Self-Induced Crystalline Morphology at the Mineral–Fluid Interface: Silica–Carbonate Biomorphs of Alkaline Earth Metals as a Case Study

Self-Induced Crystalline Morphology at the Mineral–Fluid Interface: Silica–Carbonate Biomorphs of Alkaline Earth Metals as a Case Study

Minerals have played a fundamental part in prebiotic chemistry on Earth, catalyzing the synthesis of inorganic and even organic molecules, including macromolecules such as RNA or DNA. Minerals based on silica are some of the first inorganics to be found in very ancient mineral fossils. These mineral...

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Bibliographic Details
Main Authors: Mayra Cuéllar-Cruz, Erick Alfredo Zúñiga-Estrada, Marcelino Antonio Zúñiga-Estrada, Selene R. Islas, Abel Moreno
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Applied Sciences
Subjects:
biomorphs
obsidian
silica–carbonate alkaline Earth metals
Online Access:https://www.mdpi.com/2076-3417/15/9/4593
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Summary:Minerals have played a fundamental part in prebiotic chemistry on Earth, catalyzing the synthesis of inorganic and even organic molecules, including macromolecules such as RNA or DNA. Minerals based on silica are some of the first inorganics to be found in very ancient mineral fossils. These minerals or even volcanic glasses rich in silica, such as obsidians (a naturally volcanic glass, which is in fact an igneous rock), play an important role as supporting materials for obtaining the silico-carbonates of alkaline earth metals (usually called biomorphs). This is because, in most radiolarians, diatoms, and foraminifera, their external shells are made up of silica (SiO<sub>2</sub>). However, it has yet to be evaluated whether the silica contained in the minerals present in the prebiotic era of the Earth interacted with the chemical elements that were also present during that era. To evaluate whether obsidian participated in the formation of the first inorganic structures of pioneering organisms, this study aimed to synthesize calcium and barium biomorphs on igneous rock and to show that dissolved organic and inorganic molecules might have interacted with the molecules of obsidian, producing a plethora of shapes that mimicked the cherts of the Precambrian.
ISSN:2076-3417

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