Newswise — EDMONTON (June 3, 2020)—Shifting continental plates in Eastern Africa has the potential to release significant amounts of carbon dioxide into the atmosphere, according to new research by an international team of scientists including the University of Alberta’s Claire Currie, a professor in the Department of Physics.
The study examined the East African Rift located in Tanzania and Kenya. The rift is a location where the continental plate is starting to break apart, splitting Africa into two parts. As the continental plate shifts, causing this rift, carbon dioxide stored deep within Earth’s mantle is brought to the surface.
“These deep parts of the continental plates can contain a significant amount of carbon that can be released as carbon dioxide through tectonic events,” said Currie. “These processes are believed to release enough CO2 into the atmosphere to influence global climate on timescales of millions of years.”
Currie completed computer modeling that demonstrated how the intersection of the East African Rift with the Tanzanian craton—a large, stable section of Earth’s crust— could be the source of large volumes of carbon dioxide.
“These data suggest that the high values of carbon dioxide are the result of mechanical displacement of the lowermost Tanzanian craton to below the East African Rift,” explained Currie. “Cratons are generally thought to contain significant carbon due to the fact that they are more than 2.5 billion years old and have accumulated carbon over their lives. However, there are still uncertainties about how this carbon may be cycled to Earth’s surface.”
The study suggests that this cycling may occur through the sideways movement of the deep part of the craton. “This carbon-rich material may ‘float’ along until it reaches a thinner section of the continental plate,” added Currie. “Here, the material would move upward and melt due to the decrease in pressure, releasing carbon dioxide to Earth’s surface.”
This research was conducted in collaboration with scientists from 11 other institutions, including Syracuse University, University of New Mexico, and Tulane University, who collected
and analyzed gas chemical data at the Earth’s surface and geophysical observations of the subsurface structure.
The paper, “Displaced cratonic mantle concentrates deep carbon during continental rifting,” was published in Nature (doi: 10.1038/s41586-020-2328-3).
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