Nitrogen removal performance and bacterial communities in zeolite trickling filter under different influent C/N ratios

Liu, Lina; Li, Na; Tao, Chunyang; Zhao, Yubo; Gao, Jingqing; Huang, Zhenzhen; Zhang, Jingshen; Zhang, Jinliang; Cai, Ming

doi:10.1007/s11356-020-11776-y

Cited by 20 publications

(5 citation statements)

References 60 publications

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“…At the same time, Acinetobacter (5.5%), Paracoccus (2.0%), and Pseudomonas (5.9%) were found in EFW to simultaneously oxide organic matter and oxide ammonia to nitrite and nitrate, which were denitrified to N 2 under the aerobic condition [ [49] , [50] , [51] , [52] ]. For instance, Gu et al.…”

Section: Resultsmentioning

confidence: 99%

Ecological filter walls for efficient pollutant removal from urban surface water

Liao,

Qiu,

Tian

et al. 2024

Environmental Science and Ecotechnology

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Section: Resultsmentioning

confidence: 99%

Ecological filter walls for efficient pollutant removal from urban surface water

Liao,

Qiu,

Tian

et al. 2024

Environmental Science and Ecotechnology

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“…The TN removal rate increased by 31.9% in system E compared to system A, as a joint result of the zeolite substance layer and electrolysis. Electrolysis could prolong the service life of zeolite and enhance the biological regeneration by affecting the ionexchange process and biochemical reactions of microorganisms, which can achieve the sustainable utilization of zeolite and reduce the operation cost of system E. 12 TN removal rates increased throughout the experimental period (120 days) of system E, from 45.6 ± 20.4% (phase I) to 90.4 ± 1.6% (phase III), and the effluent TN concentration reduced to 2.7 mg/L, consistently meeting the standards for drinking water quality (GB 5749-2006) (Table S9). 13 NO 3 − -N removal performance was similar to that of TN during the entire period (Figure 1d).…”

Section: Methodsmentioning

confidence: 99%

Synergistic Removal of Nutrient Pollutants and Pharmaceutical and Personal Care Products (PPCPs) from Contaminated Groundwater: Macro- and Microelements and Microorganisms

Yang

Chen

et al. 2022

ACS EST Water

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The synergistic removal performance of nutrient pollutants and pharmaceutical and personal care products (PPCPs) from contaminated groundwater, and the biogeochemical interactions of macro- and microelements–contaminants–microorganisms were further studied. The electrolysis-zeolite/basalt system proved to achieve better synergistic removal performance than all other purification systems considered, reaching average removal efficiencies of 85.8% for nutrient pollutants and 74.7% for PPCPs. Electrolysis not only enhanced the abundance and distribution of MOB and DNB, but also promoted the production of microelements Fe3+ (0.1 ± 0.1 mg/L) and Zn2+ (0.3 ± 0.3 mg/L). Macroelements Ca2+ and Mg2+ increased by 27.8 ± 2.7 and 16.5 ± 9.6 mg/L, respectively, which significantly stimulated the activities of function microbials. Microelements Fe3+ exchanged from zeolite, Mn2+ from basalt, and Cu2+ from groundwater itself were crucial for enzyme activity. Meanwhile, Mn2+ was co-regulated by oxidation–reduction processes and ion-exchange strength. Thus, the electrolysis-zeolite/basalt system is a promising technology for synergistic nutrient pollutant and PPCP removal from contaminated groundwater, especially in dispersive water supplied in the countryside of China.

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“…Likewise, the relative abundance of Actinobacteria in the CW_C treatment also significantly decreased at both the fore and rear ends of HSSFCWs. Previous studies indicated that Actinobacteria and Acidobacteria were key species in the transformation of carbon and nitrogen in CWs [42]. Earlier research had noted that Acidobacteria was involved in litter decomposition [43], while Actinobacteria played a role in the process of denitrification [24].…”

Section: Bacterial Community Compositionmentioning

confidence: 99%

Effect of Aeration and External Carbon Source on Nitrogen Removal and Distribution Patterns of Related-Microorganisms in Horizontal Subsurface Flow Constructed Wetlands

Zhang,

Li,

Shi

et al. 2024

Water

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Nitrogen pollution of surface water is still a critical issue worldwide. In this study, a total of four treatments were conducted in horizontal subsurface flow constructed wetlands (HSSFCWs) to explore the removal rate of nitrogen in the carbon-deficient wastewater, including combination of aeration and external carbon source (CW_CA), external carbon source (CW_C), aeration (CW_A), and control group without aeration and carbon source (CW_CK). Results showed that the removal rates of total nitrogen (TN) in the enhanced treatments were increased compared with CW_CK. The highest removal rates of COD (66.56%), NH4+-N (73.51%), NO3−-N (79.31%), and TN (76.19%) were observed in the CW_CA treatment. The bacterial community structure at the fore and rear ends of HSSFCWs was simultaneously changed in the CW_CA and CW_C treatments, respectively. The highest richness index at both the fore and rear ends of HSSFCWs was found in the CW_CA treatment. The richness and diversity indices of CW_C declined at the fore ends of HSSFCWs, but increased at the rear ends of HSSFCWs. Furthermore, the functional bacteria and genes significantly changed among different treatments. At the fore ends of HSSFCWs, the highest relative abundance of nitrifiers and absolute abundance of amoA and nxrA were obtained in CW_A, and the highest relative abundance of denitrifying bacteria and absolute abundance of nirS, nirK, nosZ were found in CW_C. However, at the rear ends of HSSFCWs, the highest relative abundance of nitrifiers and denitrifying bacteria as well as the absolute abundance of related genes were also observed in the CW_CA treatment. Overall, CW_CA improved the nitrogen removal rate by increasing the abundance of nitrogen-converting functional microbes and the genes associated with nitrification and denitrification.

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Nitrogen removal performance and bacterial communities in zeolite trickling filter under different influent C/N ratios

Cited by 20 publications

References 60 publications

Ecological filter walls for efficient pollutant removal from urban surface water

Ecological filter walls for efficient pollutant removal from urban surface water

Synergistic Removal of Nutrient Pollutants and Pharmaceutical and Personal Care Products (PPCPs) from Contaminated Groundwater: Macro- and Microelements and Microorganisms

Effect of Aeration and External Carbon Source on Nitrogen Removal and Distribution Patterns of Related-Microorganisms in Horizontal Subsurface Flow Constructed Wetlands

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