7.5.5: Radiolysis of water

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Radioactive decay of isotopes such as uranium-238, uranium-235, and potassium-40 releases alpha, beta, and gamma radiation. Energy from this radiation excites and ionizes water molecules, producing several chemical species including dihydrogen, which can be used as an energy source for microbial communities (Dzaugis et al., 2016).

This source of energy can help sustain microbial populations in subsurface oceanic and continental crust and sediment. In continental crust, Lin et al. (2006) found that sulfate-reducing microorganisms in 2.8 km deep Archaean metabasalt could be sustained for millions of years on radiolytic dihydrogen. In marine environments, Sauvage et al. (2021) estimated that the global rate of radiolytic dihydrogen production in marine sediment is about 1-2% of the global organic flux to the seafloor and may be the main energy source for microbes in sediment older than a couple of million years. Similarly, Dzaugis et al. (2016) concluded that radiolytic dihydrogen is likely more important than iron oxidation as an energy source in basalts older than 10 million years. Taken together, these findings indicate that radiolysis of water is an important and widespread energy source for subsurface microorganisms.

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