Archaeologists have discovered a mysterious L-shaped structure underground in the western cemetery of Giza, Egypt, using remote sensing techniques. The structure, which is at least 33 feet in length, appears to have been filled with sand and is believed to be a mix of sand and gravel or an air void.
The western cemetery contains burials of royal family members and high-ranking officials, and many of their tombs have above-ground rectangular stone or mud-brick structures with flat roofs known as “mastabas.” However, there is an area in the middle of the cemetery where no aboveground structures have been found.
To search for remains in this area, the team used a technique called electrical resistivity tomography (ERT), in which electrical currents are sent into the ground and resistance is measured to detect remains, along with ground-penetrating radar (GPR), a technique that sends radar into the ground and, after it bounces back, maps the underlying structures.
The team found an anomaly roughly 6.5 feet (2 meters) beneath the surface. It appears to be an L-shaped structure measuring at least 33 feet (10 m) in length. From the readings, the L-shaped structure “seems to have been filled with sand, which means it was backfilled after it was constructed,” the team wrote in the study.
The deeper structure was a “highly resistive anomaly” according to the readings, suggesting it could be a mix of sand and gravel, or perhaps an air void. Excavations to determine what the L-shaped structure is are now underway, study first author , a professor in the Center for Northeast Asian Studies at Tohoku University in Japan, told Live Science in an email.
Sato said he is confident that the structure is not a natural phenomenon, as “the shape is too sharp.” , a professor of Egyptology at Harvard University who was not involved in the study, told Live Science in an email that “it’s an interesting area, one that has avoided exploration due to the absence of superstructures.”
There are L-shaped offering chapels at Giza, but these are usually aboveground, he said. “I’m not sure just what this anomaly represents yet, but it is certainly worthy of further exploration.”
The remote sensing work was carried out between 2021 and 2023 by a joint team of scientists from Higashi Nippon International University, Tohoku University, and Egypt’s National Research Institute of Astronomy and Geophysics.