High-Resolution Geological Information from Crosshole Ground Penetrating Radar in Clayey Tills

IF 1.8 4区 环境科学与生态学 Q3 WATER RESOURCES
Bolette B. Jensen, Louise Rosenberg, Aikaterini Tsitonaki, Nina Tuxen, Poul L. Bjerg, Lars Nielsen, Thomas M. Hansen, Majken C. Looms
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Abstract

Heterogeneous glacial deposits dominate large parts of the Northern Hemisphere. In these landscapes, high-resolution characterization of the geology is crucial for understanding contaminant transport. Geological information is mostly obtained from multiple boreholes drilled during a site investigation, but such point-based data alone do not always provide the required resolution to map small-scale heterogeneity between boreholes. Crosshole ground penetrating radar (GPR) is suggested as a tool for adding credible geological information between boreholes at contaminated site investigations in industrial sites where infrastructure, such as electrical installations, can pose a challenge to other geophysical methods. GPR data are sensitive to the dielectric permittivity and the bulk electrical conductivity, which can be related to the distribution of water content and sand/clay occurrences. Here we present a detailed crosshole GPR dataset collected at an industrial contaminated site in a clay till setting. The data are processed using a novel inversion approach where information on changes in the velocity and attenuation of the radar signal are obtained independently. The GPR results are compared to borehole logs, grain size analyses, and relative permeability data from the site. The GPR data analysis provided valuable information on the understanding of the lateral geological variability. A silt layer with a thickness of a few decimeters, likely important for flow characterization, was confirmed and resolved by GPR data. Our findings suggest that crosshole GPR has the potential for contributing with high-resolution geological information by filling the data gap between boreholes, thereby becoming a relevant tool in contaminated site investigations.

Abstract Image

克雷蒂尔斯井间探地雷达高分辨率地质信息
非均质冰川沉积物主宰着北半球的大部分地区。在这些景观中,高分辨率的地质特征对于理解污染物的运输至关重要。地质信息大多是在现场调查期间从多个钻孔中获得的,但仅凭这些基于点的数据并不总能提供绘制钻孔间小尺度非均质性所需的分辨率。建议使用井间探地雷达(GPR)作为一种工具,在工业场地的污染现场调查中,在电力设施等基础设施可能对其他地球物理方法构成挑战的情况下,在钻孔之间添加可信的地质信息。GPR数据对介电常数和体电导率很敏感,这可能与含水量和砂/粘土赋存的分布有关。在这里,我们提出了一个详细的井间探地雷达数据集收集在一个工业污染现场的粘土直到设置。数据的处理采用了一种新的反演方法,在这种方法中,雷达信号的速度变化和衰减信息是独立获得的。将GPR结果与井眼测井、粒度分析和现场相对渗透率数据进行比较。探地雷达数据分析为了解横向地质变异性提供了有价值的信息。一层厚度为几分米的粉砂层,可能对流动特性很重要,并通过探地雷达数据进行了确认和解析。我们的研究结果表明,井间探地雷达有可能通过填补钻孔之间的数据空白来提供高分辨率的地质信息,从而成为污染现场调查的相关工具。
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来源期刊
CiteScore
3.30
自引率
10.50%
发文量
60
审稿时长
>36 weeks
期刊介绍: Since its inception in 1981, Groundwater Monitoring & Remediation® has been a resource for researchers and practitioners in the field. It is a quarterly journal that offers the best in application oriented, peer-reviewed papers together with insightful articles from the practitioner''s perspective. Each issue features papers containing cutting-edge information on treatment technology, columns by industry experts, news briefs, and equipment news. GWMR plays a unique role in advancing the practice of the groundwater monitoring and remediation field by providing forward-thinking research with practical solutions.
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