Biochemistry & Organic Chemistry

Production Of Abiotic Or Biogenic Hydrocarbons On Rock Particles In The Presence Of H2O And Carbon Compounds

By Keith Cowing
Status Report
Science Reports via PubMed
March 5, 2025
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Production Of Abiotic Or Biogenic Hydrocarbons On Rock Particles In The Presence Of H2O And Carbon Compounds
Schematic showing a possible mechanism of hydrocarbon formation in subsurface rocks from H2O and carbon compounds based on geothermal energy. When H2O is adsorbed on a solid acid in natural rock, it forms a doubly bonded cyclic metastable structure by sharing a coordinate bond and a hydrogen bond. As the number of free electrons in the conduction band increases with increasing temperature, free electrons in the solid acid can move to H2O through the hydrogen bond. In return, surplus electrons in H2O can quickly move back to the solid acid through the coordinate bond to maintain neutral conditions. This electron exchange results in H2O dissociation and the formation of H and OH radicals. H radicals react with carbon compounds to form various unstable hydrocarbon species (CH, CH2) and CH3 radicals when CO2 is added and reduced to carbon or activated carbon. On the other hand, when organic hydrocarbons (biomass) are added and dissociated by H radicals, other products such as C3H7, C2H5, and CH3 radicals can be formed. Finally, H2 and diverse hydrocarbons can be produced through reactions among H radicals, hydrocarbon radicals, and unstable hydrocarbon species. OH radicals are likely consumed during the oxidation of rock constituents, such as Fe2+ and C. Unsaturated hydrocarbons can further react with H radicals or H2 to become saturated and are gradually converted to CH4 through H radical-induced C‒C bond breaking in rock, as observed in natural oil and gas. — Science Reports via PubMed

Abiotic H2 and hydrocarbons are found in fluids discharged from ultramafic-hosted hydrothermal vents. Beneath the hydrothermal vents, abiotic H2 and hydrocarbons can be formed by serpentinization reactions and Fischer–Tropsch-type hydrocarbon-forming reactions, respectively, over ultramafic rocks.

However, the source rocks that form abiotic H2 and hydrocarbons may extend to broader subsurface rocks. Here, we show that various rock constituents (solid acids) play a catalytic role in the formation of H and OH radicals via H2O dissociation, as well as in the formation of diverse hydrocarbons via the synthesis reactions of H radicals and inorganic carbons or by H radical-induced dissociation of organic carbons.

The mechanisms and characteristics of these formation processes were explored through a series of reactor-based laboratory experiments. Four types of solid acid-containing rocks were mixed with H2O and a carbon source and reacted at different temperatures and pressures for different reaction periods.

The product gases were analyzed via GC/MS. Twenty-nine hydrocarbons up to C11, predominantly including CH4 and aromatic hydrocarbons, were identified when CO2 (inorganic carbon source) and basalt particles were used; in contrast, 42 hydrocarbons up to C11, predominantly including CH4 and aliphatic hydrocarbons, were identified when soybean oil (organic carbon source) and basalt particles were used.

The results of this study imply that abiotic H2 and diverse hydrocarbons are produced in the subsurface of Earth regardless of the presence of living organisms and suggest that solid acid-containing rocks near hot springs or volcanic areas can promote CO2 conversion into CH4 with the aid of H radicals supplied from H2O dissociation over the rocks.

Production of abiotic or biogenic hydrocarbons on rock particles in the presence of H2O and carbon compounds, Science Reports via PubMed (open access)

Astrobiology

Keith Cowing

Explorers Club Fellow, ex-NASA Space Station Payload manager/space biologist, Away Teams, Journalist, Lapsed climber, Synaesthete, Na’Vi-Jedi-Freman-Buddhist-mix, ASL, Devon Island and Everest Base Camp veteran, (he/him) 🖖🏻

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