Single-step, single-organism bioethanol production and bioconversion of lignocellulose waste materials by phlebioid fungal species

Tutkimustuotos: ArtikkelijulkaisuArtikkeliTieteellinenvertaisarvioitu

Kuvaus

Ethanol production from non-pretreated lignocellulose was carried out in a consolidated bioprocess with wood-decay fungi of phlebioid Polyporales. Ethanol production was attempted on glucose, spruce wood sawdust and waste core board. Substantial quantities of ethanol were achieved, and isolate Phlebia radiata 0043 produced 5.9 g/L of ethanol reaching the yield of 10.4% ethanol from core board lignocellulose substrate. Acidic initial culture conditions (pH 3) induced ethanol fermentation compared to the more neutral environment. Together with bioethanol, the fungi were able to produce organic acids such as oxalate and fumarate, thus broadening their capacity and applicability as efficient organisms to be utilized for bioconversion of various lignocelluloses. In conclusion, fungi of Phlebia grow on, convert and saccharify solid lignocellulose waste materials without pre-treatments resulting in accumulation of ethanol and organic acids. These findings will aid in applying fungal biotechnology for production of biofuels and biocompounds.
Alkuperäiskielienglanti
LehtiBioresource Technology
Vuosikerta225
Sivut254-261
Sivumäärä8
ISSN0960-8524
DOI - pysyväislinkit
TilaJulkaistu - helmikuuta 2017
OKM-julkaisutyyppiA1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä, vertaisarvioitu

Tieteenalat

  • 414 Maatalouden bioteknologia
  • 219 Ympäristön bioteknologia
  • 220 Teollinen bioteknologia
  • 1182 Biokemia, solu- ja molekyylibiologia
  • 1183 Kasvibiologia, mikrobiologia, virologia

Lainaa tätä

@article{191e3e2b62e44dec92c82ae1d969d66d,
title = "Single-step, single-organism bioethanol production and bioconversion of lignocellulose waste materials by phlebioid fungal species",
abstract = "Ethanol production from non-pretreated lignocellulose was carried out in a consolidated bioprocess with wood-decay fungi of phlebioid Polyporales. Ethanol production was attempted on glucose, spruce wood sawdust and waste core board. Substantial quantities of ethanol were achieved, and isolate Phlebia radiata 0043 produced 5.9 g/L of ethanol reaching the yield of 10.4{\%} ethanol from core board lignocellulose substrate. Acidic initial culture conditions (pH 3) induced ethanol fermentation compared to the more neutral environment. Together with bioethanol, the fungi were able to produce organic acids such as oxalate and fumarate, thus broadening their capacity and applicability as efficient organisms to be utilized for bioconversion of various lignocelluloses. In conclusion, fungi of Phlebia grow on, convert and saccharify solid lignocellulose waste materials without pre-treatments resulting in accumulation of ethanol and organic acids. These findings will aid in applying fungal biotechnology for production of biofuels and biocompounds.",
keywords = "414 Agricultural biotechnology, Waste bioconversion, Fungal biotechnology, 219 Environmental biotechnology, Lignocellulose waste material, 220 Industrial biotechnology, BIOETHANOL PRODUCTION, Biocompound production, 1182 Biochemistry, cell and molecular biology, ETHANOL PRODUCTION, Biocompounds, Organic acids, Lignocellulose breakdown, 1183 Plant biology, microbiology, virology, Fungal biology, Microbiology",
author = "Mattila, {Hans Kristian} and Kuuskeri, {Jaana Tuulia} and Lundell, {Taina Kristina}",
year = "2017",
month = "2",
doi = "10.1016/j.biortech.2016.11.082",
language = "English",
volume = "225",
pages = "254--261",
journal = "Bioresource Technology",
issn = "0960-8524",
publisher = "Elsevier Scientific Publ. Co",

}

TY - JOUR

T1 - Single-step, single-organism bioethanol production and bioconversion of lignocellulose waste materials by phlebioid fungal species

AU - Mattila, Hans Kristian

AU - Kuuskeri, Jaana Tuulia

AU - Lundell, Taina Kristina

PY - 2017/2

Y1 - 2017/2

N2 - Ethanol production from non-pretreated lignocellulose was carried out in a consolidated bioprocess with wood-decay fungi of phlebioid Polyporales. Ethanol production was attempted on glucose, spruce wood sawdust and waste core board. Substantial quantities of ethanol were achieved, and isolate Phlebia radiata 0043 produced 5.9 g/L of ethanol reaching the yield of 10.4% ethanol from core board lignocellulose substrate. Acidic initial culture conditions (pH 3) induced ethanol fermentation compared to the more neutral environment. Together with bioethanol, the fungi were able to produce organic acids such as oxalate and fumarate, thus broadening their capacity and applicability as efficient organisms to be utilized for bioconversion of various lignocelluloses. In conclusion, fungi of Phlebia grow on, convert and saccharify solid lignocellulose waste materials without pre-treatments resulting in accumulation of ethanol and organic acids. These findings will aid in applying fungal biotechnology for production of biofuels and biocompounds.

AB - Ethanol production from non-pretreated lignocellulose was carried out in a consolidated bioprocess with wood-decay fungi of phlebioid Polyporales. Ethanol production was attempted on glucose, spruce wood sawdust and waste core board. Substantial quantities of ethanol were achieved, and isolate Phlebia radiata 0043 produced 5.9 g/L of ethanol reaching the yield of 10.4% ethanol from core board lignocellulose substrate. Acidic initial culture conditions (pH 3) induced ethanol fermentation compared to the more neutral environment. Together with bioethanol, the fungi were able to produce organic acids such as oxalate and fumarate, thus broadening their capacity and applicability as efficient organisms to be utilized for bioconversion of various lignocelluloses. In conclusion, fungi of Phlebia grow on, convert and saccharify solid lignocellulose waste materials without pre-treatments resulting in accumulation of ethanol and organic acids. These findings will aid in applying fungal biotechnology for production of biofuels and biocompounds.

KW - 414 Agricultural biotechnology

KW - Waste bioconversion

KW - Fungal biotechnology

KW - 219 Environmental biotechnology

KW - Lignocellulose waste material

KW - 220 Industrial biotechnology

KW - BIOETHANOL PRODUCTION

KW - Biocompound production

KW - 1182 Biochemistry, cell and molecular biology

KW - ETHANOL PRODUCTION

KW - Biocompounds

KW - Organic acids

KW - Lignocellulose breakdown

KW - 1183 Plant biology, microbiology, virology

KW - Fungal biology

KW - Microbiology

U2 - 10.1016/j.biortech.2016.11.082

DO - 10.1016/j.biortech.2016.11.082

M3 - Article

VL - 225

SP - 254

EP - 261

JO - Bioresource Technology

JF - Bioresource Technology

SN - 0960-8524

ER -