SU1662442A1 - Method for spiruline cultivation - Google Patents

Abstract

The invention relates to biotechnology, in particular to methods for the cultivation of microalgae, in particular spirulina, a producer of valuable protein-vitamin biomass. The purpose of the invention is to increase the biomass yield of the blue-green microalgae spirulina. Spirulina microalgae inoculum is introduced into the mineral medium containing the complex compound of copper with amino acids-Z-serinate copper (II) in an amount of 0.1-1.0 mg / l, followed by growing algae in accumulative mode under conditions of light and mixing. . On the fifth day of cultivation, the biomass yield in the experimental variants is increased by 10 - 18% compared with the control [cultivation of algae by a known method, which also uses a complex compound of copper with amino acids - glycinate-Z-copper (II) serinate]. 1 tab.

Description

The invention relates to biotechnology, in particular to methods for the cultivation of microalgae, in particular spirulina, a producer of valuable protein-vitamin biomass.

The purpose of the invention is to increase the biomass yield of blue-green microalgae spirulina.

The method consists in inoculating spirulina microalgae into a mineral medium containing a complex compound of copper with amino acids — copper Z-serinate (I) in an amount of 0.1-1.0 mg / l, followed by growing microalgae in the accumulative mode. in light and mixing conditions.

An example of a specific implementation method.

In flasks with a volume of 0.25 l with Zarruk or Gromov mineral nutrient medium, spirulina blue-green microalga is inoculated with an inert amount of 0.36-0.40 g / l of absolutely dry matter and different concentrations of copper serinate. The cultivation is carried out under constant illumination. (9-15 thousand erg cm s), periodic stirring on a magnetic stirrer. The temperature is maintained within 35 ± 2 ° C. The productivity of spirulina is determined photocolorimetrically by the change in the optical density of the suspension of microalgae, followed by recalculation to absolutely dry biomass (ASB).

The results of the studies are shown in the table.

Comparative analysis of the results shown in the table shows that

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Copper (II) serinate at a concentration of 0.1-1.0 mg / l has a stimulating effect on the growth and productivity of spirulina. Thus, on the 5th day of cultivation, the productivity of spirulina in experiments using Cu (L-5eff in concentrations of 0.1-1.0 mg / l exceeds the productivity of microalgae using Cu2 () H (Zeg) by 10-18%.

It can be concluded that the complex compound copper-g-copper-II-serinate can be used as a growth stimulator of the blue-green microalga spirulina.

Claims (1)

Invention Formula 0 A method for cultivating spirulina, which includes sowing an inoculum into a mineral medium containing a complex compound of copper with amino acids, and then growing microalgae in a cumulative mode under light and stirring conditions, characterized in that, in order to increase the biomass yield, as a complex compound of copper with Copper (II) Z-serine in an amount of 0.1-1.0 mg / l is used with amino acids. The dynamics of the accumulation of biomass spirulnna (g / l dry travel) when it is cultivated tea mineral nutrient medium in the presence of different concentrations of 2-hornet (II), as well as gchiiinato-2-serinat honey (II) 1.0 0.38 0.55,006 0.8110.009 1, SHO, 014 1.5210.030 1,73tO, 026