Advantages of psychrophiles in improving bio‐treatment efficiency of small size constructed wetlands during cold weather

Guo, Ying; Yi, Xing; Li, Z.; Pan, Jiawen; Kuang, X.

doi:10.1002/ep.10354

“…In recent years, CWs have been widely used in wastewater treatment, including removal of N, P (Li et al, 2019), and some organic contaminants. Nevertheless, due to restricted oxygen supply and transport capacity, limited sorption capacity of the substrate, and inhibition of microbes and plants metabolism at low temperatures, the removal efficiency for N and P is severely hindered (Ying et al, 2010). Researchers have attempted to explore particular substrates to intensify the functions of CWs with high contaminants concentration, among which biochar has been favorably considered (Gupta, Prakash & Srivastava, 2015).…”

Section: Indirect Water and Wastewater Treatmentmentioning

confidence: 99%

Recent advances in biochar application for water and wastewater treatment: a review

Wang

¹

,

Guo

²

,

Hu

³

et al. 2020

PeerJ

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In the past decade, researchers have carried out a massive amount of research on the application of biochar for contaminants removal from aqueous solutions. As an emerging sorbent with great potential, biochar has shown significant advantages such as the broad sources of feedstocks, easy preparation process, and favorable surface and structural properties. This review provides an overview of recent advances in biochar application in water and wastewater treatment, including a brief discussion of the involved sorption mechanisms of contaminants removal, as well as the biochar modification methods. Furthermore, environmental concerns of biochar that need to be paid attention to and future research directions are put forward to promote the further application of biochar in practical water and wastewater treatment.

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“…In recent years, CWs have been widely used in wastewater treatment, including removal of N, P (Li et al, 2019), and some organic contaminants. Nevertheless, due to restricted oxygen supply and transport capacity, limited sorption capacity of the substrate, and inhibition of microbes and plants metabolism at low temperatures, the removal efficiency for N and P is severely hindered (Ying et al, 2010). Researchers have attempted to explore particular substrates to intensify the functions of CWs with high contaminants concentration, among which biochar has been favorably considered (Gupta et al, 2015).…”

Section: Indirect Water and Wastewater Treatmentmentioning

confidence: 99%

Peer Review #1 of "Recent advances in biochar application for water and wastewater treatment: a review (v0.2)"

2020

0

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In the past decade, researchers have carried out a massive amount of research on the application of biochar for contaminants removal from aqueous solutions. As an emerging sorbent with great potential, biochar has shown significant advantages such as the broad sources of feedstocks, easy preparation process, and favorable surface and structural properties. This review provides an overview of recent advances in biochar application in water and wastewater treatment, including a brief discussion of the involved sorption mechanisms of contaminants removal, as well as the biochar modification methods. Furthermore, environmental concerns of biochar that need to be paid attention to and future research directions are put forward to promote the further application of biochar in practical water and wastewater treatment.

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“…A large number of microorganisms will be lost, making it di cult to control its long-term treatment effect. As a result, it is found that the function of two or more microbial strains to combine the dominant strains has a better synergistic effect than a single strain (Tang et al 2018;Ying et al 2010). In previous research, Ying et al (Ying et al 2010)explored the ammonia nitrogen removal rates of the three cold-resistant strains into the constructed wetland system in cold areas to remove the winter wastewater.…”

Section: Introductionmentioning

confidence: 99%

“…The majority of the isolated strains were Psychrotrophic bacteria (Westlake et al 1974;Atlas 1981;Järvinen, Melin, and Puhakka 1994;Yao et al 2013;Vacková, Srb, and Stloukal 2011), the molecular mechanism and related theory of its low temperature adaptability has also been studied. (Järvinen, Melin, and Puhakka 1994;Guo et al 2010;Ma et al 2009;Ying et al 2010). Pei et al (Pei, Yang, and Tian 2010) studied the effect of Bacillus.Subtilis FY99-01 on denitri cation e ciency in wetlands and showed that the addition of microbial strain could effectively increase the nitrate removal e ciency in wetlands.…”

Section: Introductionmentioning

confidence: 99%

“…As a result, it is found that the function of two or more microbial strains to combine the dominant strains has a better synergistic effect than a single strain (Tang et al 2018;Ying et al 2010). In previous research, Ying et al (Ying et al 2010)explored the ammonia nitrogen removal rates of the three cold-resistant strains into the constructed wetland system in cold areas to remove the winter wastewater. When the ambient temperature was 6℃, the ammonia nitrogen removal rates of the three strains was 57.7%, 59.0% and 58.7% respectively at the concentration of 5% fungicide.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Bacterial community shift and effects of the inclusion of a mixed psychrotrophic bacteria strain for sewage treatment in constructed wetland in winter seasons

Xu

¹

,

Jiang

²

,

Guo

³

et al. 2021

Preprint

0

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The mechanism of wastewater treatment based on psychrophilic strains to improve the denitrification efficiency of constructed wetlands at low temperatures has already become a new hotspot. In this study, three mixed psychrophilic strains (Psychrobacter TM-1, Sphingobacterium TM-2 and Pseudomonas TM-3) with high capacity of denitrification were added into a vertical-flow constructed wetlands (CWs), and the effect of the mixed strains on CWs sewage treatment was evaluated. The removal efficiency of chemical oxygen demand (COD), ammonia nitrogen (NH4+-N), total nitrogen (TN) and total phosphorus (TP) was quantified to establish the degradation kinetic model and determine the best dosage of the mixed strains. The effect mechanism of the mixed strains on indigenous microbial community and the change of sewage treatment performance in low temperature constructed wetlands was clarified by high-throughput sequencing technology. The results showed that the mixed strains can effectively remove the organic pollutants (nitrogen and phosphorus) and the optimum dosage of the mixed strain was 2.5%,with average removal rates of 1.52, 2.12, 2.07 and 1.29 times than those of the control. Meanwhile, the dominant strains in the CWs were Proteobacteria (31.23–44.34%), Chloroflexi (12.04–19.05%), Actinobacteria (10.6-20.62%), Acidobacteria (8.23–11.65%), Firmicutes (2.23–15.95%) and Bacteroidetes (4.01–18.9%). These findings provide a basis for the removal of pollutants in constructed wetlands at low temperature.

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Advantages of psychrophiles in improving bio‐treatment efficiency of small size constructed wetlands during cold weather

Cited by 17 publications

References 19 publications

Recent advances in biochar application for water and wastewater treatment: a review

Recent advances in biochar application for water and wastewater treatment: a review

Peer Review #1 of "Recent advances in biochar application for water and wastewater treatment: a review (v0.2)"

Bacterial community shift and effects of the inclusion of a mixed psychrotrophic bacteria strain for sewage treatment in constructed wetland in winter seasons

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