Hydrogeology of a landslide: a case study in the Montagne de Reims (Paris basin, France)

IF 1.3 4区工程技术 Q3 ENGINEERING, GEOLOGICAL

Quarterly Journal of Engineering Geology and Hydrogeology Pub Date : 2022-07-21 DOI:10.1144/qjegh2021-041

N. Bollot, Guillaume Pierre, A. Devos, P. Lutz, Sarah Ortonovi

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引用次数: 1

Abstract

Investigations of hydric and hydrogeological mechanisms that contribute to the current reactivation of mass-movements feed predictive models that can be useful for risk management. Ours are based on an approach combining 1/ a large scale analysis of the landforms, using LiDAR imagery and field observations, 2/ a characterization of the groundwater (piezometry, conductivity and temperature), both in the landslide and in the stable slope, and 3/ electrical resistivity profiles. These combined data allow the reconstruction of the structure of the landslide to determine its influence on groundwater flow. The Saint Maur landslide bars the main aquifer of the Upper Ypresian sands whose slow flow results in lower piezometric level fluctuations and stronger mineralization than found in the unconfined aquifer on either side of the slip. The confined aquifer emptying occurs through the sliding plane so that the landslide aquifer is fed essentially by capillary rise from the shear plane and to a lesser extent by surface infiltration. Therefore, the amount of water in the landslide and the resulting probability of mass movement are weakly correlated with rainfall events. In addition, the wide dispersion of the conductivity values of the landslide aquifer reflects a weak mixing of the water. Groundwater circulation modelling allows to correct in situ – i.e. underground – the flows causing reactivations, and confirms stabilization by hydro-geological action to be more efficient than a surface drainage.Thematic collection: This article is part of the Role of water in destabilizing slopes collection available at: https://www.lyellcollection.org/cc/role-of-water-in-destabilizing-slopes

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滑坡的水文地质:以兰斯山(法国巴黎盆地)为例

对有助于当前群众运动重新激活的水文和水文地质机制的调查提供了可用于风险管理的预测模型。我们的方法结合了1/大规模地形分析，使用激光雷达图像和现场观测，2/ a地下水特征(压力测量，电导率和温度)，在滑坡和稳定的斜坡中，以及3/电阻率剖面。这些综合数据可以重建滑坡的结构，以确定其对地下水流动的影响。Saint Maur滑坡阻碍了上波斯砂的主要含水层，其缓慢的流动导致了较低的压力水平波动和较强的矿化，而不是在滑动两侧的无承压含水层中发现的。承压含水层排空通过滑动面发生，因此滑坡含水层主要由剪切面毛细上升供水，少量由地表入渗供水。因此，滑坡水量和由此产生的滑坡体运动概率与降雨事件的相关性较弱。此外，滑坡含水层电导率值的广泛分散反映了水的弱混合。地下水循环模型允许在原地(即地下)纠正引起重新激活的流动，并确认通过水文地质作用稳定比地表排水更有效。专题文集:这篇文章是水在破坏边坡稳定中的作用文集的一部分，可在https://www.lyellcollection.org/cc/role-of-water-in-destabilizing-slopes上找到

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Quarterly Journal of Engineering Geology and Hydrogeology 地学-地球科学综合

CiteScore

3.40

自引率

14.30%

发文量

审稿时长

6 months

期刊介绍： Quarterly Journal of Engineering Geology and Hydrogeology is owned by the Geological Society of London and published by the Geological Society Publishing House. Quarterly Journal of Engineering Geology & Hydrogeology (QJEGH) is an established peer reviewed international journal featuring papers on geology as applied to civil engineering mining practice and water resources. Papers are invited from, and about, all areas of the world on engineering geology and hydrogeology topics. This includes but is not limited to: applied geophysics, engineering geomorphology, environmental geology, hydrogeology, groundwater quality, ground source heat, contaminated land, waste management, land use planning, geotechnics, rock mechanics, geomaterials and geological hazards. The journal publishes the prestigious Glossop and Ineson lectures, research papers, case studies, review articles, technical notes, photographic features, thematic sets, discussion papers, editorial opinion and book reviews.