地热水作为营养介质源对温室条件下螺旋藻生物量生产力和生化组成的影响

Pub Date : 2023-01-01 DOI:10.1051/limn/2023001
Betül Güroy, Derya Güroy, Serhan Mantoğlu, Onur Karadal, S. Oğuzkan
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引用次数: 1

摘要

螺旋藻(Arthrospira platensis Gomont, 1892)生长在高碱性水域,是许多工业的重要原料。然而,用于商业规模螺旋藻生产的分析级培养基相当昂贵。研究了用地热水代替Schlösser培养基培养螺旋藻的生物量、生化含量、氨基酸和矿物产量。螺旋藻在420 L培养量的半开放式环形体系中培养3周。然后,用体积为Schlösser培养基(SM)的25% (GW25)、50% (GW50)、75% (GW75)和100% (GW100)的培养基代替地热水(GW)。GW50组的生物量浓度(1.324 g/L)高于其他各组(GW25、GW75、GW100和SM),产量最低的是GW100组(0.624 g/L)。磷酸盐含量为SM的116.6倍的GW75培养基中蛋白质含量和藻蓝蛋白纯度最高。SM、GW25和GW50的叶绿素含量均高于GW100 (P < 0.05)。油脂含量以GW100最高(P < 0.05)。GW50和GW75组的异亮氨酸、亮氨酸和缬氨酸水平均高于其他组(P < 0.05)。培养基中硝酸盐含量最高的GW50组和GW75组铁含量显著降低。Schlösser介质与地热水混合制备组(GW25、GW50和GW75)的叶绿素、藻蓝蛋白、蛋白质、干生物量、矿物质和氨基酸含量均优于地热水(GW100)和SM。结果表明,在本研究条件下,部分地热水用于螺旋藻生产是可行的。
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Geothermal water as a nutrient medium source on the biomass productivity and biochemical composition of Spirulina (Arthrospira platensis) under the greenhouse conditions
Spirulina (Arthrospira platensis Gomont, 1892) is grown in highly alkaline waters and is an important ingredient for many industries. However, analytical grade-based media in used commercial-scale production of Spirulina is quite expensive. Spirulina cultivation was studied by replacing the Schlösser medium with geothermal water in terms of its biomass, biochemical content, amino acid and mineral production. Spirulina was cultured in a semi-open raceway system with a 420 L culture volume for three weeks. Then, the geothermal water (GW) was replaced with 25% (GW25), 50% (GW50), 75% (GW75) and 100% (GW100) of the volume of the Schlösser culture medium (SM). The biomass concentration was determined to the higher in the GW50 (1.324 g/L) than in other groups (GW25, GW75, GW100 and SM), while the minimum yield was in GW100 (0.624 g/L) group. The highest protein content and phycocyanin purity ratio were found in the GW75 medium containing 116.6 times higher phosphate than the SM. The chlorophyll content of SM, GW25 and GW50 was higher than that of the GW100 (P < 0.05). The highest lipid content was determined in the GW100 (P < 0.05). Isoleucine, leucine and valine levels of the GW50 and GW75 were higher than those of the other groups (P < 0.05). The iron levels of the GW50 and GW75 groups, which have the highest nitrate content in the culture mediums, were significantly lower. The chlorophyll, phycocyanin, protein, dry biomass, mineral and amino acid in groups (GW25, GW50 and GW75) prepared by mixing Schlösser medium and geothermal water mix were better than geothermal water (GW100) and SM. As a result, it is concluded that it is possible to use partial geothermal water in Spirulina production under this study conditions.
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