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Scientists Devise New Method for Recovering DNA from Pharaonic Mummies

A picture taken on May 13, 2017, shows mummies lying in catacombs following their discovery in the Touna el-Gabal district of the Minya province, in central Egypt. AFP
A picture taken on May 13, 2017, shows mummies lying in catacombs following their discovery in the Touna el-Gabal district of the Minya province, in central Egypt. AFP
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Scientists Devise New Method for Recovering DNA from Pharaonic Mummies

A picture taken on May 13, 2017, shows mummies lying in catacombs following their discovery in the Touna el-Gabal district of the Minya province, in central Egypt. AFP
A picture taken on May 13, 2017, shows mummies lying in catacombs following their discovery in the Touna el-Gabal district of the Minya province, in central Egypt. AFP

Archeologists have many objections when it comes to the examination of Pharaonic mummies, and the most common one is that certain types of studies could damage the mummies. Today, a joint Italian-German study has addressed this problem. The findings will be published in the upcoming issue of the Journal of Archaeological Science in June.

According to the study's abstract published on the journal's website, researchers from the Institute for Mummy Studies at Eurac Research in Bolzano, Italy, and the Department of Orthopedics at the University of Bayreuth, Germany, announced a novel method that enables archeologists to recover DNA from mummies wrapped in linen with minimal invasion, by using CT scans and endoscopic biopsy.

The bone marrow is one of the main DNA resources in ancient mummies. But the traditional DNA recovery procedures may cause some damages, like when archeologists need to lift the linen covers. However, with CT scans, the researchers managed to determine the location of bones, and then, they conducted an endoscopic biopsy to extract a small sample of the targeted tissue.

Unlike the regular scans which require dense muscles and tissues that cannot be found in mummies, the CT scan allows archeologists to capture 3D high resolution images of the mummy. The new method uses the so-called small optical fiberscope, a thin tube equipped with a tiny camera on one end, and the eye of the fiberscope on the other end, which allows examining the structural composition inside the mummy. During the procedure, special tools are passed through the tube to extract a tiny sample of the targeted tissue.

The research team used the new method to examine a group of mummies in the Museum of Cairo, and the Egyptian Museum of Berlin.

Dr. Ayman Taher, professor of Egyptology at the Mansoura University praised the new technique that combines CT scans and small optical fiberscopes. Speaking to Asharq Al-Awsat, Taher suggested the new technique would be really useful for the examination of mummies with bad embalmment, and hoped it would help reveal more information about ancient Pharaonic diseases.

"We need to compare the characteristics of ancient diseases mentioned in the Pharaonic papyruses with the characteristics of modern diseases in order to determine their history. For instance, the worm disease was called "A'A'" in Ancient Egypt, but we don't know whether the name also refers to Bilharzia," he explained.

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World's Glaciers are Losing Record Ice as Global Temperatures Climb, UN Says

(FILES) Alpinists climb the "Voie royale", way to go to the Mont-Blanc to the top of the glacier of Tete Rousse, a 3.200 meter peak in the French Alps, on June 30, 2011. (Photo by JEAN-PIERRE CLATOT / AFP)
(FILES) Alpinists climb the "Voie royale", way to go to the Mont-Blanc to the top of the glacier of Tete Rousse, a 3.200 meter peak in the French Alps, on June 30, 2011. (Photo by JEAN-PIERRE CLATOT / AFP)
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World's Glaciers are Losing Record Ice as Global Temperatures Climb, UN Says

(FILES) Alpinists climb the "Voie royale", way to go to the Mont-Blanc to the top of the glacier of Tete Rousse, a 3.200 meter peak in the French Alps, on June 30, 2011. (Photo by JEAN-PIERRE CLATOT / AFP)
(FILES) Alpinists climb the "Voie royale", way to go to the Mont-Blanc to the top of the glacier of Tete Rousse, a 3.200 meter peak in the French Alps, on June 30, 2011. (Photo by JEAN-PIERRE CLATOT / AFP)

Glaciers around the globe are disappearing faster than ever, with the last three-year period seeing the largest glacial mass loss on record, according to a UNESCO report released on Friday.

The 9,000 gigatons of ice lost from glaciers since 1975 are roughly equivalent to "an ice block the size of Germany with the thickness of 25 meters," Michael Zemp, director of the Switzerland-based World Glacier Monitoring Service, said during a press conference announcing the report at the UN headquarters in Geneva.

The dramatic ice loss, from the Arctic to the Alps, from South America to the Tibetan Plateau, is expected to accelerate as climate change, caused by the burning of fossil fuels, pushes global temperatures higher. This would likely exacerbate economic, environmental and social problems across the world as sea levels rise and these key water sources dwindle.

The report coincides with a UNESCO summit in Paris marking the first World Day for Glaciers, urging global action to protect glaciers around the world, Reuters said.

Zemp said that five of the last six years registered the largest losses, with glaciers losing 450 gigatons of mass in 2024 alone.

The accelerated loss has made mountain glaciers one of the largest contributors to sea level rise, putting millions at risk of devastating floods and damaging water routes that billions of people depend on for hydroelectric energy and agriculture.

Stefan Uhlenbrook, the director of water and cryosphere at the World Meteorological Organization (WMO), said that about 275,000 glaciers remain globally which, along with the Antarctic and Greenland ice sheets, comprise about 70% of the world's freshwater.

"We need to advance our scientific knowledge, we need to advance through better observing systems, through better forecasts and better early warning systems for the planet and the people," Uhlenbrook said.

DANGERS AND DEITIES

About 1.1 billion people live in mountain communities, which suffer the most immediate impacts of glacier loss, due to the increasing risks with natural hazards and unreliable water sources. The remote locations and difficult terrains also make cheap fixes difficult to come by.

Rising temperatures are expected to worsen droughts in areas that rely on snowpack for freshwater, while increasing both the severity and frequency of hazards like avalanches, landslides, flash floods and glacial lake outburst floods (GLOFs).

One Peruvian farmer living downstream of a retreating glacier has taken the issue to court, suing German energy giant RWE for a portion of the glacial lake's flood defenses proportionate to its historic global emissions.

"The changes we see in the field are literally heartbreaking," glaciologist Heidi Sevestre, secretariat at the Arctic Monitoring and Assessment Program, told Reuters outside the UNESCO headquarters in Paris on Wednesday.

"Things in certain regions are happening actually much faster than we anticipated," Sevestre added, noting a recent trip to the Rwenzori Mountains, located in Uganda and the Democratic Republic of the Congo in East Africa, where glaciers are now expected to disappear by 2030.

Sevestre has worked with the region's indigenous Bakonzo communities who believe a deity called Kitasamba lives in the glaciers.

"Can you imagine the deep spiritual connection, this strong attachment they have towards the glaciers and what it might mean for them that their glaciers are disappearing?" Sevestre said.

Glacial melt in East Africa has led to increased local conflicts over water, according to the new UNESCO report, and while the impact on a global scale is minimal, the trickle of melting glaciers around the world is having a compounding impact.

Between 2000 and 2023, melting mountain glaciers have caused 18 millimeters of global sea level rise, about 1 mm per year. Every millimeter can expose up to 300,000 people to annual flooding, according to the World Glacier Monitoring Service.

"Billions of people are connected to glaciers, whether they know it or not, and that will require billions of people to protect them," Sevestre said.