Autochthonous tropical groundwater bacteria involved in manganese() oxidation and removal

The presence of manganese (Mn) in drinking water causes aesthetic, operational, and health problems. Removal of Mn( ii ) by the use of Mn oxidizing microorganisms in biofiltration processes has been studied leading to a more economical and environmentally friendly process than conventional treatment...

Full description

Saved in:
Bibliographic Details
Published in:Environmental science water research & technology 2020-10, Vol.6 (11), p.3132-3141
Main Authors: Calderón-Tovar, Isis L, Rietveld, Luuk C, Araya-Obando, José A, Quesada-González, Andrea, Caballero-Chavarría, Andrey, Romero-Esquivel, Luis G
Format: Article
Language:English
Subjects:
Aeromonas
Bacteria
Biofilms
Biofilters
Biofiltration
Drinking water
Evaluation
Exopolysaccharides
Extracellular
Groundwater
Health problems
Manganese
Microbiological strains
Microorganisms
Oxidation
Polysaccharides
Removal
Saccharides
Stenotrophomonas
Strains (organisms)
Tropical climate
Water wells
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The presence of manganese (Mn) in drinking water causes aesthetic, operational, and health problems. Removal of Mn( ii ) by the use of Mn oxidizing microorganisms in biofiltration processes has been studied leading to a more economical and environmentally friendly process than conventional treatments with chemical products. There are multiple reports in temperate regions, but little information under tropical conditions, concerning Mn( ii ) removal by microorganisms. In this study, 13 autochthonous culturable manganese oxidizing bacteria isolated from water of two wells with ∼0.6 mg L −1 and ∼0.2 mg L −1 Mn( ii ), respectively, were evaluated in vitro to determine their potential as inoculums for application in biofiltration processes. The oxidation capacity of Mn( ii ) was evaluated by a qualitative test with Leucoberbelin blue I and the Mn( ii ) removal was quantified by measurements of the residual Mn( ii ) in a culture broth with an initial concentration of 5.9 mg L −1 . The biofilm formation capacity of the strains was also determined by crystal violet staining and by quantification of polysaccharides of extracellular polymeric substances. Three strains showed the highest percentage of Mn( ii ) removal in the culture in broth, two belonging to the genus Aeromonas (HAC-12 and RUE-1), with removal values of 42.5% and 40.1%, respectively, and one belonging to the genus Stenotrophomonas (S-3), with 40.3% removal. Besides, HAC-3B and RUE-6A showed the highest production of exopolysaccharides. These results allowed the selection of an Aeromonas strain (HAC-12) and one Stenotrophomonas strain (S-3) as possible candidates to be used as inoculums in biofilters for the removal of Mn( ii ) from groundwater. Bacteria isolated from well water of tropical regions showed Mn( ii ) removal and biofilm formation capacity at the in vitro level. Two promising strains could be used as inoculums in biofilters.
ISSN:2053-1400
2053-1419
DOI:10.1039/d0ew00704h