Carbonate and Oxalate Crystallization by Interaction of Calcite Marble with Bacillus subtilis and Bacillus subtilis–Aspergillus niger Association

Katerina V Sazanova (Nee Barinova),Marina S Zelenskaya,Aleksei V Rusakov,Dmitry Yu Vlasov,Alexey D Vlasov,Maya A Petrova,Olga V Frank-Kamenetskaya

doi:10.3390/cryst10090756

Katerina V Sazanova (Nee Barinova), Marina S Zelenskaya + Show 5 more

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https://doi.org/10.3390/cryst10090756

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Abstract

Rock surfaces in natural systems are inhabited by multispecies communities of microorganisms. The biochemical activity of microorganisms and the patterns of microbial crystallization in these communities are mostly unexplored. Patterns of calcium carbonate and calcium oxalate crystallization induced by bacteria Bacillus subtilis and by B. subtilis together with Aspergillus niger on marble surface in vitro in liquid medium and in humidity chamber—were studied. Phase identification was supported by XRD, SEM, EDXS; metabolite composition was determined by GC–MS. It was found that the activity of B. subtilis–A. niger associations significantly differ from the activity of B. subtilis monocultures in the same trophic conditions. The phase composition and the morphology of the forming crystals are determined by the composition of the metabolites excreted by the microorganisms—particularly by the ratio of the concentrations of extracellular polymeric substances (EPS) and oxalic acid in the medium. The acidification activity of micromycetes may suppress the formation of bacterial EPS and prevent the formation of calcite. The present results can be used in the development of biotechnologies using microbial communities.

Highlights

Metabolism of the microbial lithobiotic community is a powerful factor in modern mineral formation [1,2]
As a result of the conducted research a morphogenetic pattern of crystallization of calcium carbonates and oxalates induced by the metabolism of bacteria B. subtilis and by B. subtilis—A. niger association on marble surface was revealed
It was shown that the metabolic activity of bacteria B. subtilis is a complex multifactorial process, the flow of which significantly depends on the cultivation trophic conditions, including the concentration of sugar in the medium

Summary

Introduction

Metabolism of the microbial lithobiotic community is a powerful factor in modern mineral formation [1,2]. It has been shown for number of fungal species isolated from different rock substrates [3,4,5] as well as for some species of bacteria [6,7]. The nucleation and growth of crystals of calcium carbonates under the influence of bacteria can occur in alkaline conditions on cell walls and on the surface of extracellular polymeric substances (EPS). Bacillus spp. may form endospores that can lead to uncontrolled carbonate crystal growth [12,13]

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