically features several low-magnitude flood episodes and a few debris-flow events per year, from late spring to late summer. Beginning in 2011, sensors devoted to debris-flow detection (geophones, video cameras, flow stage sensors) were installed along the main channel, upstream of a retention basin. In case of debris flows, high-resolution topographical surveys of the retention basin are carried out multiple times per year. Rainfall is measured in the lower part of the catchment and at the headwaters, while passive integrated transponder tracing of bedload was performed in the main channel during spring and summer 2014. In this work, we present the reconstruction of the sediment dynamics at the catchment scale from 2011 to 2017. Results show that (i) coarse sediment yield is dominated by the few debris flows occurring per year; (ii) debris-flow volume estimations may be significantly different—up to 30 percent lower—when performed through a digital elevation model of difference analysis, compared to the time-integration of the debris-flow discharge estimates; (iii) using this latter method, the volumes are affected by significant uncertainties, particularly for small values of flow depth; and (iv) rainfall analysis permits us to characterize debris-flow initiation but also highlights difficulties in discriminating triggering from non-triggering rainstorms if based on rainfall duration and intensity only.
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结合仪器监测和高分辨率地形估算泥石流流域的产沙量
在山区盆地,长期仪器监测与高分辨率地形调查相结合可以提供有关产沙量的重要信息。加德里亚集水区位于意大利阿尔卑斯山东部,从春末到夏末,每年都会发生几次低强度的洪水和一些泥石流事件。从2011年开始,专门用于泥石流检测的传感器(检波器、摄像机、流级传感器)被安装在保留盆地上游的主河道上。在泥石流的情况下,每年对截留盆地进行多次高分辨率地形调查。2014年春夏,在流域下游和源头进行了降水测量,在主河道进行了被动综合应答器追踪河床荷载。在这项工作中,我们重建了2011 - 2017年流域尺度上的泥沙动态。结果表明:(1)粗沙产量以年发生的少量泥石流为主;(ii)与泥石流排放估算的时间积分相比,通过差异分析的数字高程模型进行的泥石流体积估算可能存在显著差异——最多可低30%;(iii)使用后一种方法,体积受到重大不确定性的影响,特别是对于小的流深值;(iv)降雨分析使我们能够描述泥石流的起始,但也突出了仅根据降雨持续时间和强度区分触发性和非触发性暴雨的困难。
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来源期刊
Environmental & Engineering Geoscience
Environmental & Engineering Geoscience 地学-地球科学综合
CiteScore
2.10
自引率
0.00%
发文量
25
审稿时长
>12 weeks
期刊介绍: The Environmental & Engineering Geoscience Journal publishes peer-reviewed manuscripts that address issues relating to the interaction of people with hydrologic and geologic systems. Theoretical and applied contributions are appropriate, and the primary criteria for acceptance are scientific and technical merit.
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