Scientists' attention was drawn to the high ratio of helium isotopes in hot springs located along the Kafue Rift. This phenomenon indicates that the rift penetrates the Earth's crust, reaching into the mantle at depths ranging from 40 to 160 kilometers.

"This is direct evidence of the Kafue Rift's activity and could be the first sign of Sub-Saharan Africa beginning to split," noted Mike Daly, a professor at Oxford University.

The Kafue Rift is part of a 2,500-kilometer zone extending from Tanzania to Namibia. Scientists studied eight geothermal wells and springs across Zambia—six located within the proposed rift zone and two outside it—and collected gas samples from the water. The helium isotope composition of the samples from the rift zone closely resembles that of the East African Rift System, one of the best-studied ancient rifts on the planet.

This discovery could hold significant economic value: active rifts in their early stages of formation can provide geothermal energy, as well as opportunities for helium and hydrogen production, reported by Kazinform.

However, the authors urge caution in interpreting the results. "This study is based on helium analysis from just one section of the Southwest African Rift System, which spans thousands of kilometers," Daly emphasized, adding that large-scale research initiatives are already underway.