Maximizing Fucoxanthin Production in Odontella aurita by Optimizing the Ratio of Red and Blue LEDs in an Auto-Controlled Internally Illuminated Photobioreactor

EnergyRN EM Feeds Pub Date : 1900-01-01 DOI:10.2139/ssrn.3933559

H. Zhang, Pengyan Gong, Qinghua Cai, Chengwu Zhang, Baoyan Gao

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引用次数: 1

Abstract

Fucoxanthin has multiple beneficial effects on human health. However, an efficient cultivation strategy for hyper-production of microalgae-based fucoxanthin has been seldom achieved. Here, an auto-controlled photobioreactor (PBR) installed internal LEDs illumination with adjustable spectra ratio was firstly used to culture Odontella aurita. The results showed that red light (RL) was more suitable for cell growth and fucoxanthin accumulation than blue light (BL) and white light (WL). The biomass and fucoxanthin production were further promoted by optimizing the ratios of RL and BL, with 8:2 giving the highest productivities of 570 and 9.41 mg L-1 d-1, respectively, which is the highest fucoxanthin productivity ever reported under photoautotrophic cultivation. Pilot-scale cultivation demonstrated its promising feasibility in commercial fucoxanthin production. Our study represents a pioneering work of harnessing the PBR with internal illumination for hyper-production of microalgae-based fucoxanthin, and provides feasible strategies for high-efficient production of other value-added products in related species/strains.

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通过优化自动控制内照明光生物反应器中红蓝led的比例，最大限度地提高褐藻黄素的产量

岩藻黄素对人体健康有多种有益作用。然而，一种高效的以微藻为基础的岩藻黄素高产的培养策略很少实现。本研究首次采用内部安装可调光谱比led照明的自动控制光生物反应器(PBR)培养aurita。结果表明，红光(RL)比蓝光(BL)和白光(WL)更适合细胞生长和岩藻黄质积累。优化RL和BL的比例进一步提高了生物量和岩藻黄素的产量，8:2的RL和BL的产量最高，分别为570和9.41 mg L-1 d-1，这是光自养栽培中报道的最高岩藻黄素产量。中试栽培证明了其商业化生产岩藻黄素的可行性。我们的研究是利用PBR内部照明进行微藻基岩藻黄素高产的开创性工作，为相关物种/菌株高效生产其他增值产品提供了可行的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EnergyRN EM Feeds

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