22 results on '"Shi, Zhi-Jian"'
Search Results
2. Anammox granule as new inoculum for start-up of anaerobic sulfide oxidation (ASO) process and its reverse start-up.
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Shi, Zhi-Jian, Xu, Lian-Zeng-Ji, Wu, Dan, Cheng, Ya-Fei, Zhang, Fu-Yue, Liao, Si-Mo, Zhang, Zheng-Zhe, He, Miao-Miao, and Jin, Ren-Cun
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OXIDATION of sulfides , *UPFLOW anaerobic sludge blanket reactors , *ELECTROPHILES , *SULFIDES , *FLUORESCENCE - Abstract
Abstract The feasibility of implementing anaerobic ammonium oxidation (anammox) granules to start up high-loading anaerobic sulfide oxidation (ASO) in an upflow anaerobic sludge bed (UASB) reactor was investigated. An innovation method of the reverse start-up of anammox was also validated. Firstly, the reactor was operated to treat sulfide-rich wastewaters into which nitrite was introduced as an electron acceptor. An high-rate performance with sulfide and nitrate removal rates of 105.5 ± 0.11 kg S m−3 d−1 and 28.45 ± 3.40 kg N m−3 d−1, respectively, was accomplished. Sulfurovum were enriched with the increase of the substrate load and then conquered Candidatus Kuenenia to be the predominant bacteria. Excitation-emission matrix (EEM) spectroscopy showed that the intensities of fluorescence decreased and protein-like substrates were the main components associated with the process of start-up. FT-IR analysis found that the main functional groups indicator were O-H groups. Secondly, the reverse start-up of anammox (achieving 90% TN removal) was achieved immediately when the substrate changed. 16S rRNA analysis indicated the successfully enrichment of anammox bacteria (Candidatus Kuenenia). These results suggest that anammox granules can act as inoculum of high-loading ASO process and the reverse start-up provides a new perspective for the fast initiation of anammox process. Graphical abstract Image 1 Highlights • High-loading ASO process was started up by inoculation of anammox sludge. • Microbial community dynamics over different operational periods were revealed. • The reverse start-up of anammox process was quickly achieved. • EEM and FT-IR spectroscopy were employed to characterize changes in EPS. [ABSTRACT FROM AUTHOR]
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- 2019
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3. Mass transfer characteristics, rheological behavior and fractal dimension of anammox granules: The roles of upflow velocity and temperature.
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Shi, Zhi-Jian, Guo, Qiong, Xu, Yi-Qun, Wu, Dan, Liao, Si-Mo, Zhang, Fu-Yue, Zhang, Zheng-Zhe, and Jin, Ren-Cun
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FRACTAL dimensions , *MASS transfer , *GLOBAL temperature changes , *UPFLOW anaerobic sludge blanket (UASB) reactor , *VISCOSITY - Abstract
In this study, the mass transfer, rheological behavior and fractal dimension of anaerobic ammonium oxidation (anammox) granules in upflow anaerobic sludge blanket reactors at various temperatures (8.5–34.5 °C) and upflow velocities (0.06, 0.18 m h −1 ) were investigated. The results demonstrated that a lower temperature increased the external mass transfer coefficient and apparent viscosity and impaired the performance of anammox granules. The external mass transfer coefficient was decreased, but efficient nitrogen removal of up to 96% was achieved under high upflow velocity, which also decreased the apparent viscosity. Furthermore, a fractal dimension of up to 2.93 achieved at low temperature was higher than the previously reported values for mesophilic anammox granules. A higher upflow velocity was associated with the lower fractal dimension. Because of the disturbance in granule flaking, the effectiveness factor was less suitable than the external mass transfer coefficient for characterization of mass transfer resistance. [ABSTRACT FROM AUTHOR]
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- 2017
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4. Inhibition of the partial nitritation by roxithromycin and Cu(II).
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Guo, Qiong, Shi, Zhi-Jian, Xu, Jia-Li, Yang, Chen-Chen, Huang, Mei, Shi, Man-Ling, and Jin, Ren-Cun
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MACROLIDE antibiotics , *COPPER , *NITROGEN removal (Sewage purification) , *AMMONIA-oxidizing bacteria , *ANIMAL waste - Abstract
To facilitate the application of partial nitritation (PN) – anaerobic ammonium oxidation process in nitrogen removal from livestock wastewater, the inhibition of roxithromycin (ROX) and Cu(II) on the PN sludge was examined using a respirometric method. The results showed that the IC 50 of ROX and Cu(II) on PN sludge were 346 and 74.3 mg L −1 , respectively. The relative specific respiration rate (SRR) of ammonia-oxidizing bacteria (AOB) decreased from 87.4% to 17.7% with the ROX concentration increased from 0 to 500 mg L −1 . When the concentration of Cu(II) increased from 0 to 160 mg L −1 , the SRRs of AOB and nitrite-oxidizing bacteria decreased by 85.5% and 11.2%, respectively. According to the isobole plots analysis, combined suppression by ROX and Cu(II) was synergistic. Fourier transform infrared spectroscopy analyses showed that ROX exposure altered the positions of C O bonds, and the intensity of the absorption peak at 2100 cm −1 changed under Cu(II) exposure. [ABSTRACT FROM AUTHOR]
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- 2016
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5. A novel strategy for anammox consortia preservation: Transformation into anoxic sulfide oxidation consortia.
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Shi, Zhi-Jian, Xu, Lian-Zeng-Ji, Huang, Bao-Cheng, and Jin, Ren-Cun
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The preservation of anaerobic ammonia oxidation (anammox) consortia is crucial for the rapid start-up and the process stability of the anammox based bioreactor. This work proposed and evaluated the feasibility of an anammox consortia preservation strategy, in which the anammox sludge was transformed into intermediate anoxic sulfide oxidation (ASO) functional microorganisms. Initially, the ASO process was successfully started up by inoculating anammox sludge and the overall sulfide and nitrate removal rates stabilized at 57.5 ± 0.22 and 10.0 ± 0.18 kg m−3 day−1, respectively. Then, the bioreactor function was reversely transformed into anammox, whose nitrogen removal rate reached 1.68 kg m−3 day−1. Granule characteristics analysis revealed that both biomass and extracellular polymeric substance content returned to their original states after the reverse start-up. Although the population of Candidatus_Kuenenia was greatly declined during ASO process, its richness was successfully recovered after the reverse start-up of the anammox process. The inferred metagenomes analysis demonstrated that the shifts in functional microorganisms were related to variation in the main metabolic pathways. The specific activities of anammox and ASO both are regarded as key indicators for the successful start-up of bioreactor. This work revealed a novel technique for the preservation of anammox consortia and might be a potential strategy for overcoming the drawback of long start-up time. Unlabelled Image • Anammox consortia were preserved by using ASO microorganisms as intermediates. • Sulfurimonas and Sulfurovum have different apparent affinity for the substrate. • Candidatus_Kuenenia coexisted with Sulfurovum after the reverse start-up. • Functional microorganisms were related to the main metabolic pathways. [ABSTRACT FROM AUTHOR]
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- 2020
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6. Performance and microbial community responses of the partial nitration process to tetracycline and Zn(II).
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Xu, Lian-Zeng-Ji, Shi, Zhi-Jian, Guo, Qiong, Bai, Yu-Hui, Shen, Yang-Yang, Jin, Lu-Yang, Zhao, Yi-Hong, Zhang, Jiang-Tao, and Jin, Ren-Cun
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TETRACYCLINE , *NITRATION , *AMMONIA-oxidizing bacteria , *MICROBIAL communities , *TETRACYCLINES , *COMMUNITY organization - Abstract
• The IC 50 of TC and Zn(II) on the PN sludge was 235.8 and 41.8 mg L−1, respectively. • The long-term effects of TC and Zn(II) on PN sludge were investigated. • The PN sludge was more sensitive to Zn(II) than TC. • The dynamics of the AOB were indicative for the operation of the PN process. The feasibility of using the partial nitration (PN) process to treat wastewater containing tetracycline (TC) and Zn(II) was evaluated in this study. The community structure was analyzed using quantitative real-time PCR. The results suggested that the IC 50 of TC and Zn(II) on the PN sludge were 235.8 and 41.8 mg L−1, respectively. The PN sludge was insensitive to TC at a relatively high concentration (≤300 mg L−1) during the short-term exposure. Long-term test demonstrated that the PN sludge could tolerate 150 mg L−1 of TC after a domestication period. The PN performance was significantly inhibited when the concentration of Zn(II) reached 5 mg L−1. Real-time PCR revealed that the dynamics of the ammonia-oxidizing bacteria (AOB) were indicative for the operation of the PN process. The analyses also indicated that there was a direct correlation between the size of the indicative population and PN performance. [ABSTRACT FROM AUTHOR]
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- 2019
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7. Co-inhibition of salinity and Ni(II) in the anammox-UASB reactor.
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Wu, Dan, Li, Gui-Feng, Shi, Zhi-Jian, Zhang, Quan, Huang, Bao-Cheng, Fan, Nian-Si, and Jin, Ren-Cun
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Abstract Both nickel and salinity are often detected in the environment. Especially electroplating wastewater contains some salt and nickel, which affects microbial activity in biological wastewater treatment process. In this study, the effects of sustaining addition of a high-concentration salinity and Ni(II) on the anaerobic ammonium oxidation (anammox) process were examined. The results indicated that the anammox system had an acclimation ability to <0.2 mg L−1 Ni(II) and 20 g L−1 NaCl. After a recovery phase of approximately 70 days, the nitrogen removal efficiency and rate reached at 77.1% and 1.18 kg N m−3 d−1, respectively. The three-dimensional excitation-emission matrix fluorescence and Fourier transform infrared spectra results showed that the introduction of NaCl and Ni(II) caused a substantial variation in the quantity and composition of the bound EPS in the surface of anammox granules. The present study is the first to document the long-term effect of co-existence of salinity and Ni(II) on the performance of the freshwater-derived anammox bacteria in the upflow anaerobic sludge blanket reactor and to provide a reference for the stable operation of anammox bioreactors for the treatment of sulfonamide-containing wastewater. Graphical abstract Unlabelled Image Highlights • Long-term exposure to NaCl and Ni(II) resulted in co-inhibition on the anammox UASB system. • The sludge characteristics changed after chronic exposure to NaCl and Ni(II). • 3D-EEM analyses showed a change in organic compositions in B-EPS. • FTIR analyses suggested a shift in functional groups in B-EPS. • The deleterious impact of NaCl and Ni(II) was reversible. [ABSTRACT FROM AUTHOR]
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- 2019
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8. Unraveling the impact of nanoscale zero-valent iron on the nitrogen removal performance and microbial community of anammox sludge.
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Zhang, Zheng-Zhe, Xu, Jia-Jia, Shi, Zhi-Jian, Bai, Yu-Hui, Cheng, Ya-Fei, Hu, Hai-Yan, and Jin, Ren-Cun
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ZERO-valent iron , *NITROGEN reduction , *MICROBIAL communities , *ANAEROBIC bacteria , *CONTINUOUS flow reactors , *WASTEWATER treatment , *ENVIRONMENTAL remediation - Abstract
Given the increasing use of nanoscale zero-valent iron (NZVI) particles for environmental remediation and wastewater treatment, their potential impact on anaerobic ammonium oxidation (anammox) bacteria was investigated in this study using anammox sludge. Batch assays showed that NZVI concentrations up to 200 mg L −1 did not affect anammox activity, reactive oxygen species production, and cell membrane integrity. The nitrogen removal efficiency of the continuous-flow reactor fluctuated in the presence of 20 or 50 mg L −1 NZVI, but it could return to normal over time, even at 200 mg L −1 NZVI. 16S rDNA-based high-throughput sequencing indicated that although the presence of 10, 20, 50, and 200 mg L −1 NZVI to some extent affected microbial composition, the anammox bacteria ( Candidatus Kuenenia ) never lost its dominance. The abundance of gene families that are related to the assimilation and utilization of iron was down-regulated in response to the stress of high-level NZVI. [ABSTRACT FROM AUTHOR]
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- 2017
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9. Combined impacts of nanoparticles on anammox granules and the roles of EDTA and S2− in attenuation.
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Zhang, Zheng-Zhe, Xu, Jia-Jia, Shi, Zhi-Jian, Cheng, Ya-Fei, Ji, Zheng-Quan, Deng, Rui, and Jin, Ren-Cun
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NANOPARTICLES , *ETHYLENEDIAMINETETRAACETIC acid , *WASTEWATER treatment , *SUSPENDED solids , *OXIDATIVE stress - Abstract
Previous studies investigating the risk of engineered nanoparticles (NPs) to biological wastewater treatment have primarily tested NPs individually; however, limited data are available on the impact of NPs on the anaerobic ammonium oxidation (anammox) process. In this study, the toxicity of CuNPs on anammox granules was investigated individually and in combination with CuONPs or ZnONPs. Exposure to CuNPs at 5 mg g −1 suspended solids (SS) decreased the anammox activity to 47.1 ± 8.5%, increased the lactate dehydrogenase level to 110.5 ± 3.4% and increased the extracellular N 2 H 4 concentration by 16-fold but did not cause oxidative stress. The presence of CuONPs or ZnONPs at 5 mg g −1 SS did not significantly aggravate or alleviate the toxicity of the CuNPs; however, the introduction of EDTA or S 2− could attenuate the adverse effects of the CuNPs, CuONPs and ZnONPs on the anammox granules. EDTA captured Cu ions, whereas S 2− shielded and deactivated Cu ions and passivated CuNPs. Therefore, our results indicated that the toxicity of NPs was dependent on the amount of active metal reaching the anammox cells. Overall, the results of this study have filled knowledge gaps and provided insights into the combined toxicity of NPs on anammox biomass. [ABSTRACT FROM AUTHOR]
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- 2017
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10. Short-term impacts of Cu, CuO, ZnO and Ag nanoparticles (NPs) on anammox sludge: CuNPs make a difference.
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Zhang, Zheng-Zhe, Xu, Jia-Jia, Shi, Zhi-Jian, Cheng, Ya-Fei, Ji, Zheng-Quan, Deng, Rui, and Jin, Ren-Cun
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NANOPARTICLES , *WASTEWATER treatment , *SUSPENDED solids , *REACTIVE oxygen species , *COPPER - Abstract
The increasing application of engineered nanoparticles (NPs) has posed an emerging challenge to wastewater treatment processes. The short-term impacts of CuNPs, CuONPs, ZnONPs and AgNPs on anaerobic ammonium oxidation (anammox) process were investigated firstly in this study. CuONPs, ZnONPs and AgNPs up to 50 mg g −1 suspended solid (SS) did not affect anammox activity, reactive oxygen species (ROS) production or cell membrane integrity. However, 1.25 mg g −1 SS CuNPs significantly inhibited the anammox activity and the loads that caused 50% inhibition were 4.64 ± 1.24 and 3.27 ± 0.79 mg g −1 SS for anammox granules and flocs, respectively. 5 mg g −1 SS CuNPs caused serious accumulation of the toxic intermediate N 2 H 4 . Furthermore, CuNPs interacted with extracellular polymeric substances by specifically bonding to tyrosine or tryptophan-containing groups, C-O-C in polysaccharides and –OH in polymeric compounds. Therefore, this study calls for more attention to the risks of NPs to the anammox-based processes. [ABSTRACT FROM AUTHOR]
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- 2017
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11. Towards simultaneously removing nitrogen and sulfur by a novel process: Anammox and autotrophic desulfurization–denitrification (AADD).
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Guo, Qiong, Hu, Hai-Yan, Shi, Zhi-Jian, Yang, Chen-Chen, Li, Peng, Huang, Mei, Ni, Wei-Min, Shi, Man-Ling, and Jin, Ren-Cun
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NITROGEN removal (Sewage purification) , *DESULFURIZATION , *ANAEROBIC digestion , *DENITRIFICATION , *AMMONIUM - Abstract
The combined anammox (anaerobic ammonium oxidation) and autotrophic desulfurization–denitrification (AADD) process represents a promising innovative technology for biological nitrogen and sulfur removal. In this study, an up-flow anaerobic sludge blanket reactor, which was started with anammox and methanogenic granules, was operated for 245 days to evaluate the co-treatment of wastewater containing nitrogen and sulfur. The reactor demonstrated good performance in terms of nitrogen and sulfide removal and exhibited excellent behavior for removal of NH 4 + -N, NO 2 − -N and S 2− -S exceeding 252, 333 and 330 mg L −1 , respectively. The highest nitrogen removal rate and sulfide removal rate attained were 4.00 kgN m −3 d −1 and 2.39 kgS m −3 d −1 , respectively, which were also the highest reported values for a coupling-system. The influent NH 4 + -N:S 2− -S and NO 2 − -N:S 2− -S ratios set at 1.74 and 2.20–2.27 are suitable for maintaining system stability. The specific activities of anammox and autotrophic desulfurization–denitrification (SAA and SADD), extracellular polymeric substance (EPS), heme c (an important cofactor of some anammox bacterial enzymes) and the diversity of anammox and autotrophic desulfurization–denitrification (ADD) bacteria were investigated during the operation. The SAA and SADD are regarded as key factors for high efficiency. The granules contained many EPS (128.4–204.5 mg g −1 VSS) and minor heme c content (1.17 μmol g −1 VSS). The dominant bacteria belonged to members of Brocadiaceae and Hydrogenophilaceae , a majority of which were anammox bacteria and ADD bacteria, respectively. These observations suggest a new removal process for ammonia, nitrite and sulfide utilizing an uncommon mechanism involving simultaneous anammox and ADD. [ABSTRACT FROM AUTHOR]
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- 2016
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12. Improved anammox performance with a flow switched anaerobic baffled reactor (FSABR) modified from a common anaerobic baffled reactor (CABR).
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Chen, Hui, Chen, Qian-Qian, Shi, Zhi-Jian, Xu, Jia-Jia, Liu, An-Na, He, Li-Ling, Wu, Yu-Huan, Shi, Man-Ling, and Jin, Ren-Cun
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ANAEROBIC digestion , *NITROGEN removal (Sewage purification) , *PERFORMANCE of anaerobic reactors , *SLUDGE management , *ANAEROBIC reactors , *BIOREACTOR design & construction - Abstract
An anaerobic ammonium oxidation (anammox) reactor was operated with two feeding regimes. In stage 1, the reactor was operated as a common anaerobic baffled reactor (CABR) (constant flow direction), whereas in stage 2, the reactor was modified as a flow switched anaerobic baffled reactor (FSABR) with the flow direction switching every 10 days. Adjusting the feeding regime resulted in an increase in the average nitrogen loading rate (from 1.62 to 1.80 kgN m −3 d −1 ) and nitrogen removal efficiency (from 75.4 to 83.1%). In addition, a maximum nitrogen removal rate of 3.49 kgN m −3 d −1 was obtained in stage 2, compared with 3.00 kgN m −3 d −1 in stage 1. The sludge properties were also enhanced; from stage 1 to stage 2, the specific anammox activity increased by more than 5-fold, the settling velocity increased from 64.1 to 71.9 m h −1 , and the average particle diameter increased from 0.8 to 2.3 mm. However, there was minimal variation in the heme c content. The maximum substrate removal rates in stages 1 and 2 were 4.28 and 46.38 kgN m −3 d −1 when fitted by the Stover-Kincannon model, respectively. The results indicate that the FSABR performance was significantly enhanced compared with the CABR. [ABSTRACT FROM AUTHOR]
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- 2016
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13. Insight into the influence of magnesium on the properties of heterotrophic denitrifying granules.
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Chen, Hui, Chen, Qian-Qian, Shi, Zhi-Jian, Xu, Jia-Jia, He, Miao-Miao, Shi, Man-Ling, and Jin, Ren-Cun
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WASTEWATER treatment , *SLUDGE management , *ANAEROBIC digestion , *DENITRIFICATION , *MAGNESIUM - Abstract
This paper examined the influence of magnesium on denitrifying sludge. Two up-flow anaerobic sludge bed (UASB) reactors were used in the study. R 1 was continuously supplied with 50 mg L −1 of divalent magnesium in the wastewater and R 0 was used as a control without magnesium. On the 258th day, the sludge properties in R 0 and R 1 were analyzed when the nitrogen loading rates were both 36.0 kgN m −3 d −1 and the nitrogen removal rates of R 0 and R 1 were 33.8 and 34.6 kgN m −3 d −1 , respectively. The diameters of R 0 and R 1 were 0.95and1.35 mm, settling velocity (74.5 ± 20.8 and102.0 ± 22.6 m h −1 ), extracellular polymeric substance (60.8 ± 2.1 and76.0 ± 2.7 mg g −1 VSS)and specific denitrifying activity (794.4 ± 9.6 and825.6 ± 4.9 mgN d −1 ) were also compared. These results addressed that the addition of magnesium to denitrifying reactor is an effective alternative to enhance sludge properties. [ABSTRACT FROM AUTHOR]
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- 2016
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14. Effect of divalent nickel on the anammox process in a UASB reactor.
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Wu, Dan, Zhang, Quan, Xia, Wen-Jing, Shi, Zhi-Jian, Huang, Bao-Cheng, Fan, Nian-Si, and Jin, Ren-Cun
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UPFLOW anaerobic sludge blanket reactors , *HEAVY metal toxicology , *NICKEL , *HEAVY elements , *OPERATING costs , *MICROBIAL communities - Abstract
The anaerobic ammonium oxidation (anammox) process has the advantages of a high nitrogen removal rate, low operational cost, and small footprint and has been successfully implemented to treat high-content ammonium wastewater. However, very little is known about the toxicity of the heavy metal element Ni(II) to the anammox process. In this study, the short- and long-term effects of Ni(II) on the anammox process in an upflow anaerobic sludge blanket (UASB) reactor were revealed. The results of the short-term batch test showed that the half maximal inhibitory concentration (IC 50) of Ni(II) on anammox biomass was 14.6 mg L−1. A continuous-flow experiment was performed for 150 days of operation, and the results illustrated that after domestication, the achieved nitrogen removal efficiency was up to 93±0.03% at 10 mg L−1 Ni(II). The settling velocity, specific anammox activity and EPS content decreased as the Ni(II) concentration increased. Nevertheless, the content of heme c increased as the Ni(II) increased. These results indicate that short-term exposure to Ni(II) has an adverse impact on anammox process, but the anammox system could tolerate 10 mg L−1 Ni(II) stress after acclimation during continuous-flow operation for 150 days. High-throughput sequencing results indicated that the presence of Ni(II) had an impact on the microbial community composition in the anammox reactor, especially Candidatus Kuenenia. At Ni(II) concentrations of 0-10 mg L−1, the relative abundance of Candidatus Kuenenia decreased from 36.23% to 28.46%. • The IC50 of Ni(II) on anammox biomass was 14.64 mg L−1 in short-term assay. • The effect of Ni(II) on substrate removal kinetic behavior of anammox was studied. • The long-term effects of Ni(II) in anammox UASB reactor were evaluated. [ABSTRACT FROM AUTHOR]
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- 2019
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15. Insight into the short- and long-term effects of quinoline on anammox granules: Inhibition and acclimatization.
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Chen, Qian-Qian, Xu, Lian-Zeng-Ji, Zhang, Zao-Zao, Sun, Fan-Qi, Shi, Zhi-Jian, Huang, Bao-Cheng, Fan, Nian-Si, and Jin, Ren-Cun
- Abstract
Abstract The short- and long-term influence of quinoline on the properties of anaerobic ammonium oxidation (anammox) biogranules was evaluated. During batch tests, the bioactivity of anammox granules in the presence of different quinoline concentrations was monitored, and the IC 50 of quinoline was calculated to be 13.1 mg L−1 using a non-competitive inhibition model. The response of anammox granules to pre-exposure to quinoline was dependent on metabolic status, and the presence of both quinoline and NO 2 −-N had a rapid detrimental effect, resulting in a 64.5% decrease within 12 h. During continuous-flow experiments, the nitrogen removal rate (NRR) of the reactor decreased sharply within 3 days in the presence of 10 mg L−1 quinoline and then was restored to 2.6 kg N m−3 d−1. In the presence of quinoline-induced stress, the specific anammox activity and levels of extracellular polymeric substance and heme c were decreased, while settling velocity persistently increased. After cultivation and acclimation obtained by adding a medium level of quinoline to the influent, the anammox granule sludge was able to tolerate 10 mg L−1 quinoline in 178 days. Graphical abstract Unlabelled Image Highlights • The inhibitory effects of quinoline on anammox were investigated for the first time. • Gradient domestication was applied and toleration of 10 mg L−1 quinoline was achieved. • The content of EPS, heme c and diameter decreased after quinoline inhibition. [ABSTRACT FROM AUTHOR]
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- 2019
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16. Discrepant effects of metal and metal oxide nanoparticles on anammox sludge properties: A comparison between Cu and CuO nanoparticles.
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Zhang, Zheng-Zhe, Cheng, Ya-Fei, Xu, Lian-Zeng-Ji, Wu, Jing, Bai, Yu-Hui, Xu, Jia-Jia, Shi, Zhi-Jian, and Jin, Ren-Cun
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WASTEWATER treatment , *COPPER oxide , *METAL nanoparticles , *NITROGEN removal (Sewage purification) , *STATISTICAL correlation - Abstract
Metal and metal oxide nanoparticles (NPs) show differences in antimicrobial activity due to different chemical and physical properties. Using copper as a representative example, this study compared the NP effects on anaerobic ammonium oxidation (anammox) bacteria in wastewater treatment. Long-term exposure to 5 mgCu L −1 CuNPs reduced the physiological activity and abundance of anammox bacteria, thereby causing deterioration of reactor performance. However, anammox granules exhibited stronger resistance and resilience to perturbation by 1–160 mgCu L −1 CuONPs, and no adverse effects on performance were observed. Moreover, the level of Cu(II) released from NPs in the influent exhibited good correlations with variations of the community structure and sludge properties. Therefore, the effects of Cu-based NPs on anammox sludge properties are dependent on their forms and levels, and their discrepant effects are partially attributed to their ability to release ionic copper. [ABSTRACT FROM AUTHOR]
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- 2018
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17. Evaluating the effects of metal oxide nanoparticles (TiO2, Al2O3, SiO2 and CeO2) on anammox process: Performance, microflora and sludge properties.
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Zhang, Zheng-Zhe, Cheng, Ya-Fei, Xu, Lian-Zeng-Ji, Bai, Yu-Hui, Xu, Jia-Jia, Shi, Zhi-Jian, Shen, Yang-Yang, and Jin, Ren-Cun
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METALLIC oxides , *AMMONIUM , *WASTEWATER treatment , *NITROGEN removal (Water purification) , *CALCIUM - Abstract
The increasing use of engineered metal oxide nanoparticles (MONPs) in consumer products raises great concerns about their environmental impacts, but their potential impacts on anaerobic ammonium oxidation (anammox) process in wastewater treatment remain unclear. In this study, the presence of MONPs (1, 50, 200 mg L −1 ) exhibited no visible effects on the nitrogen removal performance of anammox reactors, but high levels (200 mg L −1 ) of SiO 2 NPs, Al 2 O 3 NPs and CeO 2 NPs had a distinct effect on shaping the anammox community. Long-term exposure of MONPs caused different responses in the relative abundance of Ca. Kuenenia , the level of functional gene Hzs A and the activities of three key enzymes involved in anammox metabolism, but no significant inhibition effects on specific anammox activity were detected. Overall, the effects of MONPs on anammox community structure and sludge properties depended on their types and levels and followed the order SiO 2 > CeO 2 > Al 2 O 3 > TiO 2 . [ABSTRACT FROM AUTHOR]
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- 2018
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18. Transient disturbance of engineered ZnO nanoparticles enhances the resistance and resilience of anammox process in wastewater treatment.
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Zhang, Zheng-Zhe, Cheng, Ya-Fei, Xu, Lian-Zeng-Ji, Bai, Yu-Hui, Xu, Jia-Jia, Shi, Zhi-Jian, Zhang, Qian-Qian, and Jin, Ren-Cun
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ZINC oxide , *NANOPARTICLES , *WASTEWATER treatment , *AMMONIUM , *LACTATE dehydrogenase , *REACTIVE oxygen species - Abstract
The increasing use of engineered nanoparticles (NPs) in consumer and industrial products raises concerns about their environmental impacts, but their potential influence on anaerobic ammonium oxidation (anammox) process in wastewater treatment remains unknown. In this study, the response of granule-based anammox reactor to different loads of ZnONPs was investigated. The introduction of 1–5 mg L − 1 ZnONPs did not affect reactor performance, but 90% of the nitrogen removal capacity was deprived by a shock of 10 mg L − 1 ZnONPs within 3 days. Anammox activity was significantly inhibited, but no significant stimulation of intracellular reactive oxygen species (ROS) production or extracellular lactate dehydrogenase (LDH) activity was observed. The inhibition was thus mainly due to the accumulation of toxic Zn(II) ions in anammox biomass. However, the resistance and resilience of this anammox reactor to ZnONPs were enhanced by intermittent perturbations in the mode of “shock-recovery”. The up-regulated abundance of Zn(II)-exporter ZntA might contribute to the enhanced resistance. In addition, these repeated transient disturbances improved the functional specificity of the anammox community despite the reduction of its diversity. Overall, these results may provide useful references for evaluating and controlling the risk of NPs to anammox process. [ABSTRACT FROM AUTHOR]
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- 2018
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19. Enhanced effects of maghemite nanoparticles on the flocculent sludge wasted from a high-rate anammox reactor: Performance, microbial community and sludge characteristics.
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Zhang, Zheng-Zhe, Cheng, Ya-Fei, Bai, Yu-Hui, Xu, Lian-Zeng-Ji, Xu, Jia-Jia, Shi, Zhi-Jian, Zhang, Qian-Qian, and Jin, Ren-Cun
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MAGHEMITE , *AMMONIA-oxidizing bacteria , *PERFORMANCE of bioreactors , *CHARACTERIZATION of sewage sludge , *FLOCCULANTS , *MICROBIAL communities , *MAGNETIC nanoparticles , *ENVIRONMENTAL remediation - Abstract
Magnetic nanoparticles (NPs) have been widely applied in environmental remediation, biomass immobilization and wastewater treatment, but their potential impact on anaerobic ammonium oxidation (anammox) biomass remains unknown. In this study, the short-term and long-term impacts of maghemite NPs (MHNPs) on the flocculent sludge wasted from a high-rate anammox reactor were investigated. Batch assays showed that the presence of MHNPs up to 200 mg L −1 did not affect anammox activity, reactive oxygen species production, or cell membrane integrity. Moreover, long-term addition of 1–200 mg L −1 MHNPs had no adverse effects on reactor performance. Notably, the specific anammox activity, the abundance of hydrazine synthase structural genes and the content of extracellular polymeric substance were increased with elevated MHNP concentrations. Meanwhile, the community structure was shifted to higher abundance of Candidatus Kuenenia indicated by high-throughput sequencing. Therefore, MHNPs could be applied to enhance anammox flocculent sludge due to their favorable biocompatibility. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
20. Susceptibility, resistance and resilience of anammox biomass to nanoscale copper stress.
- Author
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Shi, Man-Ling, Zhang, Zheng-Zhe, Hu, Hai-Yan, Xu, Jia-Jia, Shi, Zhi-Jian, Shen, Yang-Yang, and Jin, Ren-Cun
- Subjects
- *
BIOMASS , *NITROGEN removal (Sewage purification) , *MICROBIAL ecology , *COPPER , *TAXONOMY - Abstract
The increasing use of engineered nanoparticles (NPs) poses an emerging challenge to biological wastewater treatment. The long-term impact of CuNPs on anaerobic ammonium oxidation (anammox) process was firstly investigated in this study. The nitrogen removal capacity of anammox reactor was nearly deprived within 30 days under the stress of 5.0 mg L −1 CuNPs and the relative abundance of anammox bacteria (Ca. Kuenenia ) was decreased from 29.59% to 17.53%. Meanwhile, copper resistance genes associated with the Cus, Cop and Pco systems were enriched to eliminate excess intracellular copper. After the withdrawal of CuNPs from the influent, the nitrogen removal capacity of anammox biomass recovered completely within 70 days. Overall, anammox biomass showed susceptibility, resistance and resilience to the stress of CuNPs. Therefore, the potential impacts of ENPs on anammox-based processes should be of great concern. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
21. Effects of inorganic phosphate on a high-rate anammox system: Performance and microbial community.
- Author
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Zhang, Zheng-Zhe, Hu, Hai-Yan, Xu, Jia-Jia, Shi, Zhi-Jian, Deng, Rui, Ji, Zheng-Quan, Shi, Man-Ling, and Jin, Ren-Cun
- Subjects
- *
WASTEWATER treatment , *AMMONIUM compounds , *BACTERIAL communities , *NUCLEOTIDE sequencing , *NITROGEN removal (Sewage purification) - Abstract
Given the prospective application of anaerobic ammonium oxidation (anammox)-based processes in treating the ammonium-rich and phosphate-containing wastewaters, the effects of phosphate on anammox process were investigated considering the roles of phosphate forms and biomass geometry in this study. Batch experiments showed that phosphate lower than 155 mg P L −1 stimulated the specific anammox activity (SAA) of granules or flocs, whereas 310 mg P L −1 phosphate inhibited the SAA by 10% and the inhibitory effects were further enhanced with phosphate concentrations increasing. The half-maximal inhibitory concentrations of anammox granules and flocs were estimated as 1664.7 ± 114.7 and 1205.9 ± 77.5 mg P L −1 , respectively. The inhibitory effect may be mainly attributed to the dihydrogen phosphate ion (H 2 PO 4 − ) in weakly basic conditions. However, when the influent phosphate level of the granular sludge reactor gradually increased from 2 to 500 mg P L −1 , no adverse effects on the nitrogen removal performance were observed during a 195-day operation. The microbial community diversity and the relative abundance of anammox bacteria were reduced, but no shift in dominant anammox strain was recorded by high throughput sequencing. These results will trigger a rational reevaluation regarding the effects of inorganic phosphate on anammox process. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
22. Insight into the short- and long-term effects of inorganic phosphate on anammox granule property.
- Author
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Zhang, Zheng-Zhe, Xu, Jia-Jia, Hu, Hai-Yan, Shi, Zhi-Jian, Ji, Zheng-Quan, Deng, Rui, Shi, Man-Ling, and Jin, Ren-Cun
- Subjects
- *
AMMONIUM , *PHOSPHATES , *HYDROXYAPATITE , *CHARACTERIZATION of sewage sludge , *CONTINUOUS culture (Microbiology) - Abstract
The short- and long-term effects of inorganic phosphate on property of anaerobic ammonium oxidation (anammox) granule were investigated in this study. Acute exposure to high-level phosphate (⩾50 mM) induced the cytoplasm leakage. During a 195-day continuous-flow operation, the gradually increasing phosphate (up to 500 mgP L −1 ) slightly affected the specific anammox activity, hardly impacted the heme c content, remarkably decreased the extracellular polymeric substances production and significantly stimulated the dehydrogenase activity of anammox granules. Microbial community analysis showed no shift in the dominant anammox strain and higher population but lower relative abundance of anaerobic ammonium-oxidizing bacteria compared to the control granules. Interestingly, novel anammox granules with a hydroxyapatite core were cultivated, which possessed excellent settleability, huge granule diameter and superior mechanical strength. This study supported the application of granule-based anammox process as a pre-processing treatment in phosphate-containing and ammonia-rich wastewaters. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
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