Valorization of untreated rice bran towards bioflocculant using a lignocellulose-degrading strain and its use in microalgal biomass harvest

Liu, Cong; Hao, Yan; Jiang, Jihong; Liu, Weijie

doi:10.1186/s13068-017-0780-6

Cited by 46 publications

(29 citation statements)

References 70 publications

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“…1 a). The xylanase activity of G22 was the highest of four tested bioflocculant-producing bacteria, the latter of which, showed maximum xylanase activities of 0.46 U mL −1 ( C. cellulans L804) [ 26 ], 1.69 U mL −1 ( B. agaradhaerens C9) [ 27 ], and 1.03 U mL −1 ( Pseudomonas sp. GO2) [ 21 ].…”

Section: Resultsmentioning

confidence: 99%

“…The bioflocculant yields of G22 were comparable to that of most other bioflocculant-producing strains, which produced bioflocculant yields of 0.205–2.93 g L −1 [ 50 , 51 ]. However, these yields were lower than that of some high-producing strains, such as C. cellulans L804 (4.75 g L −1 ) [ 26 ], and B. agaradhaerens C9 (12.94 g L −1 ) [ 27 ]. The decrease in flocculating efficiency is most likely due to the secretion of bioflocculant-degrading enzymes via the bacteria and cell autolysis [ 24 , 52 ].…”

Section: Resultsmentioning

confidence: 99%

“…Recently, certain lignocellulolytic enzyme-producing bacteria were reported to produce polysaccharide bioflocculants via directly using untreated lignocellulosic biomass as a carbon source. Liu et al [ 26 , 27 ] reported that Cellulosimicrobium cellulans L804 and Bacillus agaradhaerens C9 could convert untreated biomass into bioflocculants by secreting various lignocellulolytic enzymes. Cellulases and xylanases secreted by the strain Pseudomonas sp.…”

Section: Introductionmentioning

confidence: 99%

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Improving enzymatic digestibility of wheat straw pretreated by a cellulase-free xylanase-secreting Pseudomonas boreopolis G22 with simultaneous production of bioflocculants

Guo¹,

Hong²,

Zheng³

et al. 2018

Biotechnol Biofuels

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BackgroundXylan removal by bacterial pretreatments has been confirmed to increase the digestibility of biomass. Here, an effective xylan removal technique has been developed to enhance the digestibility of wheat straw and simultaneously produce bioflocculants by a cellulase-free xylanase-secreting strain, Pseudomonas boreopolis G22.ResultsThe results indicated that P. boreopolis G22 is an alkaliphilic strain which can secrete abundant amounts of xylanase. This xylanase had activity levels of 2.67–1.75 U mL−1 after an incubation period of 5–25 days. The xylanase showed peak activity levels at pH 8.6, and retained more than 85% relative activity in the pH range of 7.2–9.8. After 15 days of cultivation, the hemicellulose contents of the wheat straw were significantly decreased by 32.5%, while its cellulose contents were increased by 27.3%, compared to that of the control. The maximum reducing sugars released from the 15-day-pretreated wheat straw were 1.8-fold higher than that of the untreated wheat straw, under optimal enzymatic hydrolysis conditions. In addition, a maximum bioflocculant yield of 2.08 g L−1 was extracted from the fermentation broth after 15 days of incubation. The aforementioned bioflocculants could be used to efficiently decolorize a dye solution.ConclusionsThe results indicate that the cellulase-free xylanase-secreting P. boreopolis G22 may be a potential strain for wheat straw pretreatments. The strain G22 does not only enhance the enzymatic digestibility of wheat straw, but also simultaneously produces a number of bioflocculants that can be used for various industrial applications.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Improving enzymatic digestibility of wheat straw pretreated by a cellulase-free xylanase-secreting Pseudomonas boreopolis G22 with simultaneous production of bioflocculants

Guo¹,

Hong²,

Zheng³

et al. 2018

Biotechnol Biofuels

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“…Flocculants can be of chemical and biological origins where the latter is referred to as natural macromolecule polymers or bio-flocculants produced by microorganisms that are capable of flocculating a number of suspended solids, including cells and colloidal solids, while being harmless and biodegradable (Chen et al, 2017). These bio-flocculants have been widely reported and applied to wastewater treatment, heavy metal removal and sludge dewatering and in the harvest of various microalgae (Ndikubwimana et al, 2016;Liu et al, 2017). However, the high cost of production of bio-flocculants still hinders their application commercially.…”

Section: Introductionmentioning

confidence: 99%

“…However, the high cost of production of bio-flocculants still hinders their application commercially. It has been proposed that costs of production can be reduced by either screening for high production strains or utilization of low-cost substrates as culture medium (Chen et al, 2016;Liu et al, 2017). A number of novel bio-flocculantproducing bacteria have been reported to be isolated from various environments such as wastewaters, activated sludges and soil samples, and they have been used to produce high yields of bioflocculants by optimizing their conditions of fermentation (Peng et al, 2014;Liu et al, 2015b) but little effort has been vested in the use of indigenous open water as a potential source of bio-flocculating bacteria that could possess better flocculating activity.…”

Section: Introductionmentioning

confidence: 99%

Screening for Bio-flocculant Producing Bacterial Strains from Asa River in Ilorin Kwara State

Kolawole

Yahaya

Lawal

et al. 2019

Annals of Science and Technology

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Synthetic flocculants in water treatment have been reported to be detrimental to both human health and the environment. Thus, there is a constant search for bio-flocculants that is safe and addresses the effects of synthetic polymers. This study was aimed at isolating bacteria with bio-flocculating potential, their molecular identification and phylogenetic relatedness, and the optimization of their flocculating abilities from an open water (Asa River) in Ilorin Kwara State. The effect of carbon source (glucose, lactose and starch), cations (FeSO4, KCl and CaCl2) and pH (2 to 12) was evaluated on the bio-flocculating activities of the isolates using kaolin clay. The seven (7) novel (new strains) isolates with their respective accession number from National Center for Biotechnology Information (NCBI) after molecular confirmation are Pseudomonas otitidis MTK01 (MK263227), Aeromonas caviea MTK02 (MK263228), Providencia alcalifaciens MTK03 (MK263229), Providencia sp. MTK05 (MK263230), Alcaligenes sp. MTK06 (MK263231), Klebsiella pneumoniae MTK07 (MK263232) and Klebsiella sp. MTK08 (MK263233) while Raoultella ornithinolytica MTK04 was also identified. Phylogenetic tree of relatedness showed close kin of the isolates to established bacteria sequence deposited at the NCBI GenBank. Although the flocculating rate of each isolates varied with different parameters that was used in the study, glucose was the most supportive followed by lactose and starch, CaCl2 was most supportive cation followed by KCl and FeSO4 while pH 12, 6, 8, 10, 2 and 4 were the order of decreasing flocculating rate of the medium. This study has reported the presence of eight (8) bio-flocculating bacteria (out of which 7 are new strains of bacteria) in an open water which has been further optimized for effective flocculating rate and thus provides an ecofriendly and harmless flocculants source that can be employed in water treatment procedures.

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Biofertilizer from Industrial Waste Water by Microalgal Treatment

Prabhu¹,

Mounika²,

A³

et al. 2023

Biorefinery for Water and Wastewater Treatment

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Valorization of untreated rice bran towards bioflocculant using a lignocellulose-degrading strain and its use in microalgal biomass harvest

Cited by 46 publications

References 70 publications

Improving enzymatic digestibility of wheat straw pretreated by a cellulase-free xylanase-secreting Pseudomonas boreopolis G22 with simultaneous production of bioflocculants

Improving enzymatic digestibility of wheat straw pretreated by a cellulase-free xylanase-secreting Pseudomonas boreopolis G22 with simultaneous production of bioflocculants

Screening for Bio-flocculant Producing Bacterial Strains from Asa River in Ilorin Kwara State

Biofertilizer from Industrial Waste Water by Microalgal Treatment

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