Underground Cells Make ‘Dark Oxygen’ Without Light | Quanta Magazine

Barons, Alberta, Canada, one of the groundwater sampling sites for Ruff et. al., Nature Communications, 2023. Photo courtesy of Emil Ruff

This article is about a recent publication in Nature Communications by MBL's Emil Ruff and colleagues.

Scientists have come to realize that in the soil and rocks beneath our feet there lies a vast biosphere with a global volume nearly twice that of all the world’s oceans. Little is known about these underground organisms, who represent most of the planet’s microbial mass and whose diversity may exceed that of surface-dwelling life forms.

Their existence comes with a great puzzle: Researchers have often assumed that many of those subterranean realms are oxygen-deficient dead zones inhabited only by primitive microbes keeping their metabolisms at a crawl and scraping by on traces of nutrients. As those resources get depleted, it was thought, the underground environment must become lifeless with greater depth.

In new research published last month in Nature Communications, researchers presented evidence that challenges those assumptions. In groundwater reservoirs 200 meters below the fossil fuel fields of Alberta, Canada, they discovered abundant microbes that produce unexpectedly large amounts of oxygen even in the absence of light. Read rest of the story here.

 

Source: Underground Cells Make ‘Dark Oxygen’ Without Light | Quanta Magazine