Microbial population dynamics in urban organic waste anaerobic co-digestion with mixed sludge during a change in feedstock composition and different hydraulic retention times

Fitamo, Temesgen Mathewos; Treu, Laura; Boldrin, Alessio; Sartori, Cristina; Angelidaki, Irini; Scheutz, Charlotte

doi:10.1016/j.watres.2017.04.012

Cited by 144 publications

(52 citation statements)

References 49 publications

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“…B), accompanied by syntrophic bacteria such as those from the proteolytic genus Coprothermobacter (7.7% of CL3), consisting of acetate‐degraders in syntrophic association with hydrogenotrophic methanogens (Ho et al ., ), and Pelotomaculum (4.9% of CL3), a genus of syntrophic propionate‐oxidizing bacteria (Bok et al ., ). Changes in microbial communities linked to transitions from mono‐ to co‐digestion have been previously observed (Fitamo et al ., ) and can be expected given the strong influence of substrates on AD microbial communities (Regueiro et al ., ).…”

Section: Resultsmentioning

confidence: 97%

Air‐side ammonia stripping coupled to anaerobic digestion indirectly impacts anaerobic microbiome

Fernandez‐Gonzalez

Pedizzi

Lema

et al. 2019

Microbial Biotechnology

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Summary Air‐side stripping without a prior solid–liquid phase separation step is a feasible and promising process to control ammonia concentration in thermophilic digesters. During the process, part of the anaerobic biomass is exposed to high temperature, high pH and aerobic conditions. However, there are no studies assessing the effects of those harsh conditions on the microbial communities of thermophilic digesters. To fill this knowledge gap, the microbiomes of two thermophilic digesters (55°C), fed with a mixture of pig manure and nitrogen‐rich co‐substrates, were investigated under different organic loading rates (OLR: 1.1–5.2 g COD l−1 day−1), ammonia concentrations (0.2–1.5 g free ammonia nitrogen l−1) and stripping frequencies (3–5 times per week). The bacterial communities were dominated by Firmicutes and Bacteroidetes phyla, while the predominant methanogens were Methanosarcina sp archaea. Increasing co‐substrate fraction, OLR and free ammonia nitrogen (FAN) favoured the presence of genera Ruminiclostridium, Clostridium and Tepidimicrobium and of hydrogenotrophic methanogens, mainly Methanoculleus archaea. The data indicated that the use of air‐side stripping did not adversely affect thermophilic microbial communities, but indirectly modulated them by controlling FAN concentrations in the digester. These results demonstrate the viability at microbial community level of air side‐stream stripping process as an adequate technology for the ammonia control during anaerobic co‐digestion of nitrogen‐rich substrates.

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Section: Resultsmentioning

confidence: 97%

Air‐side ammonia stripping coupled to anaerobic digestion indirectly impacts anaerobic microbiome

Fernandez‐Gonzalez

Pedizzi

Lema

et al. 2019

Microbial Biotechnology

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“…Extensive research has been conducted to enhance the efficiency and stability of AD. For instance, pretreatment [10], co-digestion [11,12] and multi-stage AD (i.e., temperature-phased or separated acidogenic-methanogenic step) [13] have been studied to accelerate the rate-limiting step of AD.…”

Section: Introductionmentioning

confidence: 99%

Succession of microbial community in anaerobic digestion of dairy manure induced by manure-derived biochar

Jang

Brady

Kan

2020

Environmental Engineering Research

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The present study investigates possible roles of manure-derived biochar (MBC) in anaerobic digestion (AD) of dairy manure. Addition of MBC led to an increase in cumulative methane yield and a decrease in lag phase under all tested conditions (concentration of MBC: 1 and 10 g/L, temperature: 20, 35 and 55°C). For example, the cumulative methane yield in the mesophilic AD with 10 g/L MBC were 24.51% higher than that of the AD without MBC. Additionally, lag phage of mesophilic AD with 10 g/L MBC decreased from 2.08 d to 1.52 d. Microbial community analysis indicated that the addition of MBC to mesophilic and thermophilic AD of dairy manure increased the relative abundance of Ruminofilibacter which related to the hydrolysis. In addition, the addition of MBC to AD potentially stimulated the growth of syntrophic bacteria (e.g., genera Clostridium, Syntrophomonas and Syntrophus) and hydrogenotrophic methanogens (e.g., genera Methanobacterium, Methanolinea and Methanomassiliicoccus). Furthermore, microbial community analysis also suggested that mediate interspecies electron transfer and direct interspecies electron transfer would be accelerated by addition of MBC which showed high electrical conductivity (3230 μS/cm).

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“…However, details of the bacterial populations within those phyla and their ecological roles in the digestion process are yet to be determined. Moreover, the composition of the associated bacterial/methanogenic archaeal community seems to be influenced by process parameters such as temperature, pH and SRT . Therefore, it is valuable to explore the variations in microbial community structure in response to the process parameters during anaerobic digestion of sludge and provide some valid insight into possibly deteriorated performance.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, the composition of the associated bacterial/methanogenic archaeal community seems to be influenced by process parameters such as temperature, pH and SRT. [25][26][27] Therefore, it is valuable to explore the variations in microbial community structure in response to the process parameters during anaerobic digestion of sludge and provide some valid insight into possibly deteriorated performance. There are several methods to investigate the microbial community in the environmental samples (soil, sludge and wastewater), including culture-based techniques, conventional microscopy, 4 ′ ,6-diamidino-2-phenylindole (DAPI) epifluorescence microscopy and conventional molecular techniques.…”

Section: Introductionmentioning

confidence: 99%

Microbial population dynamics in temperature‐phased anaerobic digestion of municipal wastewater sludge

Hameed

Riffat

et al. 2019

J of Chemical Tech & Biotech

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BACKGROUND The present study compared the performance and capability of thermophilic–mesophilic, temperature‐phased anaerobic digestion (TPAD) of wastewater sludge at 45 and 55 °C in terms of rate of hydrolysis and methanogenesis at two point interval times – December and January – with operational conditions kept constant (total solid content 6.5%, solids retention time 12.5 days). RESULTS The reduction of volatile solids (VS) was 77% at 45 °C TPAD‐1 and 72% at 55 °C TPAD‐II. The accumulation of ammonia and volatile fatty acids (VFAs; propionic acid) were observed to be below the inhibitory range (>3000 mg L−1), whereas the methane (CH4) production (45 °C, 3.55 ± 0.47 L CH4 L−1 day−1; 35 °C, 1.44 ± 0.12 L CH4 L−1 day−1) remained considerably higher in TPAD‐I than TPAD‐II. Furthermore, the TPAD‐II system suffered from certain degree of instability due to high level of total VFAs (6087 ± 1578 mg L−1), low buffering capacity, increased level of total NH3 (2982 ± 219 mg L−1) and free NH3 (246 ± 25 mg L−1), and relatively reduced CH4 production (1.69 ± 0.1 L L−1 day). The bacterial and archaeal population of the TPADs investigated by 454 pyrosequencing and Illumina sequencing showed, in both TPAD systems, a bacterial community dominated by Firmicutes, followed by Bacteriodetes, Proteobacteria, Synergistetes and Actiniobacteria. The archaeal community was dominated by Methanimicrobia (74–84% Methanosarcina) and Methanobacteria (15–27% Methanobacterium). A progression from genus Clostridium to Coprothermobacter and Tepidanaerobacter, and Methanocarcina to Methanothermobacter and Methanobacterium was observed in TPAD‐II. CONCLUSIONS This study proved the processes driving the dynamics of key microbial population and its correlation with hydrolytic functionality of TPAD systems. © 2019 Society of Chemical Industry

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Microbial population dynamics in urban organic waste anaerobic co-digestion with mixed sludge during a change in feedstock composition and different hydraulic retention times

Cited by 144 publications

References 49 publications

Air‐side ammonia stripping coupled to anaerobic digestion indirectly impacts anaerobic microbiome

Air‐side ammonia stripping coupled to anaerobic digestion indirectly impacts anaerobic microbiome

Succession of microbial community in anaerobic digestion of dairy manure induced by manure-derived biochar

Microbial population dynamics in temperature‐phased anaerobic digestion of municipal wastewater sludge

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