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Methane formation driven by light and heat prior to the origin of life and beyond

Earth Sciences

Methane formation driven by light and heat prior to the origin of life and beyond

L. Ernst, U. Barayeu, et al.

This groundbreaking research showcases how abiotic processes might have generated methane and ethane on the early Earth, driven by methylated sulfur and nitrogen compounds. Conducted by Leonard Ernst, Uladzimir Barayeu, Jonas Hädeler, Tobias P. Dick, Judith M. Klatt, Frank Keppler, and Johannes G. Rebelein, the study reveals a fascinating ROS-driven Fenton chemistry that could have played a significant role in shaping our planet's early atmosphere.

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Abstract
Methane is a potent greenhouse gas, which likely enabled the evolution of life by keeping the early Earth warm. Here, we demonstrate routes towards abiotic methane and ethane formation under early-earth conditions from methylated sulfur and nitrogen compounds with prebiotic origin. These compounds are demethylated in Fenton reactions governed by ferrous iron and reactive oxygen species (ROS) produced by light and heat in aqueous environments. After the emergence of life, this phenomenon would have greatly intensified in the anoxic Archean by providing methylated sulfur and nitrogen substrates. This ROS-driven Fenton chemistry can occur delocalized from serpentinization across Earth's humid realm and thereby substantially differs from previously suggested methane formation routes that are spatially restricted. Here, we report that Fenton reactions driven by light and heat release methane and ethane and might have shaped the chemical evolution of the atmosphere prior to the origin of life and beyond.
Publisher
Nature Communications
Published On
Aug 01, 2023
Authors
Leonard Ernst, Uladzimir Barayeu, Jonas Hädeler, Tobias P. Dick, Judith M. Klatt, Frank Keppler, Johannes G. Rebelein
Tags
abiotic methane
ethane formation
early Earth conditions
Fenton reactions
reactive oxygen species
atmospheric methane
origin of life

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