Prebiotic synthesis at impact craters: the role of Fe-clays and iron meteorites

Prebiotic synthesis at impact craters: the role of Fe-clays and iron meteorites

Besides delivering plausible prebiotic feedstock molecules and high-energy initiators, extraterrestrial impacts could also affect the process of abiogenesis by altering the early Earth's geological environment in which primitive life was conceived. We show that iron-rich smectites formed by rep...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2019-08, Vol.55 (71), p.1563-1566
Hauptverfasser: Pastorek, Adam, Hrn í ová, Jana, Jankovi, Luboš, Nejdl, Lukáš, Civiš, Svatopluk, Ivanek, Ond ej, Shestivska, Violetta, Kní ek, Antonín, Kubelík, Petr, Šponer, Ji í, Petera, Lukáš, K ivková, Anna, Cassone, Giuseppe, Vaculovi ová, Markéta, Šponer, Judit E, Ferus, Martin
Format: Artikel
Sprache:eng
Schlagworte:
Abiogenesis
Amino acids
Amino Acids - chemistry
Catalysis
Chemical synthesis
Clay
Clay - chemistry
Earth (Planet)
Evolution, Chemical
Extraterrestrial Environment - chemistry
Extraterrestrial environments
Initiators
Iron - chemistry
Iron meteorites
Meteorites
Meteoroids
Origin of Life
Prebiotics
Reaction products
Reprocessing
Silicates - chemistry
Smectites
Urea - chemistry
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Beschreibung
Zusammenfassung:Besides delivering plausible prebiotic feedstock molecules and high-energy initiators, extraterrestrial impacts could also affect the process of abiogenesis by altering the early Earth's geological environment in which primitive life was conceived. We show that iron-rich smectites formed by reprocessing of basalts due to the residual post-impact heat could catalyze the synthesis and accumulation of important prebiotic building blocks such as nucleobases, amino acids and urea. Iron-rich smectites formed by reprocessing of basalts due to the residual post-impact heat could catalyze the synthesis and accumulation of important prebiotic building blocks such as nucleobases, amino acids and urea.
ISSN:1359-7345
1364-548X
DOI:10.1039/c9cc04627e