GPR and ERT Exploration in the Western Cemetery in Giza, Egypt

IF 2.1 3区 地球科学 0 ARCHAEOLOGY
Motoyuki Sato, Ryuma Saito, Abbas Mohamed Abbas, Hany Mesbah, Ayman Taha, Wael R. Gaweish, Mohamed Aldeep, Ahmed M. Ali, Hiromasa Kurokouchi, Kazumitsu Takahashi, Gad El-Qady, Sakuji Yoshimura
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Abstract

A geophysical exploration employing ground-penetrating radar (GPR) and electrical resistivity tomography (ERT) was conducted at the Western Cemetery, Giza, Egypt, in 2021–23 by a joint research team of Higashi Nippon International University, Tohoku University and the National Research Institute of Astronomy and Geophysics (NRIAG), Helwan, Egypt. We believe we found an anomaly: a combination of a shallow structure connected to a deeper structure. The shallow structure, which is L-shaped in the horizontal plane, 10 m by 10 m, was clearly imaged by GPR. It seems to have been filled with sand, which means it was backfilled after it was constructed. It may have been an entrance to the deeper structure. Its depth is of up to 2 m, measured from the ground surface. Below this structure, ERT reveals a highly electrically resistive anomaly, which extends over an area of about 10 m by 10 m. The depth of the structure is about 5–10 m below the surface. Electrically resistive material in a sand dune can be a mixture of sand and gravel, including sparse spacing or air voids within it. Neither GPR nor ERT could identify the properties of the anomaly.

Abstract Image

埃及吉萨西部墓地的 GPR 和 ERT 勘探
2021 年至 2023 年,东日本国际大学、东北大学和埃及赫勒万国家天文和地球物理研究所 (NRIAG)的联合研究小组在埃及吉萨西部墓地进行了一次地球物理勘探,采用了地面穿透雷达 (GPR)和电阻率层析成像(ERT)技术。我们认为我们发现了一个异常现象:浅层结构与深层结构相连的组合。浅层结构在水平面上呈 L 形,10 米乘 10 米,GPR 对其进行了清晰成像。它似乎被沙子填满,这意味着它是在建成后被回填的。它可能是通往更深结构的入口。从地表测量,其深度可达 2 米。在这个结构的下面,ERT 发现了一个高电阻异常点,面积约为 10 米乘 10 米。沙丘中的电阻物质可能是沙子和砾石的混合物,其中包括稀疏的间距或空隙。无论是 GPR 还是 ERT 都无法确定异常点的性质。
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来源期刊
Archaeological Prospection
Archaeological Prospection 地学-地球科学综合
CiteScore
3.90
自引率
11.10%
发文量
31
审稿时长
>12 weeks
期刊介绍: The scope of the Journal will be international, covering urban, rural and marine environments and the full range of underlying geology. The Journal will contain articles relating to the use of a wide range of propecting techniques, including remote sensing (airborne and satellite), geophysical (e.g. resistivity, magnetometry) and geochemical (e.g. organic markers, soil phosphate). Reports and field evaluations of new techniques will be welcomed. Contributions will be encouraged on the application of relevant software, including G.I.S. analysis, to the data derived from prospection techniques and cartographic analysis of early maps. Reports on integrated site evaluations and follow-up site investigations will be particularly encouraged. The Journal will welcome contributions, in the form of short (field) reports, on the application of prospection techniques in support of comprehensive land-use studies. The Journal will, as appropriate, contain book reviews, conference and meeting reviews, and software evaluation. All papers will be subjected to peer review.
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