Your search keyword '"Fan, Hongyong"' showing total 11 results

1. Concomitant management of solid and liquid swine manure via controlled co-composting: Towards nutrients enrichment and wastewater recycling

Author

Fan, Hongyong, Liao, Jie, Abass, Olusegun K., Liu, Lin, Huang, Xu, Li, Jie, Tian, Shaohua, Liu, Xuejun, Xu, Kaiqin, and Liu, Chaoxiang

Published

2021

2. Effects of bulking material types on water consumption and pollutant degradation in composting process with controlled addition of different liquid manures

Author

Fan, Hongyong, Liao, Jie, Abass, Olusegun K., Liu, Lin, Huang, Xu, Wei, Lili, Xie, Wei, Yu, Hengyang, and Liu, Chaoxiang

Published

2019

3. Development of algae-bacteria granular consortia in photo-sequencing batch reactor

Author

Liu, Lin, Fan, Hongyong, Liu, Yuhong, Liu, Chaoxiang, and Huang, Xu

Published

2017

4. Influence of hydraulic retention time on behavior of antibiotics and antibiotic resistance genes in aerobic granular reactor treating biogas slurry

Author

Liao, Jie, Liu, Chaoxiang, Liu, Lin, Li, Jie, Fan, Hongyong, Ye, Jiaqi, and Zeng, Zhichao

Published

2019

5. Flexible thermosensitive films based on shallow-trap persistent luminescence for high-resolution texture imaging of fingerprints even through latex gloves.

Author

Zheng, Shenghui, Shi, Junpeng, Wang, Xiaodan, Fu, Xiaoyan, Fan, Hongyong, and Zhang, Hongwu

Abstract

Here, we have developed a novel thermosensitive technique based on shallow-trap persistent luminescence to achieve high-resolution and long-duration texture imaging of fingerprints even through latex gloves. A thermosensitive flexible film that consists of a transparent silica gel embedded with a shallow-trap Bi2Ga4O9:Eu3+,Cr3+ (BGO) phosphor microarray exhibits broadband near-infrared PersL, which enables sensitive temperature sensing using a thermally stimulated luminescence (TSL) method. The uniform surface conical arrays of the BGO film ensure a high thermal sensing resolution. Only a simple touch is enough to induce thermal distribution that can be easily visualized as luminescence using an EMCCD camera. Furthermore, the BGO film responds rapidly to small temperature fluctuations with high sensitivity (8.10 ± 0.476% K−1), enabling fingerprint imaging even through latex gloves in only a few seconds. This imaging strategy is very promising for sensitive temperature sensing without power supply, and it also opens new application opportunities for shallow-trap PersL materials. [ABSTRACT FROM AUTHOR]

Published

2021

6. Effects of compost characteristics on nutrient retention and simultaneous pollutant immobilization and degradation during co-composting process.

Author

Fan, Hongyong, Liao, Jie, Abass, Olusegun K., Liu, Lin, Huang, Xu, Wei, Lili, Li, Jie, Xie, Wei, and Liu, Chaoxiang

Subjects

*POLLUTANTS, *CHEMICALS, *DYNAMICS, *GRAVITATION, *FORCE & energy

Abstract

Highlights • A volume model technique was developed for controlled liquid manure addition. • Swine effluent and small bulking material sizes enhanced organic matter degradation. • Liquid manure types influenced nutrients and heavy metals retention potentials. • Reduced leachate generation was achieved via optimized co-composting condition. Abstract This study was conducted to examine the effects of controlled addition of liquid (LM) to solid (SM) manure compost using a volume-model technique on the co-composting of SM and LM, and further to investigate the major effects of bulking material sizes and LM types on the co-composting process and final compost characteristics. Results indicated that this volume-model technique played a critical role in reducing leachate generation and improving the overall efficiency of the co-composting process. Specifically, the developed model enhanced the evaporation rates of windrows during the co-composting process. For improved final compost properties, small bulking materials and swine-effluent-based LM were found to be more efficient for organic matter degradation, LM consumption, hazardous metals immobilization, and essential nutrients retention than large bulking materials and biogas-based LM. Thus, process parameter optimizations represent major research options for successful co-composting applications for the future. [ABSTRACT FROM AUTHOR]

Published

2019

7. Fate of antibiotics from swine wastewater in constructed wetlands with different flow configurations.

Author

Liu, Lin, Li, Jie, Fan, Hongyong, Huang, Xu, Wei, Lili, and Liu, Chaoxiang

Subjects

*WETLANDS, *CONSTRUCTED wetlands, *ANTIBIOTICS, *SWINE, *OYSTER shell, *BACTERIAL communities

Abstract

The removal efficiencies and accumulated concentrations of oxytetracycline and ciprofloxacin in three pilot-scale constructed wetlands (CWs) with different flow configurations (surface, horizontal subsurface, and vertical subsurface flow) were investigated. The results indicated that the average mass removal efficiencies of the CWs for the target antibiotics in one year of treatment ranged from 85 to 99%, and the vertical subsurface flow constructed wetlands exhibited the highest and most stable removal efficiencies for oxytetracycline (99 ± 0.27%) and ciprofloxacin (97 ± 0.26%). The influence of seasonal changes on the removal efficiencies of oxytetracycline and ciprofloxacin in CWs was insignificant. The higher accumulated antibiotic concentrations and antibiotic-degrading bacteria abundances indicated that substrate adsorption and biodegradation were the predominant pathways affecting the antibiotic removal efficiency of wetlands. The concentration of accumulated ciprofloxacin in soil and oyster shell (84–124 and 83–115 μg kg−1) was significantly higher than that of oxytetracycline (37–81 and 3–17 μg kg−1). In addition, analysis results based on pilot-scale CWs also indicated that the influence of the type of CW on the bacterial community was more significant than the wetland substrate and residual concentration of antibiotics. • Flow configuration determine removal efficiencies of OTC and CIP in wetland. • Removal rate of antibiotic in wetland increased in following order: VSF > HSF > SF. • Neutral-pH level of substrate can enhance degradation rate of OTC in wetland. • Flow configuration show more effect on bacterial community in CW than antibiotic. [ABSTRACT FROM AUTHOR]

Published

2019

8. Behavior of antibiotics and antibiotic resistance genes in aerobic granular reactors: Interrelation with biomass concentration.

Author

Liu, Lin, You, Qiyu, Fan, Hongyong, Huang, Xu, Wei, Lili, and Liu, Chaoxiang

Subjects

*TETRACYCLINE, *ANTIBIOTICS, *SULFONAMIDES, *TETRACYCLINES, *GENES, *INVERSE relationships (Mathematics), *BIOMASS

Abstract

Abstract Three aerobic granular reactors with different mixed liquor suspended solids concentration (about 6432 mg L−1, 9053 mg L−1, 11840 mg L−1) were operated to assess the influence of biomass concentration on efficiency of tetracyclines and sulfonamides removal, and on the abundance of corresponding antibiotic resistance genes in the sludge. Results indicated that biomass concentration did affect effluent concentration of sulfonamides, yet no significant difference in tetracyclines removal was observed among the three reactors. Accumulated concentrations of all antibiotics had significant negative significant correlations with biomass concentration. Accumulated concentrations of total tetracyclines and total sulfonamides in sludge from the three reactors were 9.62 μg g−1 and 1.13 μg g−1, 6.74 μg g−1 and 0.70 μg g−1, and 3.70 μg g−1 and 0.30 μg g−1, respectively. Among investigated antibiotic resistance genes, only tet A had a significant negative correlation with biomass concentration, and the relative abundances of tet A in the three reactors at the end of this experiment were 5.75 × 10−2, 4.34 × 10−2 and 3.86 × 10−2, respectively. Results from this study suggested that biomass concentration is key operational parameter of granular reactors that can affect antibiotic removal efficiency, but it was not a major influencing factor in controlling abundance of antibiotics resistance genes in sludge. Highlights • Biomass concentration showed significant positive effect on sulfonamides removal. • Higher biomass concentration enhanced degradation efficiencies of tetracyclines. • Antibiotics accumulation had negative relationship with biomass concentration. • Relative abundance of tet A increased in reactor with lower biomass concentration. [ABSTRACT FROM AUTHOR]

Published

2019

9. Performance and bacterial community dynamics of vertical flow constructed wetlands during the treatment of antibiotics-enriched swine wastewater.

Author

Huang, Xu, Zheng, Jialun, Liu, Chaoxiang, Liu, Lin, Liu, Yuhong, Fan, Hongyong, and Zhang, Tingfeng

Subjects

*CONSTRUCTED wetlands, *FLUID flow, *WASTEWATER treatment, *BIOLOGICAL nutrient removal, *OXYTETRACYCLINE

Abstract

This study aimed to evaluate the nutrient removal and microbial response during the treatment of antibiotics-enriched swine wastewater by vertical flow constructed wetlands with different water flow directions and substrates. Better NH 4 -N and TN removal were achieved in down-flow and up-flow treatments, respectively. The concentrations of all the chemical properties including oxytetracycline (OTC), difloxacin (DIF), copper (Cu) and zinc (Zn), nitrite/nitrate, sulphate and total organic carbon (TOC) in down-flow treatment soils were significantly higher than those in up-flow treatments on day 30, 60 and 90 (p < 0.05). Bacterial α-diversity indices in soils were negatively correlated with the concentrations of OTC, DIF, Cu and Zn significantly (p < 0.05). Among experimental factors, substrate type significantly contributed to variation of bacterial communities in waters, while water flow direction and sampling time significantly contributed to those in soils (p < 0.01). Among environmental factors, OTC + DIF, Cu + Zn, nitrate/nitrite and sulphate significantly contributed to variation of bacterial communities in soils (p < 0.05). The taxonomy assignment indicated that antibiotics accumulation in soils promoted the growth of 19 dominant genera, including several antibiotic-resistant or degrading bacteria, which however were generally not dominant in effluents. In addition, although the TN and NH 4 -N removals were reduced when antibiotic concentrations in soils increased, the available community data cannot strongly support the inhibition effect of antibiotics on nitrogen transformation. Further assessment found that some dominant genera in water samples and those enriched under the stress of antibiotics in soils tended to increase their abundances in the effluents of oyster shell-based CWs. [ABSTRACT FROM AUTHOR]

Published

2017

10. Removal of antibiotics and resistance genes from swine wastewater using vertical flow constructed wetlands: Effect of hydraulic flow direction and substrate type.

Author

Huang, Xu, Zheng, Jialun, Liu, Chaoxiang, Liu, Lin, Liu, Yuhong, and Fan, Hongyong

Subjects

*ANTIBIOTICS, *VERTICAL flow (Fluid dynamics), *WETLANDS, *MICROPORES, *PARTICLE size distribution, *TETRACYCLINES

Abstract

The fate of antibiotics and antibiotic resistance genes (ARGs) in constructed wetlands has received more concerns recently. This study aimed to assess the influence of hydraulic flow direction (down-flow or up-flow) and substrate type (brick rubble or oyster shell) on removal of antibiotics and ARGs from swine wastewater. For antibiotic removal, all of treatments can remove more than 84% of oxytetracycline and difloxacin during two stages of operation. Brick-based columns had stronger antibiotic removal capacity due to properties of brick, including large porosity and micropore size and 32% of Fe 2 O 3 . The surface soils tended to adsorb much more oxytetracycline than difloxacin, as was opposite to brick and oyster shell. For ARGs removal, the removal efficiencies of tetracycline-resistance genes ( tet ) and integrase gene of Class 1 integrons ranged from 33.2 to 99.1%, without significant difference among treatments (p > 0.05). However, most of ∑ tet relative abundances in effluents of up-flow treatments were higher than those in influents, which indicated a risk to release relatively more antibiotic-resistant bacteria in proportion to total bacteria into environment. Significantly correlated with antibiotic concentrations, ARGs relative abundances in surface soils increased as the time progressed for all the treatments. Our results demonstrate that antibiotic removal using constructed wetlands is greatly affected by substrate type, whereas variation of ARG relative abundances in effluents and soils are determined by hydraulic flow direction. [ABSTRACT FROM AUTHOR]

Published

2017

11. Higher Temperatures Do Not Always Achieve Better Antibiotic Resistance Gene Removal in Anaerobic Digestion of Swine Manure.

Author

Huang X, Zheng J, Tian S, Liu C, Liu L, Wei L, Fan H, Zhang T, Wang L, Zhu G, and Xu K

Subjects

Anaerobiosis genetics, Animals, Anti-Bacterial Agents pharmacology, Bacteria drug effects, Bacteria pathogenicity, Body Weight, DNA Transposable Elements genetics, Digestion physiology, Drug Resistance, Bacterial drug effects, Drug Resistance, Bacterial physiology, Gene Transfer, Horizontal, Microbiota genetics, RNA, Ribosomal, 16S genetics, Streptococcus genetics, Swine, Bacteria genetics, Drug Resistance, Bacterial genetics, Drug Resistance, Microbial genetics, Manure microbiology, Temperature

Abstract

This study employed high-throughput quantitative PCR and 16S rRNA sequencing to evaluate the effect of temperature and residual antibiotics on the dynamics of antibiotic resistance genes (ARGs) and microbial communities during anaerobic digestion of swine manure. The abundances of total ARGs and 16S rRNA genes significantly decreased in all of four treatments (25°C, 37°C, and 37°C with 50 mg of wet weight antibiotics of body weight, and 55°C). The abundances of most ARG types were significantly correlated with those of the 16S rRNA gene and transposase gene ( P < 0.01). However, the abundances of total ARGs at 55°C were much higher than those of other treatments. Meanwhile, the microbial communities at 55°C, where the Streptococcus pathogen remained at a relatively high abundance and cellulose degraders and hydrogen producers, such as Ethanoligenens and Coprococcus bacteria, increased, were markedly different from those of other treatments. Redundancy analysis indicates that temperature, pH, and the genus Streptococcus had the highest explanation for ARG variation among experimental factors, chemical properties, and representative genera, respectively. Network analysis further showed that the genus Streptococcus contributed greatly to the higher ARG abundance at 55°C. The moderate antibiotic residue only caused a slight and transitory inhibition for microbially diverse populations and promotion for ARG abundance, probably due to the degradation of antibiotics and microbial adaptability. Our results clarify the cooperativity of gene transfer-related items on ARG variation and intensively prove that higher temperature cannot always achieve better ARG removal in anaerobic digestion unless pathogens and gene transfer elements are more efficiently inhibited. IMPORTANCE Antibiotic resistance genes (ARGs) are frequently detected with high abundance in manure-applied soils. Anaerobic digestion is one of widely used processes for animal waste treatment. Thus, it is critical to understand the potential of anaerobic digestion to attenuate ARGs. Although some previous studies recommended thermophilic digestion for ARG removal, they did not get sufficient evidence to support this view. The antibiotics applied to animals are mostly excreted through feces and urine because of incomplete metabolism. It is indispensable to know whether residual antibiotics in manure will hinder ARG attenuation in anaerobic digesters. The significance of our research is in comprehensively understanding the evolution and mechanism of ARGs in anaerobic digestion of swine manure affected by temperature and residual antibiotics, which will allow the development of an ARG elimination strategy before their release into the environment., (Copyright © 2019 American Society for Microbiology.)

Published

2019