A novel two‐species whole‐cell immobilization system composed of marine‐derived fungi and its application in wastewater treatment

Guan, Yong; Yao, Shan‐Jing

doi:10.1002/jctb.4253

Cited by 23 publications

(10 citation statements)

References 45 publications

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“…Since mycelium colonizes rapidly, they are inexpensive to produce, has a short generation time, and is eco‐friendly without secondary pollution (Garcíamartínez, Puigpujol, Peinado, Moreno, & Mauricio, ; Yuan, Wang, Song, & Gao, ). Additionally, the pellets are good carriers since they are biocatalyst more stable than the free mycelial, and can degrade organic compounds (Chen, Guan, & Yao, ). The pellets could enhance the cell density, fermentation products, continuous processing, cell stability, and pollutant removal efficiencies to some extent and are feasible to recycle (Zhang et al., ).…”

Section: Two Types Of Pellets For the Treatment Of Polluted Watermentioning

confidence: 99%

“…In terms of immobilization of enzymes, the purification is the first step. A pellet has the ability to immobilize these enzymes (Cabaleiro et al., ; Chen et al., ; Kumar & Dubey, ), and (e) Efficiency amplification—The pellets could be combined with other substances to form new combinations to remove pollutants. They can influence each other and amplify their (Wu et al., ; Zhang et al., ).…”

Section: Summary and Recommendationsmentioning

confidence: 99%

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Novel self‐immobilized biomass mixture based on mycelium pellets for wastewater treatment: A review

Wang

et al. 2019

Water Environment Research

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Mycelial pellets, as a novel biomass material, can adsorb pollutants as a biosorbent, or combine other substances and organisms to form self-immobilized biomixture (SIB) to remove pollutants from wastewater. The pellets are eco-friendly, have a good selfimmobilization capacity, and are easy to filter. In addition, some mycelial fungi can remove the pollutants in water through biodegradation. This study reviewed biomixture based on mycelial pellets and the two ways, through which SIB remove pollutants in water: pure pellets and the pellets with other materials. The characteristics and functions of each part of SIB were discussed. The study also highlighted the shortcomings of the technology and provided recommendations for further development of this technology.

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Section: Two Types Of Pellets For the Treatment Of Polluted Watermentioning

confidence: 99%

Section: Summary and Recommendationsmentioning

confidence: 99%

Novel self‐immobilized biomass mixture based on mycelium pellets for wastewater treatment: A review

Wang

et al. 2019

Water Environment Research

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“…Due to the above, the degradation in the quality of the water by the shedding generates concern and need to look for ways of treatment of the residual waters product of the activity of the tanneries; nevertheless, this search of physical and / or chemical treatments brings disadvantages of economic type for the implementation and maintenance. Being a conditional factor and for the aforementioned operation situation, bioremediation and biomass arise as treatment technologies, more economical and environmentally beneficial as a viable alternative for environmental mitigation [6], [7].…”

Section: Removal Of Chromium In Wastewater 435mentioning

confidence: 99%

“…in a time of 48h was 11500mg/L represented 54.18% (Figure 3), although the removal was considerable in any of the treatments there is no significant difference (p = 0.2159) in the use of the species or mixed culture for the absorption of Cl-. It is considered that the presence of salts other than Cl-, affected the removal capacity in the different treatments, so it is necessary to determine the characterization of ions of salts present in the wastewater and identify the behavior in the treatments carried out [7], [22].…”

Section: Removal Of Cl-mentioning

confidence: 99%

Removal of chromium in wastewater from tanneries applying bioremediation with algae, orange peels and citrus pectin

Losada¹,

Bonilla²,

Pinilla³

et al. 2018

ces

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The dumping of tanneries is a severe pollution problem because it generated wastewater full of chemical and toxic substances which deteriorate the water sources and the health of organisms that are living there. The aim of this project was to determine the removal capacity of the total chromium (Cr) and chlorides (Cl-) present in the wastewater of the tanneries by the bioremediation with the Chlorella sp. and Scenedesmus sp. microalgaes, orange peels and citrus pectin. The methods applied were: i) the inoculation of a single or mixture microalgaes in the 434 Victor Alfonso Ramirez Losada et al. water of tanneries for a period of 24 or 48 hours (h), or a photoperiod 12h:12h (light:darkness); ii) orange peels with particle sizes: 0.5mm, 1.0mm and 2.0mm, were exposed to residual water during 2h, 4h or 6h with a rate of 0.5g/100mL; and iii) citrus pectin with equal parameters of those used in the orange peels. The initial concentration of residual water was Cr=352.2 mg/L and Cl-=25100 mg/L. The Scenedesmus sp. algae removed 98.63% (4.82 mg/L) of Cr and 54.18% (11500mg / L) of Cl-after 48h while the orange peel with particle size of 0.5mm and with only 2h of exposition decreased the initial concentration of Cr and Cl-in a 94% (21.1mg/L) and 59.76% (10100mg/L) respectively. Finally, the pectin at a contact time of 6h showed the highest absorption of Cr (98.23%-6.2 mg/L). Therefore, the three different tested products presented a very high efficiency in the reduction of ion concentration of Cr and Cl-and lead new and novel alternatives for the treatment of wastewater of the tannery industries.

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“…Effluents of textile industries contains metals, surfactants, salts, phosphates and pesticides in addition to synthetic dyes and this makes them resistant to treatment by conventional methods . Several processes, including biodegradation, advanced oxidation, and electrochemical oxidation have been developed for detoxification and degradation of these harmful organic compounds . However, increase of public awareness about environmental pollutants created an increased interest in methods with low toxicity …”

Section: Introductionmentioning

confidence: 99%

Glucose oxidase effect on treatment of textile effluent containing reactive azo dyes byPhanerochaete chrysosporium

Ansari

Karimi

Sedghi

et al. 2017

J. Chem. Technol. Biotechnol

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BACKGROUND Chemically different types of dyes have been proven to be degraded by peroxidases of Phanerochaete chrysosporium. Hydrogen peroxide is required as a co‐substrate for peroxidases during the oxidation process. RESULTS Investigating the effect of glucose oxidase (GOx) (EC 1.1.3.4) on treatment of textile effluent containing recalcitrant diazo and azo dyes by P. chrysosporium was the main aim of this research. The effects of glucose, GOx and Mn2+ on chemical oxygen demand (COD), decolorization and manganese peroxidase (MnP) activity were evaluated in repeated batch operations. At the end of the fifth batch, the decolorization efficiency increased 4.18‐fold compared with reference batches (i.e. no additive received batches). An increase in MnP activity and COD removal percentage by 4.5‐ and 5‐fold, respectively, were observed when introducing GOx+glucose. CONCLUSION In vivo addition of GOx+glucose could increase the decolorization efficiency of real sample effluent not only by providing H2O2 for catalytic activity of peroxidases but also by providing gluconic acid, favoring the pH of the medium and increasing peroxidase activity as well. Also, these findings may be useful for discerning the role of manganese ions and oxidases of fungi as well as their interaction in the decolorization process. © 2016 Society of Chemical Industry

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A novel two‐species whole‐cell immobilization system composed of marine‐derived fungi and its application in wastewater treatment

Cited by 23 publications

References 45 publications

Novel self‐immobilized biomass mixture based on mycelium pellets for wastewater treatment: A review

Novel self‐immobilized biomass mixture based on mycelium pellets for wastewater treatment: A review

Removal of chromium in wastewater from tanneries applying bioremediation with algae, orange peels and citrus pectin

Glucose oxidase effect on treatment of textile effluent containing reactive azo dyes byPhanerochaete chrysosporium

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