K. Yu. Rybka scite author profile

Constructed wetlands (CWs) are complicated ecosystems that include vegetation, sediments, and the associated microbiome mediating numerous processes in wastewater treatment. CWs have various functional zones where contrasting biochemical processes occur. Since these zones are characterized by different particle-size composition, physicochemical conditions, and vegetation, one can expect the presence of distinct microbiomes across different CW zones. Here, we investigated spatial changes in microbiomes along different functional zones of a free-water surface wetland located in Moscow, Russia. The microbiome structure was analyzed using Illumina MiSeq amplicon sequencing. We also determined particle diameter and surface area of sediments, as well as chemical composition of organic pollutants in different CW zones. Specific organic particle aggregates similar to activated sludge flocs were identified in the sediments. The highest accumulation of hydrocarbons was found in the zones with predominant sedimentation of fine fractions. Phytofilters had the highest rate of organic pollutants decomposition and predominance of Smithella, Ignavibacterium, and Methanothrix. The sedimentation tank had lower microbial diversity, and higher relative abundances of Parcubacteria, Proteiniclasticum, and Macellibacteroides, as well as higher predicted abundances of genes related to methanogenesis and methanotrophy. Thus, spatial changes in microbiomes of constructed wetlands can be associated with different types of wastewater treatment processes.

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Taxonomic and Functional Diversity of Microbial Communities as an Indicator of the Effectiveness of Water Treatment in Constructed Wetlands

Щеголькова

Kharitonov

Semënov

et al. 2020

Water Resour

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Features of Functioning of Constructed Wetlands in Arid Regions

Rybka

Щеголькова

2021

Arid Ecosyst

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Analysis of the Chemistry of Municipal Wastewaters for Forecasting the Conditions of Urban Population

et al. 2023

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The quality of wastewater and the socioeconomic aspects of the life of the population are shown to be interrelated. It is proposed to use municipal wastewater to diagnose the health of the population, to assess the feeding preferences of city dwellers, the use of alcohol, tobacco, medicines, and drugs, to assess the exposure of the population to the effect of hazardous chemicals (PAH, pesticides, preserving agents, plasticizers, etc.), and to timely reveal deceases (including COVID-19). The authors proposed several biomarkers, which are recommended to use to monitor the water-resource system as a component of the urban ecosystem.

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K. Yu. Rybka

Spatial Changes in Microbial Communities along Different Functional Zones of a Free-Water Surface Wetland

Taxonomic and Functional Diversity of Microbial Communities as an Indicator of the Effectiveness of Water Treatment in Constructed Wetlands

Features of Functioning of Constructed Wetlands in Arid Regions

Analysis of the Chemistry of Municipal Wastewaters for Forecasting the Conditions of Urban Population

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