Investigating bio-remediation capabilities of a constructed wetland through spatial successional study of the sediment microbiome

Constructed wetlands (CWs) are engineered environments designed to utilise natural processes to treat urban or industrial wastewater, with the core driver of the bioremediation process provided by the microorganisms present within. This study isolated 32 bacterial strains from sediment across the Sa...

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Bibliographic Details
Published innpj clean water Vol. 6; no. 1; pp. 8 - 15
Main Authors Kumar, V., Bera, T., Roy, S., Vuong, P., Jana, C., Sarkar, D. J., Devi, M. S., Jana, A. K., Rout, A. K., Kaur, P., Das, B. K., Behera, B. K.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 16.02.2023
Nature Publishing Group
Nature Portfolio
Subjects
704/242
706/2805
Ammonia
Antibiotic resistance
Aquatic Pollution
Artificial wetlands
Bacteria
Bioremediation
Earth and Environmental Science
Environment
Industrial wastes
Industrial wastewater
Laboratory tests
Microbiomes
Microorganisms
Multidrug resistance
Nanotechnology
Optimization
Physiochemistry
Sampling
Strains (organisms)
Waste Water Technology
Wastewater
Wastewater treatment
Water Industry/Water Technologies
Water Management
Water Pollution Control
Water Quality/Water Pollution
Wetlands
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Summary:Constructed wetlands (CWs) are engineered environments designed to utilise natural processes to treat urban or industrial wastewater, with the core driver of the bioremediation process provided by the microorganisms present within. This study isolated 32 bacterial strains from sediment across the Sardar Bherry CW to find candidates with remediation properties and to understand how the physiochemical gradient from wastewater input influences the functional properties of the bacteria present. Bacterial isolates recovered closer to the wastewater effluence were more likely to be pathogenic, with increased haemolytic activity, causing high rates of fish mortality. In contrast, isolates recovered further from the wastewater source were observed to be non-pathogenic and have increased inhibitory effect against pathogenic strains. Extracellular proteins extracted from non-pathogenic isolates also appeared to be effective at inhibiting the growth of pathogenic bacteria, including multidrug resistant strains. Non-pathogenic isolates recovered across all sampling sites displayed the ability to reduce high levels of ammonia in solution during laboratory testing. Antibiogram assays of the recovered isolates showed a relatively high rate of multidrug resistant or marginally resistant bacteria across all sampling sites, highlighting a potential limitation within the CW bioremediation process in mitigating antibiotic resistant strains. This isolate based study provided an avenue to understand the influence of spatial succession from wastewater effluence on bacterial characteristics, as well as obtain candidates that can be further investigated for optimisation in bioremediation efforts. The cultured isolates can supplement future environmental sequencing studies by providing wet lab specimens to compare (meta)genomic information discovered within the CW ecosystem.
ISSN:2059-7037
2059-7037
DOI:10.1038/s41545-023-00225-1