Biorefinery of Vineyard Winter Prunings for Production of Microbial Lipids by the Oleaginous Yeast Cryptococcus Curvatus

Media type: E-Book

Title: Biorefinery of Vineyard Winter Prunings for Production of Microbial Lipids by the Oleaginous Yeast Cryptococcus Curvatus

Contributor: Zhang, Xueyuan [VerfasserIn]; Fang, Zhumei [VerfasserIn]; Zhao, Di [VerfasserIn]; Rasool, Kamal [VerfasserIn]; Wang, Xue [VerfasserIn]; Jin, Guojie [VerfasserIn]; Gong, Zhiwei [VerfasserIn]; Yang, Xiaobing [VerfasserIn]

imprint: [S.l.]: SSRN, [2023]

Extent: 1 Online-Ressource (24 p)

Language: English

DOI: 10.2139/ssrn.4403394

Identifier:

Keywords: Spent agricultural waste ; Vineyard winter pruning ; Biorefinery ; Oleaginous yeast ; Cryptococcus curvatus ; Microbial lipid

Origination:

Footnote: In: WM-23-613

Description: Spent biomass from agricultural and forestry industries are substantial low-cost carbon source for reducing the input of microbial lipid production. Herein, the components of the vineyard winter prunings (VWPs) from 40 grape cultivars were analyzed. The VWPs contained (w/w) cellulose ranged from 24.8% to 32.4%, hemicellulose 9.6% to 13.8%, lignin 23.7% to 32.4%. The VWPs from Cabernet Sauvignon was processed with the alkali-methanol pretreatment, and 95.8% sugars were released from the regenerated VWPs after enzymatic hydrolysis. The hydrolysates from the regenerated VWPs were effective for lipid production without further treatment as a lipid content of 59% could be achieved with Cryptococcus curvatus. The regenerated VWPs was also used for lipid production via simultaneous saccharification and fermentation (SSF), which led to a lipid yield of 0.088 g/g raw VWPs, 0.126 g/g regenerated VWPs and 0.175 g/g from the reducing sugars. This work demonstrated that the VWPs can be explored for co-production of microbial lipids

Access State: Open Access

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