Siberia's growing gateway to hell crater sparks climate fears

In the heart of Siberia lies an enormous sinkhole—the Batagaika Crater, also known as the "gateway to hell." The sinkhole was initially small, but over time, it has grown to such a size that it is visible even from space. Satellite images reveal the rapid expansion of the fissure. According to the U.S. Geological Survey, the size of the sinkhole tripled between 1991 and 2018.

Batagaika Crater is a thermokarst depression in the Chersky Range area of Siberia, recognized as the largest such depression on Earth. It was first noticed in secret satellite images from the 1960s. At that time, it was just a small crack, which changed over time. Scientists believe this is due to the melting of permafrost and the rapid warming of the Arctic.

This phenomenon highlights the climate crisis and the potentially catastrophic effects of further increases in greenhouse gas emissions. Roger Michaelides, a geophysicist from Washington University in St. Louis, admitted that permafrost is not the most photogenic subject. Still, Batagaika Crater as the "permafrost celebrity" is an important reminder of the coming changes.

Scientists study Siberia's "gateway to hell"

A study published in the journal Geomorphology used data from satellites and drones to build three-dimensional models of the sinkhole and calculate its rate of expansion. It turned out that the volume of the sinkhole increases every year by about 35 million cubic feet, which approximates the volume of 14 Great Pyramids of Giza. Additionally, the mega-sinkhole emits approximately 4,500 to 5,500 tons of carbon annually, which is equivalent to the annual emissions from home energy use in 1,700 to 2,100 American households.

Alexander Kizyakov, the study's lead author and a scientist at Lomonosov Moscow State University, emphasizes the speed at which permafrost degradation is progressing. Scientists believe the study's results could contribute to better modeling future permafrost melt and greenhouse gas emissions.

Roger Michaelides believes that studying the Batagaika Crater can help us understand how it will evolve and provide information about similar formations in the Arctic. Understanding the fundamental physical phenomena underlying such formations is crucial in the context of global climate change.