磁场促进野外和室内小球藻生长的实验。

Magnetic field as promoter of growth in outdoor and indoor assays of Chlorella fusca.

机构信息

Laboratory of Biochemical Engineering, College of Chemistry and Food Engineering, Federal University of Rio Grande, Rio Grande-RS, 96203-900, Brazil.

Laboratory of Biotechnology, College of Chemistry and Food Engineering, Federal University of Rio Grande, Rio Grande-RS, 96203-900, Brazil.

出版信息

Bioprocess Biosyst Eng. 2021 Jul;44(7):1453-1460. doi: 10.1007/s00449-021-02526-6. Epub 2021 Mar 24.

DOI:10.1007/s00449-021-02526-6

PMID:33760985

Abstract

This study aimed to evaluate the influence of a magnetic field (MF) intensity of 25 mT on Chlorella fusca cultivation in outdoor and indoor conditions, and evaluate the changes in the macromolecules, pigment content and protein profile. C. fusca was cultivated for 15 d in raceway photobioreactor. MF was applied for 24 h d and 1 h d. In outdoor cultivation, MF applied for 24 h d increased 23% in the biomass concentration, while indoor assays resulted in an increase in both modes, with biomass production increasing between 70 and 85%. Biomass composition was altered when MF was applied for 1 h d in indoor assays; the highest protein content was achieved (32.7%). Nitrate consumption was higher in outdoor assays, while MF application did not alter the protein profile. The results showed that combining the outdoor conditions with MF is advantageous, as higher biomass concentration can be achieved with lower energy expenditure.

摘要

本研究旨在评估磁场（MF）强度为 25 mT 对室外和室内条件下的 Chlorella fusca 培养的影响，并评估大分子、色素含量和蛋白质谱的变化。Chlorella fusca 在跑道式光生物反应器中培养了 15 天。MF 应用了 24 小时 d 和 1 小时 d。在室外培养中，MF 应用 24 小时 d 使生物量浓度增加了 23%，而室内试验则在两种模式下均导致生物量增加，生物量生产增加了 70%至 85%。当 MF 在室内试验中应用 1 小时 d 时，生物质组成发生了变化；实现了最高的蛋白质含量（32.7%）。在室外试验中硝态氮消耗较高，而 MF 应用并未改变蛋白质谱。结果表明，将室外条件与 MF 结合是有利的，因为可以在较低的能源消耗下实现更高的生物量浓度。

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磁场促进野外和室内小球藻生长的实验。

Magnetic field as promoter of growth in outdoor and indoor assays of Chlorella fusca.

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