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19 results on '"Wan-Qian Guo"'

1. Chain Elongation Using Native Soil Inocula: Exceptional n-Caproate Biosynthesis Performance and Microbial Mechanisms

Author

Lin Deng, Yang Lv, Tian Lan, Qing-Lian Wu, Wei-Tong Ren, Hua-Zhe Wang, Bing-Jie Ni, and Wan-Qian Guo

Subjects
Soil, Chain elongation, n-caproate, Reverse beta-oxidation, Fatty acid biosynthesis, Metagenomics, Engineering (General). Civil engineering (General), TA1-2040
Abstract

This study demonstrates the feasibility and effectiveness of utilizing native soils as a resource for inocula to produce n-caproate through the chain elongation (CE) platform, offering new insights into anaerobic soil processes. The results reveal that all five of the tested soil types exhibit CE activity when supplied with high concentrations of ethanol and acetate, highlighting the suitability of soil as an ideal source for n-caproate production. Compared with anaerobic sludge and pit mud, the native soil CE system exhibited higher selectivity (60.53%), specificity (82.32%), carbon distribution (60.00%), electron transfer efficiency (165.00%), and conductivity (0.59 ms∙cm−1). Kinetic analysis further confirmed the superiority of soil in terms of a shorter lag time and higher yield. A microbial community analysis indicated a positive correlation between the relative abundances of Pseudomonas, Azotobacter, and Clostridium and n-caproate production. Moreover, metagenomics analysis revealed a higher abundance of functional genes in key microbial species, providing direct insights into the pathways involved in n-caproate formation, including in situ CO2 utilization, ethanol oxidation, fatty acid biosynthesis (FAB), and reverse beta-oxidation (RBO). The numerous functions in FAB and RBO are primarily associated with Pseudomonas, Clostridium, Rhodococcus, Stenotrophomonas, and Geobacter, suggesting that these genera may play roles that are involved or associated with the CE process. Overall, this innovative inoculation strategy offers an efficient microbial source for n-caproate production, underscoring the importance of considering CE activity in anaerobic soil microbial ecology and holding potential for significant economic and environmental benefits through soil consortia exploration.

Published
2024
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2. Unveiling the Mechanism Underlying the Effects of Ammonia on n-Caproate Production: Influenced Pathways, Key Enzymes, and Microbiota Functions

Author

Qing-Lian Wu, Ke-Xin Yuan, Wei-Tong Ren, Lin Deng, Hua-Zhe Wang, Xiao-Chi Feng, He-Shan Zheng, Nan-Qi Ren, and Wan-Qian Guo

Subjects
Ammonia inhibition, Medium chain fatty acids, n-Caproate, Enzyme, Metagenomics, Engineering (General). Civil engineering (General), TA1-2040
Abstract

n-Caproate, which is produced via chain elongation (CE) using waste biomass, can supply various fossil-derived products, thus advancing the realization of carbon neutrality. Ammonia released from the degradation of nitrogen-rich waste biomass can act as a nutrient or an inhibitor in anaerobic bioprocesses, including CE, with the distinction being primarily dependent on its concentration. Currently, the optimal concentration of ammonia and the threshold of toxicity for open-culture n-caproate production using ethanol as an electron donor, along with the underlying mechanisms, remain unclear. This study revealed that the optimal concentration of ammonia for n-caproate production was 2.0 g∙L−1, whereas concentrations exceeding this threshold markedly suppressed the CE performance. Exploration of the mechanism revealed the involvement of two forms of ammonia (i.e., ammonium ions and free ammonia) in this inhibitory behavior. High ammonia levels (5.0 g∙L−1) induced excessive ethanol oxidation and suppressed the reverse β-oxidation (RBO) process, directly leading to the enhanced activities of enzymes (phosphotransacetylase and acetate kinase) responsible for acetate formation and diminished activities of butyryl-coenzyme A (CoA):acetyl-CoA transferase, caproyl-CoA:butyryl-CoA transferase, and caproyl-CoA:acetyl-CoA transferase that are involved in the syntheses of n-butyrate and n-caproate. Furthermore, the composition of the microbial community shifted from Paraclostridium dominance (at 0.1 g∙L−1 ammonia) to a co-dominance of Fermentimonas, Clostridium sensu stricto 12, and Clostridium sensu stricto 15 at 2.0 g∙L−1 ammonia. However, these CE-functional bacteria were mostly absent in the presence of excessive ammonia (5.0 g∙L−1 ammonia). Metagenomic analysis revealed the upregulation of functions such as RBO, fatty acid synthesis, K+ efflux, adenosine triphosphatase (ATPase) metabolism, and metal cation export in the presence of 2.0 g∙L−1 ammonia, collectively contributing to enhanced n-caproate production. Conversely, the aforementioned functions (excluding metal cation export) and K+ influx were suppressed by excessive ammonia, undermining both ammonia detoxification and n-caproate biosynthesis. The comprehensive elucidation of ammonia-driven mechanisms influencing n-caproate production, as provided in this study, is expected to inspire researchers to devise effective strategies to alleviate ammonia-induced inhibition.

Published
2024
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5. Fumaric Acid Assistant Band Structure Tunable Nitrogen Defective g-C3N4 Fabrication for Enhanced Photocatalytic Hydrogen Evolution

Author

Wei Zhou, Yiliang Chen, Xin Tan, Tao Xie, Boyu Shao, Yizhong Zhang, Wan-Qian Guo, and Tao Yu

Subjects
Fumaric acid, Fabrication, Materials science, Renewable Energy, Sustainability and the Environment, Charge separation, General Chemical Engineering, chemistry.chemical_element, 02 engineering and technology, General Chemistry, Nitride, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Nitrogen, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Chemical engineering, Photocatalysis, Environmental Chemistry, Hydrogen evolution, 0210 nano-technology, Electronic band structure
Abstract

Tuning the structural defects of graphite carbon nitride (g-C3N4) is an effective strategy to modify its band structure and promote charge separation, but it is still limited by complex and harsh p...

Published
2021

12. Optimization of Photo-Hydrogen Production by Immobilized Rhodopseudomonas Faecalis RLD-53

Author

Wan-Qian Guo, Bing-Feng Liu, Jie Ding, Ren Nanqi, and Guo-Jun Xie

Subjects
food.ingredient, biology, Hydrogen, Granule (cell biology), food and beverages, chemistry.chemical_element, biology.organism_classification, Agar gel, Light intensity, food, Biochemistry, chemistry, Agar, Bacteria, Rhodopseudomonas faecalis, Nuclear chemistry, Hydrogen production
Abstract

In this work, the optimization of hydrogen production by photo-fermentation bacteria immobilized on agar gel granule was systematic investigated in batch culture. Experiment focus on the effect of some important affecting factors on photo-hydrogen production. Results indicated that immobilized Rhodopseudomonas faecalis RLD-53 exhibited the highest hydrogen yield of 3.15 mol H2/mol acetate under follow optimal condition: agar granule diameter of 2.5 mm, inoculum age of 24 h, agar concentration of 2%, biomass of 4 mg/ml in agar and light intensity of 9000 lux. More importantly, immobilized photo-fermentation bacteria not only can enhance hydrogen production but can increase acids-tolerance capacity, even at pH 5.0 hydrogen also was produced, and thus hopefully immobilized photo-fermentation bacteria can be applied in the combination of dark and photo-fermentation for hydrogen production with high yield.

Published
2011

13. Let a sewage plant running smart

Author

Zhong-Yang Wu, Nan-Qi Ren, Zhi-Qing Zhao, Ji-Wei Pang, Wan-Qian Guo, Xiao-Man Jin, Shan-Shan Yang, and Xiao-Yin Yang

Subjects
Waste management, Sewage treatment, Business
Published
2018

14. Removal of cadmium (II) from aqueous solution using carya (Juglans mandshurica Maxim.) shell

Author

Wan-Qian Guo, Zhao Hui Meng, Jin-Miao Zha, Chun-Guang Yu, and Mao-An Du

Subjects
Cadmium, Aqueous solution, biology, Chemistry, Environmental engineering, Biosorption, chemistry.chemical_element, Langmuir adsorption model, Sorption, biology.organism_classification, Industrial waste, symbols.namesake, Adsorption, Juglans mandshurica, symbols, Nuclear chemistry
Abstract

The removal of cadmium (II), onto agricultural waste biomass carya shell (CS) over a wide range of reaction conditions was studied from aqueous solution. These conditions including the effect of solution pH, initial concentration, contact time on sorption efficiency. The cadmium (II) adsorption was favored with maximum adsorption at pH 7.0. The uptake amount of cadmium (II) onto CS was increased with increasing initial concentration. Biosorption equilibrium time was observed in 50min. The equilibrium adsorption data were fitted to Langmuir adsorption isotherm model and the model parameters were evaluated. The results showed that CS could be employed as a low-cost alternative adsorbent for the removal of cadmium (II) from aqueous solution.

Published
2011

15. The conditions of oxic-settling-anoxic process on sludge reduction in the active sludge system

Author

Shui-Li Yu, Wan-Qian Guo, Max Dohmann, Zhao-Hui Meng, and Chun-Guang Yu

Subjects
Activated sludge, Waste management, Wastewater, Sewage sludge treatment, Environmental science, Aerated lagoon, Sewage treatment, Sludge bulking, Sludge, Mixed liquor suspended solids
Abstract

This paper studied the effect of microbial species grow speed(MPGS), soluble microbial populations(SMPs) on the excess sludge production in the oxic-settling-anoxic process (OSA process), a modification of conventional activated sludge process by inserting a sludge holding tank in a sludge return line. The OSA process may provide a cost-effective way to reduce excess sludge production in activated sludge processes. The system was operated using synthetic wastewater for 4 months. The results showed that MPGS and SMP did not affect the sludge reduction. It was also found that the OSA system performed better than the traditional system in terms of the chemical oxygen demand removal efficiency and sludge settle ability.

Published
2011

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