Primordial Radioactivity and Prebiotic Chemical Evolution: Effect of γ Radiation on Formamide-Based Synthesis

Primordial Radioactivity and Prebiotic Chemical Evolution: Effect of γ Radiation on Formamide-Based Synthesis

Although the effect of ionizing radiation on prebiotic chemistry is often overlooked, primordial natural radioactivity might have been an important source of energy for various chemical transformations. Estimates of the abundances of short-lived radionuclides on early Earth suggest that the primordi...

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Bibliographic Details
Published in:The journal of physical chemistry. B Vol. 124; no. 41; pp. 8951 - 8959
Main Authors: Pastorek, Adam, Ferus, Martin, Čuba, Václav, Šrámek, Ondřej, Ivanek, Ondřej, Civiš, Svatopluk
Format: Journal Article
Language:English
Published: United States American Chemical Society 15-10-2020
Subjects:
B: Biophysics; Physical Chemistry of Biological Systems and Biomolecules
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Summary:Although the effect of ionizing radiation on prebiotic chemistry is often overlooked, primordial natural radioactivity might have been an important source of energy for various chemical transformations. Estimates of the abundances of short-lived radionuclides on early Earth suggest that the primordial intensity of endogenous terrestrial radioactivity was up to 4 × 103 times higher than it is today. Therefore, we assume that chemical substances in contact with radioactive rocks should therefore undergo radiolysis. The calculations are followed by research investigating the influence of ionizing γ radiation on basic prebiotic substances, including formamide mixed with various clays, which might have played the role of a catalyst and an agent that partially blocked radiation that was potentially destructive for the products. Our explorations of this effect have shown that the irradiation of formamide–clay mixtures at doses of ∼6 kGy produces significant amounts of urea (up to the maximal concentration of approximately 250 mg L–1), which plays a role in HCN-based prebiotic chemistry.
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ISSN:1520-6106
1520-5207
DOI:10.1021/acs.jpcb.0c05233