Archaeological Investigation and Hazard Assessment Using Magnetic, Ground-Penetrating Radar, and GPS Tools at Dahshour Area, Giza, Egypt

Emam, A. E. El; Lethy, Ahmed; Radwan, Ali M.; Awad, A.

doi:10.3389/feart.2021.674953

Front. Earth Sci.

2021

DOI: 10.3389/feart.2021.674953

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Archaeological Investigation and Hazard Assessment Using Magnetic, Ground-Penetrating Radar, and GPS Tools at Dahshour Area, Giza, Egypt

A. E. El Emam

Ahmed Lethy

Ali M. Radwan

et al.

Abstract: An archeological study using magnetic and ground-penetrating radar methods has been performed at the Dahshour region (Giza, Egypt), where various covered structures have not been found because of the long coercion of the zone under the military specialists. Dahshour is the southern extension of the Saqqara and Giza Pyramids plateau, around 25 km south of Cairo. The area is known for its colored pyramids—the white, red, and black pyramids, and the famous Bent Pyramid. Four investigation sites were chosen around… Show more

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Cited by 4 publications

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Ground Penetration Radar and Magnetic Surveys for Archaeogeophysical Prospecting at the Seti I Temple at Abydos, Sohag, Egypt

Abudeif,

Abdel Aal,

Peláez

et al. 2024

Archaeological Prospection

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This paper presents an archaeogeophysical prospection in Abydos, a rich archaeological site including royal monuments and tombs from multiple periods of Ancient Egypt. Abydos is the most important burial site of ancient Egypt, having a history extending back about 7500 years. Near‐surface geophysical techniques, particularly ground magnetic and ground‐penetrating radar (GPR) surveys, have been used to discover hidden ancient archaeological objects that will help with the site's long‐term development. The main objective of this work was the depth estimation and geometry determination of the buried archaeological objects southwest Seti I temple, such as walls, tombs and other features. A proton‐precession magnetometer (G‐857) and an SIR‐4000 equipment with an antenna of 200 MHz were used as instrumentation for the magnetic and GPR surveys, respectively. A final output is a total magnetic intensity (TMI) anomaly map, which has undergone extensive filtering to separate the residual components related to the shallow objects that could potentially serve as archaeological targets from the regional components of the deeper anomalies. Depth was estimated using source parameter imaging and 3D Euler deconvolution. The qualitative interpretation of the obtained magnetic maps reveals that there are clusters of anomalies that could indicate archaeological remains. On the other hand, the GPR findings reveal the presence of reflection hyperbolae within the measured profiles coinciding with the magnetic anomalies, supporting the probable existence of archaeological buried objects, which need to be confirmed by excavation. The main depths of these objects range approximately between 1 and 3 m. Our results bring new light on yet uninvestigated archaeological features at Abydos, paving the road to renewed archaeological research in this area.

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Ground Penetration Radar and Magnetic Surveys for Archaeogeophysical Prospecting at the Seti I Temple at Abydos, Sohag, Egypt

Abudeif,

Abdel Aal,

Peláez

et al. 2024

Archaeological Prospection

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Detection of Archaeological Ruins Using Integrated Geophysical Surveys at the Pyramid of Senusret II, Lahun, Fayoum, Egypt

Saleh

Emam

et al. 2022

Pure Appl. Geophys.

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Geophysical surveys were conducted in the Lahun area (Fayoum, Egypt). The Lahun area is known to have been the royal necropolis during the period of Senusret II (1897–1878 BC), where he built his pyramid. Integrated magnetic and gravity measurements were applied to investigate five locations in the area. The gravity survey was implemented in the areas where chambers, shafts, or cavity-like structures are expected, and magnetic survey was applied in the areas where mudbrick structures are expected. The magnetic survey was conducted using a Geoscan fluxgate gradiometer, whereas the gravity survey was conducted using a Scintrex CG-5 gravimeter. The geophysical survey successfully revealed anomalies that could be part of the trench between the Queen’s Pyramid and the Senusret II Pyramid, several pits in the eastern and southern sides of Senusret II Pyramid, two chambers that could be royal tombs, and the remains of three large mudbrick structures that could be ancient warehouses.

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Archaeogeophysical investigation using magnetic and GPR surveys at Tal-Baltus, Menofia Governorate, Egypt

et al. 2023

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Archaeological Investigation and Hazard Assessment Using Magnetic, Ground-Penetrating Radar, and GPS Tools at Dahshour Area, Giza, Egypt

Cited by 4 publications

References 20 publications

Ground Penetration Radar and Magnetic Surveys for Archaeogeophysical Prospecting at the Seti I Temple at Abydos, Sohag, Egypt

Ground Penetration Radar and Magnetic Surveys for Archaeogeophysical Prospecting at the Seti I Temple at Abydos, Sohag, Egypt

Detection of Archaeological Ruins Using Integrated Geophysical Surveys at the Pyramid of Senusret II, Lahun, Fayoum, Egypt

Archaeogeophysical investigation using magnetic and GPR surveys at Tal-Baltus, Menofia Governorate, Egypt

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