New nutrients evaluation in Spirulina maxima growth for phycocyanin, carbohydrate, and biochar production

Lucas Ioran Marciano, Guilherme A. Pedro, Wallyson Ribeiro dos Santos, G. Tagliaferro, Fabio Rodolfo Miguel Batista, D. Guimarães
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Abstract

Purpose The purpose of this study is to investigate the influence of light intensity and sources of carbon and nitrogen on the cultivation of Spirulina maxima. Design/methodology/approach Cultures were carried out in a modified Zarrouk medium using urea, sodium acetate and glycerol. A Taguchi experimental design was used to evaluate the effect on the production of biocompounds: productivities in biomass, carbohydrates, phycocyanin and biochar were analyzed. Findings Statistical data analysis revealed that light intensity and sodium acetate concentration were the most important factors, being significant in three of the four response variables studied. The highest productivities in biomass (46.94 mg.L−1.d−1), carbohydrates (6.11 mg.L−1.d−1), phycocyanin (3.62 mg.L−1.d−1) and biochar (22, 48 mg.L−1.d−1) were achieved in experiment 4 of the Taguchi matrix, highlighting as the ideal condition for the production of biomass, carbohydrates and phycocyanin. Practical implications Sodium acetate and urea can be considered, respectively, as potential sources of carbon and nitrogen to increase Spirulina maxima productivity. From the results, an optimized cultivation condition for the sustainable production of bioproducts was obtained. Originality/value This work focuses on the study of the influence of light intensity and the use of alternative sources of nitrogen and carbon on the growth of Spirulina maxima, as well as on the influence on the productivity of biomass and biocompounds. There are few studies in the literature focused on the phycocyanin production from microalgae, justifying the need to deepen the subject.
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螺旋藻生长对藻蓝蛋白、碳水化合物和生物炭生产的新营养评价
目的研究光照强度和碳氮来源对最大螺旋藻栽培的影响。设计/方法/方法:在改良的Zarrouk培养基中使用尿素、醋酸钠和甘油进行培养。采用田口试验设计,对生物量、碳水化合物、藻蓝蛋白和生物炭的产量进行了分析。结果统计数据分析显示,光照强度和醋酸钠浓度是最重要的影响因素,在研究的四个响应变量中有三个是显著的。实验4中,Taguchi基质的生物量(46.94 mg.L−1.d−1)、碳水化合物(6.11 mg.L−1.d−1)、藻蓝蛋白(3.62 mg.L−1.d−1)和生物炭(22,48 mg.L−1.d−1)的产量最高,是生产生物量、碳水化合物和藻蓝蛋白的理想条件。实际意义醋酸钠和尿素可分别作为提高螺旋藻最大生产力的碳和氮的潜在来源。根据实验结果,获得了可持续生产生物制品的最佳栽培条件。独创性/价值这项工作的重点是研究光强度和使用替代氮和碳源对最大螺旋藻生长的影响,以及对生物量和生物化合物生产力的影响。文献中对微藻产藻蓝蛋白的研究较少,有必要对该课题进行深入研究。
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