Characterization of biocarbon-source recovery and microbial community shifts from waste activated sludge by conditioning with cornstover: Assessment of cellulosic compositions

Wen, Kaili; Zhou, Aijuan; Zhang, Jiaguang; Liu, Zhihong; Wang, Guoying; Liu, Wenzong; Wang, Aijie; Yue, Xiuping

doi:10.1038/srep42887

Cited by 12 publications

(5 citation statements)

References 49 publications

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“…DNA was extracted from the sediments of three replicate flasks using a EZNA ® Soil DNA kit (Omega Bio-Tek, Inc., Norcross, GA, USA) and then pooled together. Amplicon liberates were constructed for pyrosequencing using bacterial fused primers 341 F and 805 R for the V3-V4 region of the 16S rRNA gene 19 . A common way to distinguish the products of a multiplex genotyping reaction is to incorporate specific nucleotide sequences, i.e., “barcodes”, into the allele-specific genotyping oligos.…”

Section: Methodsmentioning

confidence: 99%

Microbial network of the carbonate precipitation process induced by microbial consortia and the potential application to crack healing in concrete

Zhang

Zhou

Liu

et al. 2017

Sci Rep

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Current studies have employed various pure-cultures for improving concrete durability based on microbially induced carbonate precipitation (MICP). However, there have been very few reports concerned with microbial consortia, which could perform more complex tasks and be more robust in their resistance to environmental fluctuations. In this study, we constructed three microbial consortia that are capable of MICP under aerobic (AE), anaerobic (AN) and facultative anaerobic (FA) conditions. The results showed that AE consortia showed more positive effects on inorganic carbon conversion than AN and FA consortia. Pyrosequencing analysis showed that clear distinctions appeared in the community structure between different microbial consortia systems. Further investigation on microbial community networks revealed that the species in the three microbial consortia built thorough energetic and metabolic interaction networks regarding MICP, nitrate-reduction, bacterial endospores and fermentation communities. Crack-healing experiments showed that the selected cracks of the three consortia-based concrete specimens were almost completely healed in 28 days, which was consistent with the studies using pure cultures. Although the economic advantage might not be clear yet, this study highlights the potential implementation of microbial consortia on crack healing in concrete.

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Section: Methodsmentioning

confidence: 99%

Microbial network of the carbonate precipitation process induced by microbial consortia and the potential application to crack healing in concrete

Zhang

Zhou

Liu

et al. 2017

Sci Rep

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“…Large amounts of WAS are produced from wastewater treatment plants (WWTPs), which contain high levels of organic matter, such as proteins and carbohydrates [2]. Taking the resource utilization of WAS into account, short-chain fatty acids (SCFAs) produced from the WAS fermentation process are attracting more interest as a crucial way to achieve biological carbon recovery [3], [4]. In addition, the SCFAs are raw materials for the synthesis of biodegradable plastics polyhydroxyalkanoates [5].…”

Section: Introductionmentioning

confidence: 99%

Microbial community response and SDS-PAGE reveal possible mechanism of waste activated sludge acidification enhanced by microaeration coupled thermophilic pretreatment

Hou

Yang

Zhou

et al. 2018

Process Biochemistry

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Aiming to strengthen the performance of waste activated sludge digestion, pretreatment is a prerequisite for keeping operations within an industrially acceptable time-frame. In this study, the performance of microaeration coupled with thermophilic (MT) pretreatment on waste activated sludge solubilization and acidification was investigated. The results showed that the maximum soluble organics concentrations, including soluble proteins and carbohydrates, reached 2290 mg COD/L in 24 h when the ventilation rate and temperature were 0.05 vvm and 70 °C. SDS-polyacrylamide gel electrophoresis (SDS-PAGE) test on pure-culture (E.coli) and scanning electron microscopy analysis indicated that MT pretreatment effectively destroyed microbial cell wall and resulted in an increase in soluble proteins. Polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) analysis revealed that MT pretreatment reduced the diversity of the bacterial community during pretreatment. Along with the dissolution of a large quantity of organic matter, microbial species such as Lactococcus and Methyloversatilisbloomed at the end of acidification period, which contributed to SCFAs production. This study revealed that MT pretreatment facilitated the WAS hydrolysis efficiency and enhanced SCFAs (3149 mg COD/L with fermentation for 96 h) production, especially for acetic acid (50%) accumulation, which provides a new perspective for the application and recovery of sludge resources.

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“…As shown in Figure (B), various anaerobic species showed lower abundance due to the presence of CHD and HTAB, such as the Acinetobacter , Sapropiraceae , Anaerolineaceae , and et al However, the dominant fermentative bacteria, which were expected to utilize various organic substrates for SCFAs generation, were highly enriched in reactors with CHD and HTAB exposure. For example, Bacteroides that contributed significantly to acetic and propionic acids production and Macellibacteroides that could metabolize carbohydrates with acetate as the main fermentation product were both increased in the biocides reactors. Acidaminobacter , which was reported to be involved in the sludge biological hydrolysis and organics fermentation for acetic and propionic acids production, , was found to be respectively 8.87% and 22.05% in the CHD and HTAB reactors, while it was only 0.08% in the control.…”

Section: Results and Discussionmentioning

confidence: 99%

How Do Biocides That Occur in Waste Activated Sludge Affect the Resource Recovery for Short-Chain Fatty Acids Production

Luo

Zhang

et al. 2018

ACS Sustainable Chem. Eng.

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Anaerobic technology is an efficient and sustainable approach for disposing waste activated sludge (WAS), but the performance is easily affected by environmental conditions. In this study, the potential impacts of chlorhexidine (CHD) and hexadecyltrimethylammonium bromide (HTAB), two highly detected biocides in WAS, on the short-chain fatty acids (SCFAs) generation during anaerobic fermentation were explored. The experimental results indicated that the biocides promoted SCFAs generation unexpectedly, particularly for acetic acid. The accumulation of SCFAs increased from 567.3 mg COD/L in the control to 2144.5 and 3400.0 mg COD/L with low CHD and HTAB exposure (50 mg/L), respectively. However, the enhancing effects were weakened in reactors with high loads of biocides or CHD and HTAB coexistence. Mechanisms exploration revealed that the CHD and HTAB first enhanced the extracellular polymeric substances disruption and then simultaneously accelerated both the hydrolysis and acidification processes while inhibiting the methanogensis. The relative activities of hydrolases, acidogenic enzymes, and bioenergy involved in SCFAs production were significantly enhanced with low biocide dosage. Moreover, the abundances of active microorganisms that participated in the biological hydrolysis and acidification processes were highly enriched in biocide reactors while the acetoclastic methanogens were reduced. This work might be of significance to regulate the WAS fermentation for better resource recovery.

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Characterization of biocarbon-source recovery and microbial community shifts from waste activated sludge by conditioning with cornstover: Assessment of cellulosic compositions

Cited by 12 publications

References 49 publications

Microbial network of the carbonate precipitation process induced by microbial consortia and the potential application to crack healing in concrete

Microbial network of the carbonate precipitation process induced by microbial consortia and the potential application to crack healing in concrete

Microbial community response and SDS-PAGE reveal possible mechanism of waste activated sludge acidification enhanced by microaeration coupled thermophilic pretreatment

How Do Biocides That Occur in Waste Activated Sludge Affect the Resource Recovery for Short-Chain Fatty Acids Production

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