利用探地雷达、电阻率层析成像测量和景观剖面进行景观测绘

IF 0.9 Q4 GEOSCIENCES, MULTIDISCIPLINARY
V. Matasov, S. Bricheva, A. Bobachev, I. Mironenko, Anton V Fedin, V. Sysuev, Lyudmila A Zolotaya, Sergey B Roganov
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引用次数: 0

摘要

这项工作的目的是验证和纠正两个景观之间的边界-冰碛和冲积平原-早先划定的经典景观方法。由于外冲地貌中热岩溶坳陷的出现,对边界的初步解释引起了争议。岩性结构是景观分异的主要因素之一。经典的方法包括钻井来获取岩性和沉积数据。然而,钻孔通常很浅,而地球物理方法可以更深入地观察地下,并提高我们对岩性结构和地层学的认识。在本研究中,我们使用峰值频率为250和50 MHz的探地雷达和详细的电阻率层析成像(电极间距为1 m),以及景观测绘和钻孔来校正景观边界位置。我们认为,它主要是由位于7 m深度的泥质冰碛沉积物和砂质冲积沉积物的岩性复合体之间的地下边界所定义的。将边界从当前位置向东北移动70-100米,消除了不一致性,并澄清了该地区第四纪的形成历史。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Landscape mapping using ground-penetrating radar, electrical resistivity tomography survey and landscape profiling
This work aims to verify and correct the boundary between two landscapes—moraine and outwash plain—delineated earlier by the classical landscape approach. The initial interpretation of the boundary caused controversy due to the appearance of the thermokarst depression in the outwash landscape. The lithological structure is one of the main factors of landscape differentiation. The classical approach includes drilling to obtain the lithological and sedimentary data. However, the boreholes are usually shallow, while geophysical methods allow to look deeper into the subsurface and improve our knowledge about lithological structure and stratigraphy. In this study, we use ground-penetrating radar with a peak frequency of 250 and 50 MHz and detailed electrical resistivity tomography (with 1 m electrode spacing) in addition to the landscape mapping and drilling to correct the landscape boundary position. We conclude that it is primarily defined by the subsurface boundary between lithological complexes of clayish moraine deposits and sandy outwash deposits located at 7 m depth. Moving the boundary to the northeast by 70–100 m from the current position removes inconsistencies and clarifies the history of the area's formation in the Quaternary.
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来源期刊
AIMS Geosciences
AIMS Geosciences GEOSCIENCES, MULTIDISCIPLINARY-
自引率
7.70%
发文量
31
审稿时长
8 weeks
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