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Article Dans Une Revue Bioelectrochemistry Année : 2022

Calcareous deposit formation under cathodic polarization and marine biocalcifying bacterial activity

Résumé

CaCO 3 precipitation can occur through bacterial activity (biomineralization) but can also take place in abiotic conditions in seawater at a steel surface under cathodic polarization. In this work, we used two biocalcifying bacterial strains: Pseudoalteromonas sp. and Virgibacillus halodenitrificans isolated in a previous work from marine environment for their ability to induce CaCO 3 precipitation. Motility experiments were performed to evaluate the bacterial behaviour in the absence or presence of an applied electric current of − 600 µA/cm 2 in a solid medium. As no alteration of bacterial growth or CaCO 3 crystal formation were observed, we studied both strains in liquid cultures at different applied currents densities: − 100, − 200 and − 600 µA/cm 2. The deposits formed on the cathode surface were characterized by µ-Raman spectroscopy and X-ray diffraction. The strain ability to biocalcify in the presence of electric current, in the liquid medium, was evaluated by monitoring bacterial growth, pH evolution, CaCO 3 production and metabolic characterization for 7 days. Our results show that neither bacterial growth, enzymatic pathways or CaCO 3 production were altered by the electric current. Moreover, bacterial activity modified drastically the nature of the compounds formed on the cathode surface. It favoured Mgcontaining calcite, hindering the formation of both aragonite and brucite.
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Dates et versions

hal-03890613 , version 1 (13-12-2022)

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Béatrice Colin, Julia Vincent, Lilla Koziorowszki, Aurore Frein, Isabelle Lanneluc, et al.. Calcareous deposit formation under cathodic polarization and marine biocalcifying bacterial activity. Bioelectrochemistry, 2022, 148, pp.108271. ⟨10.1016/j.bioelechem.2022.108271⟩. ⟨hal-03890613⟩
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