Co-composting as a management strategy to reuse the white-rot fungus Trametes versicolor after its use in a biotechnological process

Marco, Évilin Giordana de; Font, Xavier; Sánchez, Antoni; Gea, Teresa; Gabarrell, Xavier; Caminal, Glòria

doi:10.1504/ijewm.2013.050637

Cited by 15 publications

(4 citation statements)

References 14 publications

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“…willow and rice straw was demonstrated by application of a fungal consortium composed of two fungi Armilleria gemina and Pholiota adipose [92]. Composting of other residual biomass may be enhanced in the presence of white-rot fungi, followed by utilization of spent biomass for soil application [93]. The tolerance of wood-rotting fungi Antrodia xanthan and Fomitopsis palustris to copper was exploited in bioremediation of copper deposited wood [94].…”

Section: Bioremediation Of Municipal Solid Waste (Msw)mentioning

confidence: 99%

“…which can find potential applications in managing organic waste such as organic fraction of MSW (OFMSW) [93]. These enzymes can be used for hydrolyzing the polymeric substances such as cellulose, xylan, starch, protein, and lipid present in wastes including food, kitchen, vegetable market, leaf litter etc.…”

Section: Features Employed By Fungi For Detoxification and Bioremediamentioning

confidence: 99%

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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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Section: Bioremediation Of Municipal Solid Waste (Msw)mentioning

confidence: 99%

Section: Features Employed By Fungi For Detoxification and Bioremediamentioning

confidence: 99%

Diverse Metabolic Capacities of Fungi for Bioremediation

2016

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“…Due to an aerobic flooded fermentation process, lignin peroxidase (an extracellular enzyme) can be released from fungi or be present in the aqueous phase [206]. Extracellular enzymes generally accelerate the breakdown of pollutants and can be applied successfully in industrial settings to treat biodegradable and organic waste [207]. Table 7 provides an overview of the most widely used fungal enzymes, the target chemical, and their potential use in bioremediation.…”

Section: Role Of Fungal Enzymes In Mycoremediationmentioning

confidence: 99%

Mycoremediation as a Potentially Promising Technology: Current Status and Prospects—A Review

et al. 2023

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Global environmental pollutants are becoming intense because of the increasing human population, urbanisation, and industrialisation. Human health and the ecosystem are affected by soil and water contamination. Therefore, creating strategies is essential to tackle this persistent issue. In the process, the health and environmental risk associated with these pollutants can be signifi-cantly reduced. Previously, traditional remediation techniques have been employed in combating these environmental pollutants, proving ineffective. Mycoremediation, which uses fungi or their compounds to remediate environmental pollutants, has shown to be a cost-efficient, environmen-tally friendly, and effective method of environmental remediation that includes organic, inorganic, and emerging contaminants (antibiotics, pharmaceuticals). This review provides an overview of various mycoremediation approaches through fungi for biosorption, precipitation, biotransfor-mation, and sequestration of environmental pollutants. In addition, the removal of metals, persis-tent organic pollutants, and other emerging contaminants by mycoremediation was highlighted. For example, fungi such as Pleurotusdryinus, Trameteshirsuta MK640786, and Aspergillusniger show 91%, 94%, and 98.4% degradation of pollutants ranging from pesticides to azo dyes, respectively. Furthermore, prospects of mycoremediation to remove heavy metals and emerging pollutants from waters and soils were discussed. It was elucidated that fungi have great potential for the mycoremediation of emerging pollutants such as heavy metals, pharmaceuticals, polycyclic aromatic hydrocarbons (PAHs), pesticides, and weedicides. The findings suggested a knowledge gap exists to enhance the rate of the mycoremediation process. Therefore, a possible framework of mycoremediation was proposed to facilitate this promising technology for rectifying global environmental problems. For mycoremediation procedures to be as effective as possible, further studies are needed on fungal enzymes’ role, activities, and regulation.

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“…The fungal strain of white-rot fungi produces extracellular enzymes manganese peroxidase and lignin peroxidase, which break down lignocellulosic material (Loss and Yu 2018). Common enzymes of fungal origin used in bioremediation include amylases, catalases, cellulases, laccases, lipases, peroxidases, proteases, and xylanases, which have potential industrial applications, and are used in managing organic waste (Marco et al 2013;Rastegari et al 2019;Yadav et al 2019). These fungal enzymes may be utilized for hydrolysis of polymeric materials, for example, cellulose, protein, lipid, starch, and xylan from organic wastes such as kitchen waste, vegetable market waste, leaf, and litter.…”

Section: Fungi As Agents Of Bioremediationmentioning

confidence: 99%

Fungi in Remediation of Hazardous Wastes: Current Status and Future Outlook

Singh

Kumar

et al. 2021

Fungal Biology

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Plants interact with diverse group of microorganisms in order to digest the metal contents in the soil, and the phenomenon is known as phytoremediation. Plant root metabolites released are a good source of minerals and energy which provide ambient environment for the growth of microbes. Plant growth-promoting microorganisms (PGPMs), such as fungi, bacteria, and yeast, enhance the growth of plant by the uptake of minerals and metals in with the help of enzymes like catalases,

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Co-composting as a management strategy to reuse the white-rot fungus Trametes versicolor after its use in a biotechnological process

Cited by 15 publications

References 14 publications

Diverse Metabolic Capacities of Fungi for Bioremediation

Diverse Metabolic Capacities of Fungi for Bioremediation

Mycoremediation as a Potentially Promising Technology: Current Status and Prospects—A Review

Fungi in Remediation of Hazardous Wastes: Current Status and Future Outlook

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