Serpentinization is commonly presented as the main source of natural hydrogen (H) in the continental domains. However, recent works in Australia and Brazil showed that Archean-Paleoproterozoic banded iron formations could be another natural source of H gas. Although the reaction that produces hydrogen is similar (Fe oxidation-HO reduction process), the iron content may be higher in banded iron formations than in mafic igneous lithologies, potentially generating H more efficiently. Here, we present structural evidence that reported H emissions from Waterberg Basin, Namibia are associated with underlying Neoproterozoic banded iron formations-the Chuos Formation. Magnetite, a known H-generating mineral, is ubiquitous and accompanied by other suspected H-generating minerals (biotite and siderite) in Chuos Formation. Magnetite occurs either as pervasive cm to dm continuous metamorphic laminations in foliation and fractures planes and/or diffusely disseminated in metachert and metacarbonate levels. From this, we infer that metamorphism does not negatively affect the Fe content that is required to generate hydrogen. H seepages in Waterberg Basin suggest that an active H-generating system may exist at depth and that the presence of potential traps and reservoirs is likely based on field observations.
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| http://dx.doi.org/10.1038/s41598-024-62538-6 | DOI Listing |
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