光生物反应器在面积效率、气候影响和代谢物含量方面有利于大规模培养微藻。

IF 4.8 Q1 AGRICULTURE, MULTIDISCIPLINARY
Lusia Manu , Jeffrie F. Mokolensang , William Ben Gunawan , Astuti Setyawardani , Netty Salindeho , Rony Abdi Syahputra , Muhammad Iqhrammullah , Fahrul Nurkolis
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引用次数: 0

摘要

微藻是一个多样化的微生物群体,具有广泛的物理特性以及与周围环境的相互作用。微藻作为战略作物,能够生产大量有价值的生物大分子,如蛋白质和富含欧米茄的油脂,在多个行业有着广泛的应用前景。本视角旨在概述利用光生物反应器大规模培养微藻的最新进展。它还深入探讨了这项技术对土地效率、环境影响和微藻生化成分等因素的影响。在本手稿中,这些挑战的潜在解决方案在于采用垂直半封闭光生物反应器,将光生物反应器技术与垂直耕作原理完美结合。这一观点有效地强调了光生物反应器在减缓全球气候变化方面的关键作用,因为它们有助于二氧化碳(CO2)固存、将温室气体转化为更高的生物质产量、提高空气质量以及调节气候参数等过程。此外,光生物反应器还能提高生物活性化合物的产量和生物质产量。出于对未来的考虑,我们建议应用微藻动力学来更深入地了解微藻的生产。这些知识为设计和优化光生物反应器以及操纵微藻代谢物奠定了重要基础,从而为实现可持续和高效的微藻生物加工提供了途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Photobioreactors are beneficial for mass cultivation of microalgae in terms of areal efficiency, climate implications, and metabolites content

Photobioreactors are beneficial for mass cultivation of microalgae in terms of areal efficiency, climate implications, and metabolites content

Microalgae are a diverse group of microorganisms with a wide range of physical characteristics and interactions with their surroundings. They hold great promise as strategic crops capable of producing substantial quantities of valuable biomolecules, such as protein and omega-rich oils, which have extensive applications across multiple industries. This perspective aims to provide an overview of recent advancements in the utilization of photobioreactors for the large-scale cultivation of microalgae. It also delves into the implications of this technology on factors such as land efficiency, environmental impact, and the biochemical composition of microalgae. In this manuscript, the potential solution to these challenges lies in the adoption of vertical semi-closed photobioreactors, which seamlessly integrate photobioreactor technology with principles of vertical farming. This perspective effectively underscores the pivotal role of photobioreactors in mitigating global climate change, as they contribute to processes such as carbon dioxide (CO2) sequestration, conversion of greenhouse gases into increased biomass production, enhancement of air quality, and the modulation of climatic parameters. Furthermore, photobioreactors have the capacity to boost the production of bioactive compounds and biomass yields. For future considerations, we propose that the application of microalgae kinetics should be employed to gain a deeper understanding of microalgae production. This knowledge forms a critical foundation for the design and optimization of photobioreactors and the manipulation of microalgae metabolites, thus offering a pathway toward sustainable and efficient microalgae-based bioprocessing.

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来源期刊
CiteScore
5.40
自引率
2.60%
发文量
193
审稿时长
69 days
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