Ortiz Montoya Erika Y, Casazza Alessandro A, Aliakbarian Bahar, Perego Patrizia, Converti Attilio, de Carvalho João C Monteiro
Dept. of Civil, Chemical and Environmental Engineering (DICCA), Chemical Engineering Pole, University of Genoa, Via Opera Pia 15, Genoa, 16145, Italy.
Biotechnol Prog. 2014 Jul-Aug;30(4):916-22. doi: 10.1002/btpr.1885. Epub 2014 Mar 14.
To reduce CO2 emissions and simultaneously produce biomass rich in essential fatty acids, Chlorella vulgaris CCAP 211 was continuously grown in a tubular photobioreactor using air alone or air enriched with CO2 as the sole carbon source. While on one hand, nitrogen-limited conditions strongly affected biomass growth, conversely, they almost doubled its lipid fraction. Under these conditions using air enriched with 0, 2, 4, 8, and 16% (v/v) CO2 , the maximum biomass concentration was 1.4, 5.8, 6.6, 6.8, and 6.4 gDB L(-1) on a dry basis, the CO2 consumption rate 62, 380, 391, 433, and 430 mgCO2 L(-1) day(-1) , and the lipid productivity 3.7, 23.7, 24.8, 29.5, and 24.4 mg L(-1) day(-1) , respectively. C. vulgaris was able to grow effectively using CO2 -enriched air, but its chlorophyll a (3.0-3.5 g 100gDB (-1) ), chlorophyll b (2.6-3.0 g 100gDB (-1) ), and lipid contents (10.7-12.0 g 100gDB (-1) ) were not significantly influenced by the presence of CO2 in the air. Most of the fatty acids in C. vulgaris biomass were of the saturated series, mainly myristic, palmitic, and stearic acids, but a portion of no less than 45% consisted of unsaturated fatty acids, and about 80% of these were high added-value essential fatty acids belonging to the ω3 and ω6 series. These results highlight that C. vulgaris biomass could be of great importance for human health when used as food additive or for functional food production.
为了减少二氧化碳排放并同时生产富含必需脂肪酸的生物质,普通小球藻CCAP 211在管式光生物反应器中连续培养,仅使用空气或富含二氧化碳的空气作为唯一碳源。一方面,氮限制条件强烈影响生物质生长,相反,它们几乎使其脂质部分增加了一倍。在这些条件下,使用富含0%、2%、4%、8%和16%(v/v)二氧化碳的空气,最大生物质浓度以干基计分别为1.4、5.8、6.6、6.8和6.4 gDB L⁻¹,二氧化碳消耗速率分别为62、380、391、433和430 mgCO₂ L⁻¹ 天⁻¹,脂质生产率分别为3.7、23.7、24.8、29.5和24.4 mg L⁻¹ 天⁻¹。普通小球藻能够使用富含二氧化碳的空气有效生长,但其叶绿素a(3.0 - 3.5 g 100gDB⁻¹)、叶绿素b(2.6 - 3.0 g 100gDB⁻¹)和脂质含量(10.7 - 12.0 g 100gDB⁻¹)不受空气中二氧化碳存在的显著影响。普通小球藻生物质中的大多数脂肪酸属于饱和系列,主要是肉豆蔻酸、棕榈酸和硬脂酸,但不少于45%的部分由不饱和脂肪酸组成,其中约80%是属于ω-3和ω-6系列的高附加值必需脂肪酸。这些结果表明,普通小球藻生物质用作食品添加剂或用于功能性食品生产时对人类健康可能具有重要意义。
