用于生活污水和养殖废水处理、生物柴油生产和碳封存的本土微藻种的分离和筛选。

Isolation and screening of indigenous microalgae species for domestic and livestock wastewater treatment, biodiesel production, and carbon sequestration.

机构信息

Division of Environmental Materials, Honam National Institute of Biological Resources (HNIBR), Mokpo, 58762, Republic of Korea.

出版信息

J Environ Manage. 2022 Sep 15;318:115648. doi: 10.1016/j.jenvman.2022.115648. Epub 2022 Jul 1.

DOI:10.1016/j.jenvman.2022.115648

PMID:35949094

Abstract

The use of indigenous microalgae strains for locally generated domestic (DWW) and livestock wastewater (LWW) treatment is essential for effective and economical applications. Phototrophic microalgae-based biofuel production also contributes to carbon sequestration via CO fixation. However, simultaneous consideration of both isolation and screening procedures for locally collected indigenous microalgae strains is not common in the literature. We aimed to isolate indigenous microalgae strains from locally collected samples on coastlines and islands in South Korea. Among five isolated strains, Chlorella sorokiniana JD1-1 was selected for DWW and LWW treatment due to its ability to grow in waste resources. This strain showed a higher specific growth rate in DWW than artificial growth medium (BG-11) with a range of 0.137-0.154 d. During cultivation, 96.5%-97.1% of total nitrogen in DWW and 89.2% in LWW was removed. Over 99% of total phosphorus in DWW and 96.4% in LWW was also removed. Finally, isolated C. sorokiniana JD1-1 was able to fix CO within a range of 0.0646-0.1043 g CO L d. These results support the domestic applications of carbon sequestration-efficient microalgae in the waste-to-energy nexus.

摘要

利用本土微藻菌株处理本地产生的生活污水（DWW）和牲畜废水（LWW）对于有效和经济的应用至关重要。光养微藻生物燃料生产也通过 CO2 固定有助于碳封存。然而，在文献中，同时考虑到从当地收集的本土微藻菌株的分离和筛选程序并不常见。我们的目的是从韩国沿海和岛屿的本地采集样本中分离本土微藻菌株。在分离的五个菌株中，由于能够在废物资源中生长，选择 Chlorella sorokiniana JD1-1 用于 DWW 和 LWW 处理。该菌株在 DWW 中的比在人工生长培养基（BG-11）中的比特定生长率更高，范围为 0.137-0.154 d。在培养过程中，DWW 中的总氮有 96.5%-97.1%和 LWW 中的总氮有 89.2%被去除。DWW 中的总磷有 99%以上和 LWW 中的总磷有 96.4%被去除。最后，分离的 Chlorella sorokiniana JD1-1 能够在 0.0646-0.1043 g CO L d 的范围内固定 CO2。这些结果支持在能源废物共生体中应用高效碳封存微藻进行国内应用。

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用于生活污水和养殖废水处理、生物柴油生产和碳封存的本土微藻种的分离和筛选。

Isolation and screening of indigenous microalgae species for domestic and livestock wastewater treatment, biodiesel production, and carbon sequestration.

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