Selection of Arthrospira platensis strains with productivity in brackish water with high boron levels for commercial production in the Lluta Valley

Adaptation and selection of Arthrospira platensis strains, for cultivation in brackish water with excess boron (B) in the Lluta Valley can become an interesting alternative that would allow to extend these cultures to areas that possess the environmental conditions, but that lack the fresh water needed to do it. Strains TX98 and P88 were evaluated in laboratory conditions with three different media of brackish water and with the white medium, the Zarrouk modified medium (MZM). The growing media with brackish water with a B concentration present in the Lluta River of 20 mgL-1 (B20) and medium with 30 mgL-1 (B30), and 10 mg L-1 of B (B10). The effect of the different media on the growing parameters with a culture temperature of 25 +/- 1ºC in the three treatments, strains TX98 and P88 triplicate, Arthrospira platensis, showed tolerance. It was statistically determined that in the growth, the two strains, the three treatments and in the interrelation of both there were significant differences (p < 0.05). The TX98 strain reached a concentration of 1.139 g L-1 (dry weight) in brackish water with medium B20. Therefore, the highest rate of specific growth (μmax) was obtained with the TX98 strain grown in the brackish medium B30 and the lowest duplication time (0.597 days). Cells grown in brackish water with B had a slightly biochemically modified composition with the white, in relation to the protein content, in the cases in which there are differences in the B content, specifically B30 treatment. For the culture with brackish water from the Lluta River, the TX98 strain is recommended with 10 mg of B using a laboratory to pilot scale.

Avaliação da utilização do dióxido de carbono proveniente da fermentação alcoólica no cultivo de Spirulina (Arthrospira) platensis: uso simultâneo de nitrato de sódio e sulfato de amônio como fontes de nitrogênio em fotobiorreator abert / Evaluation of the use of carbon dioxide from alcoholic fermentation on Spirulina (Arthrospira) platensis cultivation: simultaneous use of sodium nitrate and ammonium sulphate as nitrogen sources in open photobioreactor

O principal objetivo deste trabalho foi a avaliação do potencial da utilização do dióxido de carbono proveniente da fermentação alcoólica no cultivo Spirulina (Arthrospira) platensis, visando demonstrar a possibilidade do uso de um gás efluente na produção de biomassa microbiana de alto valor comercial. Para tanto, tal cianobactéria foi cultivada em tanques abertos, em escala laboratorial, em temperatura de 30 ± 1 °C e intensidade luminosa de 156 ± 20 µmol fótons m-2 s-1. O estudo de diversas variáveis de cultivo levou à fixação das seguintes condições: concentração do inóculo de 400 ± 20 mg L-1; pH de 9,0 ± 0,3, controlado por meio da adição de dióxido de carbono proveniente de cilindros; meio de cultura Schlõsser, modificado de maneira a conter 0,497 e 16,4 g L-1 de carbonato e bicarbonato de sódio, respectivamente, e apenas 5,9 mM de nitrato de sódio; adição de 7,5 mM de sulfato de amônio no decorrer de 13 dias, em quantidades diárias exponencialmente crescentes, através do processo descontínuo alimentado de cultivo. Sob tais condições foram obtidos os seguintes resultados: concentração celular máxima (Xm) de 2990 mg L-1, produtividade celular (PX) de 185 mg L-1 d-1, velocidade específica máxima de crescimento (µm) de 0,42 d-1, fator de conversão de nitrogênio em células (YX/N) de 8,85 mg mg-1, teor final de clorofila (CLf) de 4,3 mg g-1, e teores de proteínas (PTN) e lipídeos (LIP) de 35 e 21 %, respectivamente. Com a finalidade de estimular o crescimento celular de A. platensis, optou-se por aumentar o valor da intensidade luminosa de 156 para 192 ou 252 ± 20 µmol fótons m-2 s-1 no 5º, 8º ou 11º dia de cultivo. Os melhores resultados cinéticos (Xm = 3954 mg L-1, PX = 253 mg L-1 d-1) e de conteúdo da biomassa (CLf = 4,2 mg g-1, PTN = 28 %, LIP = 19 %) foram obtidos com aumento da intensidade luminosa para 192 ± 20 µmol fótons m-2 s-1 no 8º dia de cultivo. Os ensaios realizados sob tais condições otimizadas, porém com dióxido de carbono...

The main objective of this work was the evaluation of the potential of using carbon dioxide from alcoholic fermentation on Spirulina (Arthrospira) platensis cultivation, aiming to prove the feasibility of applying an effluent gas in the production of high added-value microbial biomass. In order to do so, the cyanobacterium was cultivated in laboratorial-scale open raceway tanks at temperature 30 ± 1 °C and light intensity 156 ± 20 µmol photons m-2 s-1. After the study of several cultivation variables, the following conditions were set: inoculum concentration 400 ± 20 mg L-1; pH 9,0 ± 0,3, controlled by the addition of carbon dioxide from cylinders; Schlõsser medium, modified as to contain 0,497 and 16,4 g L-1 sodium carbonate and bicarbonate, respectively, and only 5,9 mM sodium nitrate; addition of 7,5 mM ammonium sulphate throughout 13 days, at exponentially increasing amounts, by the fed-batch cultivation process. Under such conditions, the following results were obtained: maximum cell concentration Xm = 2990 mg L-1, cell productivity PX = 185 mg L-1 d-1, maximum specific growth rate µm = 0,42 d-1, cell to nitrogen conversion factor YX/N = 8,85 mg mg-1, final chlorophyll content CLf = 4,3 mg g-1, and content of proteins (PTN) and lipids (LIP) of 35 and 21 %, respectively. Objectiving further optimized A. platensis growth, it was chosen to increase the light intensity from 156 to 192 or 252 ± 20 µmol photons m-2 s-1 on the 5th, 8th or 11th day of cultivation. The best results in terms of growth (Xm = 3954 mg L-1, PX = 253 mg L-1 d-1) and biomass content (CLf = 4,2 mg g-1, PTN = 28 %, LIP = 19 %) were reached with increasing the light intensity to 192 ± 20 µmol photons m-2 s-1 on the 8th day of cultivation. The runs carried out under such optimum conditions, but using carbon dioxide from alcoholic fermentation, led to the following results: Xm = 3298 mg L-1, PX = 206 mg L-1 d-1, CLf = 4,0 mg g-1, PTN = 28 %, LIP = 17 %. Conclusively, the...

The Effect of Low Temperature Stress on Activity of Dehydrogenase in Spirulina(Arthrospira) / 微生物学通报

S_(3). The order of change range of the Q_(10) value of activity of dehydogenase is S_(1)

Study on Glycolic Acid Oxidase (GO) of Spirulina(Arthrospira) / 微生物学通报

A comparative study on the glycolic acid oxidase (GO) of the domestic Spirulina(Arthrospira) platensis (S_(1)) from alkaline lake in Erdos Plateau and the imported S. (A.) platensis (S_(2)) and S. (A.) maxima (S_(3)) as well is made with colorimetric method. The results show that activity of GO (25℃, pH 8.0) of S_(1), S_(2 )and S_(3) is 70.9 U/gFW, 59.6 U/gFW and 80.9 U/gFW respectively; the GO's optimum temperature of S_(1)、S_(2) and S_(3 )is 30℃; the GO's optimum pH value of S_(1 )is 8.6,while that of S_(2 ) 8.2 and that of S_(3) 8.4; the GO of S_(1 )is stable from 0℃ to 35℃ and from pH 7.6 to pH 10.0, while that of S_(2) from 0℃ to 30℃ and from pH 8.0 to pH 9.0 and that of S_(3) from 0℃ to 35℃ and from pH 8.0 to pH 8.6. Adaptive range of S_(1) GO for temperature and pH is wider, and activity at low and high temperature and under strong acidand alkali conditions is higher than that of the imported species.