Effect of Inoculum Pretreatment on the Composition of Microbial Communities in Anaerobic Digesters Producing Volatile Fatty Acids

Blasco, Lucía; Kahala, Minna; Tampio, Elina; Vainio, Markku; Ervasti, Satu; Rasi, Saija

doi:10.3390/microorganisms8040581

Cited by 46 publications

(34 citation statements)

References 40 publications

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“…In the second step of AD (5 th -6 th day) we observed an increase in pH value to 7.3 for BM and 6.9 for SS and diminution of VFAs to 0.8 for BM and 1.8 g/L for SS. This complies with the results obtained by Blasco et al [41]. This is explained by the value buffer of pH and the consumption of the VFAs by bacteria [42].…”

Section: Effect Of Heavy Metals Present In the Considered Inocula On Adsupporting

confidence: 93%

“…The last step (5 th -6 th day) shows the stabilization of biogas production and the end of the methane, The accumulation of hydrogen develops significant pressure which blocks the activity of acetogenic bacteria that stop acetate production. Due to the symbiotic relation between acetogenic and methanogenic bacteria, these latter utilize this hydrogen in methane production and significant hydrogen pressure does not occur [38][39][40][41][42][43][44][45].…”

Section: Impact Of H2o2 Pretreatment Coupled With the Us On Biogas And Methane Productionmentioning

confidence: 99%

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Optimization of the Process of Methane Production From Wheat Straw and Bovine Manure Co-Digestion by Ultrasound Disintegration and Physicochemical Treatments

Ouahabi¹,

Bensadok²,

Ouahabi³

2021

Preprint

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Biomass is an attractive energy source that can be used for production of heat, power, and transport fuels, and when produced and used on a sustainable basis, can make a large contribution to reducing greenhouse gas (GHG) emissions. Anaerobic digestion (AD) is a suitable technology for reducing organic matter and generating bioenergy in the form of biogas. This study investigates the factors allowing the optimization of the process of biogas production from the co-digestion of wheat straw (WS) and bovine manure. The statistical analysis of the experiments carried out show that ultrasonic processing plays a fundamental role by sonication density and solids concentration leading to improved characteristics of WS by reducing particle size and increasing concentration of soluble chemical oxygen demand. The higher the sonicating power used, the more the waste particles are disrupted. The optimality obtained under mesophilic conditions for WS pretreated with 4% w/w (weight by weight) H2O2 at temperature 36 °C under 10 minutes of ultrasonication at 25 kHz improves the methane yield by 64%.

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Section: Effect Of Heavy Metals Present In the Considered Inocula On Adsupporting

confidence: 93%

Section: Impact Of H2o2 Pretreatment Coupled With the Us On Biogas And Methane Productionmentioning

confidence: 99%

Optimization of the Process of Methane Production From Wheat Straw and Bovine Manure Co-Digestion by Ultrasound Disintegration and Physicochemical Treatments

Ouahabi¹,

Bensadok²,

Ouahabi³

2021

Preprint

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“…Moreover, research has indicated that B. subtilis can induce a shift toward butyrate-producing bacteria in the broiler gut microbiome ( Jacquier et al., 2019 ), which was consistent with our results. Per the outcome of LEfSe higher levels of bacteria associated with the production of SCFAs, such as the unclassified_f_Lachnospiraceae, g_Ruminococcus , and g_Faecalibacterium , amongst others ( Antonissen et al., 2016 ; Blasco et al., 2020 ), were detected after B. subtilis or B. licheniformis supplementation. Considering these combined results, it may explain the significant increase in level of the SCFAs.…”

Section: Discussionmentioning

confidence: 99%

Effects of Bacillus subtilis and Bacillus licheniformis on growth performance, immunity, short chain fatty acid production, antioxidant capacity, and cecal microflora in broilers

Shen

et al. 2021

Poultry Science

103

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This study investigated the effects of dietary supplementation with Bacillus subtilis ( B. subtilis ) or Bacillus licheniformis ( B. licheniformis ) on growth performance, immunity, antioxidant capacity, short chain fatty acid ( SCFA ) production, and the cecal microflora in broiler chickens. In total, 360 male, 1-day-old Cobb 500 birds were randomly divided into 3 groups: the control group was fed a basal diet; the B. subtilis group was fed a basal diet supplemented with 1.5 × 10 9 CFU/kg B. subtilis ; the B. licheniformis group was fed a basal diet supplemented with 1.5 × 10 9 CFU/kg B. licheniformis . Results showed that chickens supplemented with either B. subtilis or B. licheniformis had comparatively higher ( P < 0.05) body weight and average daily gain, whereas no difference ( P > 0.05) was observed in feed efficiency. Concentrations of serum IgA, IgY, and IgM, as well as anti-inflammatory IL-10 were significantly increased ( P < 0.05), and proinflammatory IL-1β and IL-6 were significantly decreased ( P < 0.05) by B. subtilis or B. licheniformis supplementation. Moreover, chickens fed with diets supplemented by either B. subtilis or B. licheniformis had greater antioxidant capacity, indicated by the notable increases ( P < 0.05) in glutathione peroxidase, superoxide dismutase, and catalase, along with decrease ( P < 0.05) in malondialdehyde. Compared to the control group, levels of SCFA, excluding acetic and propionic acid, in cecal content had improved ( P < 0.05) by adding B. licheniformis, and significant increase ( P < 0.05) in acetic and butyric acid was observed with B. subtilis supplementation. Microbial analysis showed that both B. subtilis or B. licheniformis supplementation could increase butyrate-producing bacteria such as Alistipes and Butyricicoccus , and decrease pathogenic bacteria such as the Synergistetes and Gammaproteobacteria . In summary, dietary supplemented with B. subtilis or B. licheniformis improved growth performance, immune status, and antioxidant capacity, increased SCFA production, and modulated cecal microbiota in chickens. Moreover, B. licheniformis was more effective than B. subtilis ...

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“…Bacteroides are known to be major producers of branched-chain amino acids, acetic acid, and butyric acid [ 49 , 50 ]. In addition, the most abundant phyla involved in the fermentation of glucose were Firmicutes , Bacteroidetes , and Proteobacteria, of which especially Firmicutes (genus Clostridium ) were connected to the highest production of SCFAs [ 51 ]. Firmicutes are known to produce butyrate and other SCFAs to maintain intestinal health by suppressing inflammation and providing energy to enterocytes [ 52 , 53 ].…”

Section: Discussionmentioning

confidence: 99%

Effects of Rhamnolipids on Growth Performance, Immune Function, and Cecal Microflora in Linnan Yellow Broilers Challenged with Lipopolysaccharides

Zhang

et al. 2021

Antibiotics

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This present study aimed to investigate the effects of rhamnolipids (RLS) on the growth performance, intestinal morphology, immune function, short-chain fatty acid content, and microflora community in broiler chickens challenged with lipopolysaccharides (LPS). A total of 450 broiler chickens were randomly allocated into three groups: basal diet with no supplement (NCO), basal diet with bacitracin (ANT), and basal diet with rhamnolipids (RLS). After 56 d of feeding, 20 healthy broilers were selected from each group, with half being intraperitoneally injected with lipopolysaccharides (LPS) and the other half with normal saline. Treatments with LPS were labelled LPS-NCO, LPS-ANT, and LPS-RLS, whereas treatments with normal saline were labelled NS-NCO, NS-ANT, and NS-RLS. LPS-challenged birds had lower jejunal villus height and higher crypt depth than unchallenged birds. LPS-RLS broilers had increased jejunal villus height and villus height/crypt depth ratio (V/C) but lower crypt depth than LPS-NCO. Dietary supplementation with RLS reduced the LPS-induced immunological stress. Compared with LPS-NCO, birds in LPS-RLS had lower concentrations of IL-1β, IL-6, and TNF-α. In LPS-challenged broilers, RLS and ANT increased the concentrations of IgA, IgM, and IgY compared with LPS-NCO. In LPS treatments, RLS enhanced the contents of acetic acid, butyrate, isobutyric acid, isovalerate, and valerate more than LPS-NCO birds. High-throughput sequencing indicated that RLS supplementation led to changes in the cecal microbial community of broilers. At the species level, Clostridium-sp-Marseille-p3244 and Slakia_eqcsolifaciens were more abundant in NS-RLS than in NS-NCO broilers. In summary, RLS improved the growth performance and relative abundance of cecal microbiota and reduced the LPS-induced immunological stress in broiler chickens.

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Effect of Inoculum Pretreatment on the Composition of Microbial Communities in Anaerobic Digesters Producing Volatile Fatty Acids

Cited by 46 publications

References 40 publications

Optimization of the Process of Methane Production From Wheat Straw and Bovine Manure Co-Digestion by Ultrasound Disintegration and Physicochemical Treatments

Optimization of the Process of Methane Production From Wheat Straw and Bovine Manure Co-Digestion by Ultrasound Disintegration and Physicochemical Treatments

Effects of Bacillus subtilis and Bacillus licheniformis on growth performance, immunity, short chain fatty acid production, antioxidant capacity, and cecal microflora in broilers

Effects of Rhamnolipids on Growth Performance, Immune Function, and Cecal Microflora in Linnan Yellow Broilers Challenged with Lipopolysaccharides

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