Comparative Study of Formation Conditions of Fe-Mn Ore Microbialites Based on Mineral Assemblages: A Critical Self-Overview

The role of biogenicity in the mineral world is larger than many might assume. Biological processes and physical and chemical processes interact both at the Earth’s surface and far underground, leading to the formation of banded iron and manganese deposits, among others. Microbial mats can form gian...

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Veröffentlicht in:	Minerals (Basel) 2022-10, Vol.12 (10), p.1273
Hauptverfasser:	Polgári, Márta, Gyollai, Ildikó
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Sprache:	eng
Schlagworte:	Biological activity Chemical reactions Comparative analysis Comparative studies Datasets Deposits Dimensions Earth surface Environmental indicators Extracellular polymers Hypotheses Iron Manganese Manganese deposits Mediation Microbial mats Microorganisms Mineral assemblages Mineral deposits Mineralization Mineralogy Minerals Oxidation Reviews Sediment deposits Spectrum analysis
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creator	Polgári, Márta Gyollai, Ildikó
description	The role of biogenicity in the mineral world is larger than many might assume. Biological processes and physical and chemical processes interact both at the Earth’s surface and far underground, leading to the formation of banded iron and manganese deposits, among others. Microbial mats can form giant sedimentary ore deposits, which include enrichment of further elements. This article reviews the ways in which microbially-mediated processes contribute to mineralization, the importance of mineralized microbial textural features, and the methods that must be used to obtain high-resolution datasets. If the chosen methodology and/or the size dimension of investigation is not appropriate, then it is not possible to recognize that a system is microbially mediated, and the conclusion will be incomplete. We call attention to variable authigenic mineralization as the result of complex mineralization of cells and extracellular polymeric substances in the starving basins, which form giant ore deposits together with ore-forming minerals. Microbial mats and other biosignatures can serve as indicators of environmental reconstruction in ore formations. We suggest tests and analyses that will allow the potential role of biomineralization to be properly investigated for a more comprehensive view of formation processes and their implications.
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subjects	Biological activity Chemical reactions Comparative analysis Comparative studies Datasets Deposits Dimensions Earth surface Environmental indicators Extracellular polymers Hypotheses Iron Manganese Manganese deposits Mediation Microbial mats Microorganisms Mineral assemblages Mineral deposits Mineralization Mineralogy Minerals Oxidation Reviews Sediment deposits Spectrum analysis
title	Comparative Study of Formation Conditions of Fe-Mn Ore Microbialites Based on Mineral Assemblages: A Critical Self-Overview
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