Department of Chemical Engineering, University of Almería, 04120, Almería, Spain.
J Phycol. 2021 Apr;57(2):636-644. doi: 10.1111/jpy.13111. Epub 2020 Dec 29.
Our aim was to develop a novel medium for the large-scale production of protein-rich Arthrospira with potential applications as a biofertilizer. The novel culture medium, termed as FM-II, was formulated using low-cost commercial chemicals and specifically designed to improve protein production. Both Arthrospira platensis and Arthrospira maxima were produced using FM-II and Arnon medium, which was used as a control. Photosynthetic status of the cells, which was checked by measuring chlorophyll fluorescence, biomass dry weight and protein content, was assessed daily. Arthrospira platensis had higher biomass and protein productivities than A. maxima when cultured in both control and FM-II media. Incorporation of varied micronutrients into FM-II formulation did not improve biomass productivity. Maximum biomass dry weight in FM-II and control medium was 2.9 and 2.5 g · L , respectively. Total protein content of the biomass ranged between 55% and 65%, suggesting potential for being used in the development of high-value agricultural products. As some nutrients were discarded unused, the initial content of phosphates and bicarbonates was reduced by 75% and 50%, respectively, without affecting the process productivity. Results reported herein could promote the production and utilization of Arthrospira platensis by significantly reducing productions costs and therefore increasing the feasibility of the process.
我们的目的是开发一种新型培养基,用于大规模生产富含蛋白质的节旋藻,该节旋藻具有作为生物肥料的潜在应用。这种新型培养基被称为 FM-II,是使用低成本的商业化学品配制的,专门用于提高蛋白质产量。使用 FM-II 和作为对照的 Arnon 培养基来生产节旋藻(Spirulina)platensis 和 Arthrospira maxima。通过测量叶绿素荧光、生物量干重和蛋白质含量来评估细胞的光合作用状态,每天进行评估。当在对照和 FM-II 培养基中培养时,节旋藻(Spirulina)platensis 的生物量和蛋白质生产力均高于 Arthrospira maxima。在 FM-II 配方中加入不同的微量营养素并没有提高生物量生产力。FM-II 和对照培养基中的最大生物量干重分别为 2.9 和 2.5 g·L-1。生物质的总蛋白质含量在 55%到 65%之间,表明有潜力用于开发高价值的农产品。由于一些营养素未被使用而被丢弃,磷酸盐和碳酸氢盐的初始含量分别减少了 75%和 50%,而不影响过程生产力。本文的研究结果可以通过显著降低生产成本来促进节旋藻(Spirulina)platensis 的生产和利用,从而提高该过程的可行性。
