Degradation of Nitrogen, Phosphorus, and Organic Matter in Urban River Sediments by Adding Microorganisms

Reducing and remediating endogenous sediment pollution in urban rivers using appropriate microbiological remediation technology is regarded as a safe, effective, and environmentally sustainable mechanism. In this study, the pollutant removal efficiency of three microorganism types at different dosag...

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Veröffentlicht in:	Sustainability 2021-03, Vol.13 (5), p.2580
Hauptverfasser:	Wang, Fan, Bai, Yangwei, Yang, Fang, Zhu, Qiuheng, Zhao, Qianyu, Zhang, Xiaojiao, Wei, Yimei, Liao, Haiqing
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Sprache:	eng
Schlagworte:	Bacillus Bacteria Biodegradation Bioremediation Canals Comparative analysis Environmental degradation Environmental policy Experiments Fluvial sediments Hydrochloric acid Microorganisms Next-generation sequencing Nitrifying bacteria Nitrogen Organic matter Organic phosphorus Phosphorus Pollutant removal Pollutants Pollution control Polycyclic aromatic hydrocarbons Potassium Reagents River ecology Rivers Sediment pollution Sediments Sustainability Water conservation Water pollution Water quality Yeast Yeasts
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creator	Wang, Fan Bai, Yangwei Yang, Fang Zhu, Qiuheng Zhao, Qianyu Zhang, Xiaojiao Wei, Yimei Liao, Haiqing
description	Reducing and remediating endogenous sediment pollution in urban rivers using appropriate microbiological remediation technology is regarded as a safe, effective, and environmentally sustainable mechanism. In this study, the pollutant removal efficiency of three microorganism types at different dosages was studied in the laboratory. To optimize the microbial restoration scheme, a comprehensive analysis of their effectiveness in removing total nitrogen (TN), total phosphorus (TP), total organic matter (OM), and polycyclic aromatic hydrocarbons (PAHs) was conducted, and associated structural changes in the sediment bacteria were analyzed. The results showed that using nitrifying bacteria and Bacillus as microbial agents resulted in superior removal efficiencies of TN and TP in sediments, whereas yeast was not as effective. The removal rates of TN reached 27.65% and 20.88% when 5 mg nitrifying bacteria and 10 mg Bacillus respectively, were used. A comparative analysis showed that nitrifying bacteria exhibited a better TN removal effect; however, Bacillus exhibited a better TP removal effect. The results of high-throughput sequencing revealed no significant changes to the microbial community structures when optimal microorganisms or beneficial microorganisms that thrive using OM as a source of C and energy were added. This study provides insights into the processes and mechanisms involved in the microorganism degradation of black and odorous sediment, and the results can be used as a basis for developing endogenous pollution control policies and methods for urban rivers.
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In this study, the pollutant removal efficiency of three microorganism types at different dosages was studied in the laboratory. To optimize the microbial restoration scheme, a comprehensive analysis of their effectiveness in removing total nitrogen (TN), total phosphorus (TP), total organic matter (OM), and polycyclic aromatic hydrocarbons (PAHs) was conducted, and associated structural changes in the sediment bacteria were analyzed. The results showed that using nitrifying bacteria and Bacillus as microbial agents resulted in superior removal efficiencies of TN and TP in sediments, whereas yeast was not as effective. The removal rates of TN reached 27.65% and 20.88% when 5 mg nitrifying bacteria and 10 mg Bacillus respectively, were used. A comparative analysis showed that nitrifying bacteria exhibited a better TN removal effect; however, Bacillus exhibited a better TP removal effect. The results of high-throughput sequencing revealed no significant changes to the microbial community structures when optimal microorganisms or beneficial microorganisms that thrive using OM as a source of C and energy were added. This study provides insights into the processes and mechanisms involved in the microorganism degradation of black and odorous sediment, and the results can be used as a basis for developing endogenous pollution control policies and methods for urban rivers.</description><identifier>ISSN: 2071-1050</identifier><identifier>EISSN: 2071-1050</identifier><identifier>DOI: 10.3390/su13052580</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Bacillus ; Bacteria ; Biodegradation ; Bioremediation ; Canals ; Comparative analysis ; Environmental degradation ; Environmental policy ; Experiments ; Fluvial sediments ; Hydrochloric acid ; Microorganisms ; Next-generation sequencing ; Nitrifying bacteria ; Nitrogen ; Organic matter ; Organic phosphorus ; Phosphorus ; Pollutant removal ; Pollutants ; Pollution control ; Polycyclic aromatic hydrocarbons ; Potassium ; Reagents ; River ecology ; Rivers ; Sediment pollution ; Sediments ; Sustainability ; Water conservation ; Water pollution ; Water quality ; Yeast ; Yeasts</subject><ispartof>Sustainability, 2021-03, Vol.13 (5), p.2580</ispartof><rights>2021. This work is licensed under http://creativecommons.org/licenses/by/3.0/ (the “License”). 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subjects	Bacillus Bacteria Biodegradation Bioremediation Canals Comparative analysis Environmental degradation Environmental policy Experiments Fluvial sediments Hydrochloric acid Microorganisms Next-generation sequencing Nitrifying bacteria Nitrogen Organic matter Organic phosphorus Phosphorus Pollutant removal Pollutants Pollution control Polycyclic aromatic hydrocarbons Potassium Reagents River ecology Rivers Sediment pollution Sediments Sustainability Water conservation Water pollution Water quality Yeast Yeasts
title	Degradation of Nitrogen, Phosphorus, and Organic Matter in Urban River Sediments by Adding Microorganisms
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