Verlagslink DOI: 10.3390/bioengineering9010013
Titel: Mesophilic and thermophilic anaerobic digestion of wheat straw in a CSTR system with 'Synthetic Manure' : impact of nickel and tungsten on methane yields, cell count, and microbiome
Sprache: Englisch
Autorenschaft: Arthur, Richard 
Antonczyk, Sebastian 
Off, Sandra 
Scherer, Paul A. 
Herausgeber*In: Kleinsteuber, Sabine 
Schlagwörter: CSTR; TXRF; biogas; cell count; fermentation; microbiome; straw; trace elements
Erscheinungsdatum: 2-Jan-2022
Verlag: MDPI
Zeitschrift oder Schriftenreihe: Bioengineering 
Zeitschriftenband: 9
Zeitschriftenausgabe: 1
Zusammenfassung: 
Lignocellulosic residues, such as straw, are currently considered as candidates for biogas production. Therefore, straw fermentations were performed to quantitatively estimate methane yields and cell counts, as well as to qualitatively determine the microbiome. Six fully automated, continuously stirred biogas reactors were used: three mesophilic (41 °C) and three thermophilic (58 °C). They were fed every 8 h with milled wheat straw suspension in a defined, buffered salt solution, called 'synthetic manure'. Total reflection X-ray fluorescence spectrometry analyses showed nickel and tungsten deficiency in the straw suspension. Supplementation of nickel and subsequently tungsten, or with an increasing combined dosage of both elements, resulted in a final concentration of approximately 0.1 mg/L active, dissolved tungsten ions, which caused an increase of the specific methane production, up to 63% under mesophilic and 31% under thermophilic conditions. That is the same optimal range for pure cultures of methanogens or bacteria found in literature. A simultaneous decrease of volatile fatty acids occurred. The Ni/W effect occurred with all three organic loading rates, being 4.5, 7.5, and 9.0 g volatile solids per litre and day, with a concomitant hydraulic retention time of 18, 10, or 8 days, respectively. A maximum specific methane production of 0.254 m3 CH4, under standard temperature and pressure per kg volatile solids (almost 90% degradation), was obtained. After the final supplementation of tungsten, the cell counts of methanogens increased by 300%, while the total microbial cell counts increased by only 3-62%. The mesophilic methanogenic microflora was shifted from the acetotrophic Methanosaeta to the hydrogenotrophic Methanoculleus (85%) by tungsten, whereas the H2-CO2-converter, Methanothermobacter, always dominated in the thermophilic fermenters.
URI: http://hdl.handle.net/20.500.12738/12979
DOI: 10.48441/4427.428
ISSN: 2306-5354
Begutachtungsstatus: Diese Version hat ein Peer-Review-Verfahren durchlaufen (Peer Review)
Einrichtung: Department Biotechnologie 
Fakultät Life Sciences 
Dokumenttyp: Zeitschriftenbeitrag
Hinweise zur Quelle: Arthur, R.; Antonczyk, S.;Off, S.; Scherer, P.A. Mesophilic and Thermophilic Anaerobic Digestion of Wheat Straw in a CSTR System with ‘Synthetic Manure’: Impact of Nickel and Tungsten on Methane Yields, Cell Count, and Microbiome. Bioengineering 2022, 9, 13. https://doi.org/10.3390/bioengineering9010013. The APC was funded by Hamburg University of Applied Sciences.
Sponsor / Fördernde Einrichtung: Hochschule für Angewandte Wissenschaften Hamburg 
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