Utilizing novel Aspergillus species for bio-flocculation: A cost-effective approach to harvest Scenedesmus microalgae for biofuel production

IF 4.8 Q1 MICROBIOLOGY
Gyanendra Tripathi , Vinay Kumar Pandey , Suhail Ahmad , Irum , Nortoji A. Khujamshukurov , Alvina Farooqui , Vishal Mishra
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引用次数: 0

Abstract

The present study aimed to isolate a bioflocculating fungal strain from wastewater collected from a local bike garage. The isolate showed maximum similarity to Aspergillus species. The fungus was identified as Aspergillus flavus species F_GTAF1 IU (accession no OP703382). The isolated fungus was evaluated in terms of biomass recovery efficiency in Scenedesmus Sp. GTAF01. The extent of algal fungal co-pelletization was evaluated as a function of the algae-to-fungi ratio, volume of fungal culture in broth, agitation rate, and pH. results showed that at fungal culture volume of 60%v/v, fungal culture volume of 1:3%w/w, 100 rpm, and pH 3, 93.6% biomass was obtained during the initial 5 h. At wavenumbers 1384 and 1024 cm-1 a significant alteration in the transmission percentage was observed in co-pellet compared to algae and fungal cells. This shows the significant role of C-H–H and C-N stretches in co-pellet formation. This study provides deep insight into effective microalgal harvesting along with the simultaneous extraction of lipids that can be used for the sustainable production of biodiesel.

Abstract Image

利用新型曲霉菌进行生物絮凝:收获 Scenedesmus 微藻类用于生物燃料生产的经济有效方法
本研究旨在从当地一家自行车修理厂收集的废水中分离出一种生物絮凝真菌菌株。分离出的菌株与曲霉菌的相似度最高。经鉴定,该真菌为黄曲霉 F_GTAF1 IU(登录号 OP703382)。对分离出的真菌进行了生物量恢复效率评估,结果显示,该真菌在 Scenedesmus Sp.GTAF01 的生物量恢复效率进行了评估。结果表明,当真菌培养量为 60░%v/v、真菌培养量为 1:3░%w/w、转速为 100 rpm、pH 值为 3 时,藻类与真菌的共造粒程度为 93.在 1384 和 1024 cm-1 波长处,与藻类和真菌细胞相比,共生颗粒的透射率发生了显著变化。这表明,C-H-H 和 C-N 伸展在共颗粒形成过程中发挥了重要作用。这项研究为有效收获微藻并同时提取脂质提供了深刻的见解,可用于生物柴油的可持续生产。
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来源期刊
Current Research in Microbial Sciences
Current Research in Microbial Sciences Immunology and Microbiology-Immunology and Microbiology (miscellaneous)
CiteScore
7.90
自引率
0.00%
发文量
81
审稿时长
66 days
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