Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalysts

Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalysts

Meknes region is a Moroccan olive-processing area generating high amounts of non-valorized Olive Mill Waste (OMW). Fungi are natural decomposers producing varied enzyme classes and effectively contributing to the carbon cycle. However, structural complexity of biomass and modest performances of wild...

Full description

Bibliographic Details
Main Authors: Hasna Nait M’Barek, Soukaina Arif, Behnam Taidi, Hassan Hajjaj
Format: Article
Language:English
Published: Elsevier 2020-12-01
Series:Biotechnology Reports
Subjects:
Wood-decay fungi
Biomass
Bioethanol
Fusarium oxysporum
Consolidated bioprocessing
Online Access:http://www.sciencedirect.com/science/article/pii/S2215017X20304574
id doaj-b5caff3d224045a5aabf3293555ed7c9
record_format Article
spelling doaj-b5caff3d224045a5aabf3293555ed7c92020-12-29T04:14:28ZengElsevierBiotechnology Reports2215-017X2020-12-0128e00541Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalystsHasna Nait M’Barek0Soukaina Arif1Behnam Taidi2Hassan Hajjaj3Faculty of Sciences of Meknes, Laboratory of Plant Biotechnology and Molecular Biology, BP 11201, Zitoune Meknes City, Morocco; Cluster of Competency «Agri-food, Safety and Security» IUC VLIR-UOS, Moulay Ismail University, Marjane 2, BP 298, Meknes City, MoroccoFaculty of Sciences of Meknes, Laboratory of Plant Biotechnology and Molecular Biology, BP 11201, Zitoune Meknes City, Morocco; Cluster of Competency «Agri-food, Safety and Security» IUC VLIR-UOS, Moulay Ismail University, Marjane 2, BP 298, Meknes City, MoroccoCentraleSupélec, SFR Condorcet FR, CNRS 3417, Paris-Saclay University, European Center of Biotechnology and Bioeconomy (CEBB) – LGPM, 3 Rue des Rouges Terres, 51110, Pomacle, France; Corresponding author at: Laboratoire Génie des Procédés et Matériaux (LGPM), CentraleSupélec, Paris-Saclay University, Bât Gustave Eiffel - Bureau V.I. 225, 3, rue Joliot Curie, 91190, Gif-sur-Yvette, France.Faculty of Sciences of Meknes, Laboratory of Plant Biotechnology and Molecular Biology, BP 11201, Zitoune Meknes City, Morocco; Cluster of Competency «Agri-food, Safety and Security» IUC VLIR-UOS, Moulay Ismail University, Marjane 2, BP 298, Meknes City, Morocco; Corresponding author at: Faculty of Sciences of Meknes, Laboratory of Plant Biotechnology and Molecular Biology, BP 11201, Zitoune Meknes city, Morocco.Meknes region is a Moroccan olive-processing area generating high amounts of non-valorized Olive Mill Waste (OMW). Fungi are natural decomposers producing varied enzyme classes and effectively contributing to the carbon cycle. However, structural complexity of biomass and modest performances of wild fungi are major limits for local biorefineries. The objective of current research is to assess the ability of local fungi for bioethanol production from OMW using Consolidated Bioprocessing (CBP). This is done by characterizing lignocellulolytic potential of six wood-decay and compost-inhabiting ascomycetes and selecting potent fermentation biocatalysts. High and diversified activities were expressed by Fusarium solani and Fusarium oxysporum: 9.36 IU. mL−1 and 2.88 IU. mL−1 total cellulase activity, 0.54 IU. mL−1 and 0.57 IU. mL−1 laccase activity, respectively, and 8.43 IU. mL−1 lignin peroxidase activity for the latter. F. oxysporum had maximum bioethanol production and yield of 2.47 g.L-1 and 0.84 g.g−1, respectively, qualifying it as an important bio-agent for single-pot local biorefinery.http://www.sciencedirect.com/science/article/pii/S2215017X20304574Wood-decay fungiBiomassBioethanolFusarium oxysporumConsolidated bioprocessing
collection DOAJ
language English
format Article
sources DOAJ
author Hasna Nait M’Barek
Soukaina Arif
Behnam Taidi
Hassan Hajjaj
spellingShingle Hasna Nait M’Barek
Soukaina Arif
Behnam Taidi
Hassan Hajjaj
Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalysts
Biotechnology Reports
Wood-decay fungi
Biomass
Bioethanol
Fusarium oxysporum
Consolidated bioprocessing
author_facet Hasna Nait M’Barek
Soukaina Arif
Behnam Taidi
Hassan Hajjaj
author_sort Hasna Nait M’Barek
title Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalysts
title_short Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalysts
title_full Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalysts
title_fullStr Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalysts
title_full_unstemmed Consolidated bioethanol production from olive mill waste: Wood-decay fungi from central Morocco as promising decomposition and fermentation biocatalysts
title_sort consolidated bioethanol production from olive mill waste: wood-decay fungi from central morocco as promising decomposition and fermentation biocatalysts
publisher Elsevier
series Biotechnology Reports
issn 2215-017X
publishDate 2020-12-01
description Meknes region is a Moroccan olive-processing area generating high amounts of non-valorized Olive Mill Waste (OMW). Fungi are natural decomposers producing varied enzyme classes and effectively contributing to the carbon cycle. However, structural complexity of biomass and modest performances of wild fungi are major limits for local biorefineries. The objective of current research is to assess the ability of local fungi for bioethanol production from OMW using Consolidated Bioprocessing (CBP). This is done by characterizing lignocellulolytic potential of six wood-decay and compost-inhabiting ascomycetes and selecting potent fermentation biocatalysts. High and diversified activities were expressed by Fusarium solani and Fusarium oxysporum: 9.36 IU. mL−1 and 2.88 IU. mL−1 total cellulase activity, 0.54 IU. mL−1 and 0.57 IU. mL−1 laccase activity, respectively, and 8.43 IU. mL−1 lignin peroxidase activity for the latter. F. oxysporum had maximum bioethanol production and yield of 2.47 g.L-1 and 0.84 g.g−1, respectively, qualifying it as an important bio-agent for single-pot local biorefinery.
topic Wood-decay fungi
Biomass
Bioethanol
Fusarium oxysporum
Consolidated bioprocessing
url http://www.sciencedirect.com/science/article/pii/S2215017X20304574
work_keys_str_mv AT hasnanaitmbarek consolidatedbioethanolproductionfromolivemillwastewooddecayfungifromcentralmoroccoaspromisingdecompositionandfermentationbiocatalysts
AT soukainaarif consolidatedbioethanolproductionfromolivemillwastewooddecayfungifromcentralmoroccoaspromisingdecompositionandfermentationbiocatalysts
AT behnamtaidi consolidatedbioethanolproductionfromolivemillwastewooddecayfungifromcentralmoroccoaspromisingdecompositionandfermentationbiocatalysts
AT hassanhajjaj consolidatedbioethanolproductionfromolivemillwastewooddecayfungifromcentralmoroccoaspromisingdecompositionandfermentationbiocatalysts
_version_ 1724367983522873344

Similar Items