Isolation and characterization of Iron-Manganese oxidizing bacteria from Gikondo urban marshland, Rwanda

Iron (Fe) and Manganese (Mn) oxidizing bacteria (IMnOB) play a crucial role in the oxidation and removal of Fe and Mn in aquatic ecosystems. Marshlands shelter a broad spectrum of biota, sequester CO 2 , and influence climate resilience. Additionally, they are hotspots of wastewater pollution; thus,...

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Bibliographic Details
Published in:Sustainable water resources management 2024-06, Vol.10 (3), p.129, Article 129
Main Authors: Manirakiza, Benjamin, Mutumwinka, Diane, Munyampundu, Jean Pierre, Shami, Emery, Uwamariya, Colores, Souopgui, Jacob, Nsabimana, Antoine
Format: Article
Language:English
Subjects:
Aquatic ecosystems
Bacteria
Biota
Carbon dioxide
Climate adaptation
Climate change adaptation
Colonies
Development Economics
Earth and Environmental Science
Earth Sciences
Homology
Hydrogeology
Hydrology/Water Resources
Iron
Iron-oxidizing bacteria
Manganese
Marshes
Marshlands
Medical wastes
Original Article
Oxidation
Phylogeny
Pseudomonas
Sequencing
Shelters
Soil bacteria
Soil water
Surface water
Sustainable Development
Wastewater
Wastewater pollution
Water Policy/Water Governance/Water Management
Water treatment
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Summary:Iron (Fe) and Manganese (Mn) oxidizing bacteria (IMnOB) play a crucial role in the oxidation and removal of Fe and Mn in aquatic ecosystems. Marshlands shelter a broad spectrum of biota, sequester CO 2 , and influence climate resilience. Additionally, they are hotspots of wastewater pollution; thus, they may shelter various bioremediators. Previous works have explored the isolation and characterization of IMnOB in soil, water, wastewater, and medical settings. However, IMnBO have not been isolated in urban marshlands so far. This study aimed to isolate, identify, and phylogenetically characterize the IMnOB from the surface water of Gikondo marshland in Rwanda. Bacterial culturing showed rusty (yellow) and brown colonies of iron-oxidizing bacteria (IOB) and manganese-oxidizing bacteria (MnOB), respectively. Furthermore, Sanger sequencing data revealed that bacterial colonies were similar to two distinct Betaproteobacterial species. One group clustered with Ralstonia pickettii , while the other clustered with Pseudomonas sp . with high homology to Pseudomonas seleniipraecipitans . Taken together, bacteria culturing and Sanger sequencing revealed that the isolates were assigned to the versatile metabolic genera Ralstonia and Pseudomonas . These results suggested that isolated bacterial species could serve as inocula for the improved simultaneous removal of Fe and Mn in water treatment systems.
ISSN:2363-5037
2363-5045
DOI:10.1007/s40899-024-01109-z