Detoxification of Olive Mill Wastewater and Bioconversion of Olive Crop Residues into High-Value-Added Biomass by the Choice Edible Mushroom Hericium erinaceus

Environmentally acceptable disposal of olive cultivation residues (e.g., olive prunings; olive pruning residues (OLPR)) and olive mill wastes is of paramount importance since they are generated in huge quantities within a short time. Moreover, olive mill wastewater (OMW) or sludge-like effluents (“a...

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Veröffentlicht in:	Applied biochemistry and biotechnology 2016-09, Vol.180 (2), p.195-209
Hauptverfasser:	Koutrotsios, Georgios, Larou, Evangelia, Mountzouris, Konstantinos C., Zervakis, Georgios I.
Format:	Artikel
Sprache:	eng
Schlagworte:	Agaricales - enzymology Agaricales - growth & development Agaricales - metabolism Bioactive compounds Biochemistry Biodegradation, Environmental Biomass Biotechnology Chemistry Chemistry and Materials Science Crop residues Crops, Agricultural - chemistry Cultivation Detoxification Fermentation Food industries wastewaters Food waste Industrial Waste - analysis Lignocellulose Manganese Mushrooms Mycelium - growth & development Olea Olea - chemistry Olives Phenols Phytotoxicity Sawdust Sludge Waste Disposal, Fluid Waste Water - chemistry Water Pollution - analysis Water Purification - methods Water treatment
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creator	Koutrotsios, Georgios Larou, Evangelia Mountzouris, Konstantinos C. Zervakis, Georgios I.
description	Environmentally acceptable disposal of olive cultivation residues (e.g., olive prunings; olive pruning residues (OLPR)) and olive mill wastes is of paramount importance since they are generated in huge quantities within a short time. Moreover, olive mill wastewater (OMW) or sludge-like effluents (“alperujo”; two-phase olive mill waste (TPOMW)) are highly biotoxic. Hericium erinaceus is a white-rot fungus which produces choice edible mushrooms on substrates rich in lignocellulosics, and its suitability for the treatment of olive by-products was examined for the first time. Fungal growth resulted in a notable reduction of OMW’s pollution parameters (i.e., 65 % decolorization, 47 % total phenolic reduction, and 52 % phytotoxicity decrease) and correlated with laccase and manganese peroxidase activities. Solid-state fermentation of various mixtures of OLPR, TPOMW, and beech sawdust (control) by H. erinaceus qualified OLPR in subsequent cultivation experiments, where it exhibited high mushroom yields and biological efficiency (31 %). Analyses of proximate composition and bioactive compound content revealed that mushrooms deriving from OLPR substrates showed significantly higher crude fat, total glucan, β-glucan, total phenolics, and ferric-reducing antioxidant potential values than the control. H. erinaceus demonstrated the potential to detoxify OMW and bioconvert OLPR into high-quality biomass, and hence, this fungus could be successfully exploited for the treatment of such by-products.
doi_str_mv	10.1007/s12010-016-2093-9
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Analyses of proximate composition and bioactive compound content revealed that mushrooms deriving from OLPR substrates showed significantly higher crude fat, total glucan, β-glucan, total phenolics, and ferric-reducing antioxidant potential values than the control. 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Moreover, olive mill wastewater (OMW) or sludge-like effluents (“alperujo”; two-phase olive mill waste (TPOMW)) are highly biotoxic. Hericium erinaceus is a white-rot fungus which produces choice edible mushrooms on substrates rich in lignocellulosics, and its suitability for the treatment of olive by-products was examined for the first time. Fungal growth resulted in a notable reduction of OMW’s pollution parameters (i.e., 65 % decolorization, 47 % total phenolic reduction, and 52 % phytotoxicity decrease) and correlated with laccase and manganese peroxidase activities. Solid-state fermentation of various mixtures of OLPR, TPOMW, and beech sawdust (control) by H. erinaceus qualified OLPR in subsequent cultivation experiments, where it exhibited high mushroom yields and biological efficiency (31 %). Analyses of proximate composition and bioactive compound content revealed that mushrooms deriving from OLPR substrates showed significantly higher crude fat, total glucan, β-glucan, total phenolics, and ferric-reducing antioxidant potential values than the control. H. erinaceus demonstrated the potential to detoxify OMW and bioconvert OLPR into high-quality biomass, and hence, this fungus could be successfully exploited for the treatment of such by-products.</abstract><cop>New York</cop><pub>Springer US</pub><pmid>27138726</pmid><doi>10.1007/s12010-016-2093-9</doi><tpages>15</tpages></addata></record>
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subjects	Agaricales - enzymology Agaricales - growth & development Agaricales - metabolism Bioactive compounds Biochemistry Biodegradation, Environmental Biomass Biotechnology Chemistry Chemistry and Materials Science Crop residues Crops, Agricultural - chemistry Cultivation Detoxification Fermentation Food industries wastewaters Food waste Industrial Waste - analysis Lignocellulose Manganese Mushrooms Mycelium - growth & development Olea Olea - chemistry Olives Phenols Phytotoxicity Sawdust Sludge Waste Disposal, Fluid Waste Water - chemistry Water Pollution - analysis Water Purification - methods Water treatment
title	Detoxification of Olive Mill Wastewater and Bioconversion of Olive Crop Residues into High-Value-Added Biomass by the Choice Edible Mushroom Hericium erinaceus
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