Development of bioreactor systems for decolorization of Reactive Green 19 using white rot fungus

Sari, Ajeng Arum; Tachibana, Sanro; Muryanto,; Hadibarata, Tony

doi:10.1080/19443994.2015.1012121

Cited by 20 publications

(8 citation statements)

References 36 publications

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“…Previously, it has reported that RG19, which is the same as in our study, was decolorized by whiterot species Cordyceps militaris MTCC3936 (Kaur et al 2015), white rot fungal species Trametes versicolor (Sari et al 2016) and saline-pH tolerant fungus Pestalotiopsis sp. strain NG007 (Yanto et al 2014).…”

Section: Indicator Color Plate Testssupporting

confidence: 83%

Impacts of holmium and lithium to the growth of selected basidiomycetous fungi and their ability to degrade textile dyes

2020

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The impacts of Ho and Li (0, 10, 50, 200 mg/L) were tested towards the growth of four basidiomycetous fungal species, their ability to decolorise synthetic dyes (Reactive Green 19, Reactive Orange 16, Reactive Black 5), and produce oxidative enzymes. All species; Agrocybe dura, Skeletocutis biguttulata, Exidia saccharina and Galerina paludosa; grew with and without supplemented Ho or Li. The growth of S. biguttulata was the most tolerant species towards Ho or Li (200 mg/ L), whereas the growth of G. paludosa was the most sensitive of the studied species to both 200 mg Ho or Li/ L. All fungi oxidized ABTS (2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) forming colour zone on a plate tests indicating production of lignin modifying laccase enzyme. A. dura and G. paludosa, formed black MnO2 zone in Mn 2+ plates, which indicates production of manganese peroxidase (MnP). A. dura and G. paludosa decolorised Reactive Black 5 indicating production of versatile peroxide (VP) enzyme. Our study presents two new candidate species able to produce VP. A. dura was capable of decolorising all tested synthetic dyes in the presence of Ho or Li (0 -200 mg/ L) suggesting that this fungus is a promising species for bioremediation of multi dye containing wastes.

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Section: Indicator Color Plate Testssupporting

confidence: 83%

Impacts of holmium and lithium to the growth of selected basidiomycetous fungi and their ability to degrade textile dyes

2020

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“…This reaction occurs in an acid medium (pH~3) to allow the decomposition of the hydrogen peroxide into hydroxyl free radicals acting as strong oxidants [96]. Other types of Fenton techniques are also applicable such as electro-Fenton, photo-Fenton and sono-Fenton, with the possibility of a combination of them [97]. Interestingly, the acid yellow 17 [79], Basic violet 3 [87] and Amido black 10B [118] dyes were treated by the Fenton oxidation process.…”

Section: Oxidationmentioning

confidence: 99%

Diversity of Synthetic Dyes from Textile Industries, Discharge Impacts and Treatment Methods

Slama¹,

et al. 2021

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Natural dyes have been used from ancient times for multiple purposes, most importantly in the field of textile dying. The increasing demand and excessive costs of natural dye extraction engendered the discovery of synthetic dyes from petrochemical compounds. Nowadays, they are dominating the textile market, with nearly 8 × 105 tons produced per year due to their wide range of color pigments and consistent coloration. Textile industries consume huge amounts of water in the dyeing processes, making it hard to treat the enormous quantities of this hazardous wastewater. Thus, they have harmful impacts when discharged in non-treated or partially treated forms in the environment (air, soil, plants and water), causing several human diseases. In the present work we focused on synthetic dyes. We started by studying their classification which depended on the nature of the manufactured fiber (cellulose, protein and synthetic fiber dyes). Then, we mentioned the characteristics of synthetic dyes, however, we focused more on their negative impacts on the ecosystem (soil, plants, water and air) and on humans. Lastly, we discussed the applied physical, chemical and biological strategies solely or in combination for textile dye wastewater treatments. Additionally, we described the newly established nanotechnology which achieves complete discharge decontamination.

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“…Recent developments in various bioreactors like fluidized beds and rotating biological contactors have been applied for bioremediation with immobilized fungi [14]. Novel bioreactor systems are continuously being designed for the removal of dyes like Reactive Green 19 by white-rot fungi [127]. A two stage reactor was successful in degradation azo dye Reactive Blue 222 through combination of Photo-Fenton's and aerobic treatment with two white-rot fungi P. ostreatus IBL-02 and P. chrysosporium IBL-03 [128].…”

Section: Technological Advances In Fungal Bioremediationmentioning

confidence: 99%

Diverse Metabolic Capacities of Fungi for Bioremediation

2016

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Bioremediation refers to cost-effective and environment-friendly method for converting the toxic, recalcitrant pollutants into environmentally benign products through the action of various biological treatments. Fungi play a major role in bioremediation owing to their robust morphology and diverse metabolic capacity. The review focuses on different fungal groups from a variety of habitats with their role in bioremediation of different toxic and recalcitrant compounds; persistent organic pollutants, textile dyes, effluents from textile, bleached kraft pulp, leather tanning industries, petroleum, polyaromatic hydrocarbons, pharmaceuticals and personal care products, and pesticides. Bioremediation of toxic organics by fungi is the most sustainable and green route for cleanup of contaminated sites and we discuss the multiple modes employed by fungi for detoxification of different toxic and recalcitrant compounds including prominent fungal enzymes viz., catalases, laccases, peroxidases and cyrochrome P450 monooxygeneses. We have also discussed the recent advances in enzyme engineering and genomics and research being carried out to trace the less understood bioremediation pathways.

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Development of bioreactor systems for decolorization of Reactive Green 19 using white rot fungus

Cited by 20 publications

References 36 publications

Impacts of holmium and lithium to the growth of selected basidiomycetous fungi and their ability to degrade textile dyes

Impacts of holmium and lithium to the growth of selected basidiomycetous fungi and their ability to degrade textile dyes

Diversity of Synthetic Dyes from Textile Industries, Discharge Impacts and Treatment Methods

Diverse Metabolic Capacities of Fungi for Bioremediation

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