Abstrakt: |
There are several factors were taken in consideration such as time, ratio, temperature and pH to improve the chelation process between the amino acids and inorganic ions. The current study aims to optimize the physical factors controlling the synthesis of chelated amino acids with different minerals and to enhance antioxidant and biodiesel production from Arthrospira platensis cultivated in culture enriched with different chelated minerals. In this study; various physical factors such as (ratio of amino acids and minerals; temperature, time and pH) were used for optimization of chelation formation. The blue -green alga Arthrospira platensis was cultivated under different synthesized chelated minerals (T1-T13), the growth rate, antioxidant, antiradical and biodiesel production were determined in all treated alga. The obtained results showed that the optimum conditions for production of chelated amino acid were ratio (2:1 M), temperature at 60 °C, the duration between 4:5 days and the suitable or stability of chelation at pH = 4, Also, the growth rate of A. platensis with Cu-glycinate higher than Cu-leather waste and Zarrouk media. The antioxidant activity results of different extracts of Arthrospira platensis showed that the water extract gave high antioxidant activity against DPPH radical assay than acetone extract in all treatments when compared with untreated culture (Zarrouk's medium). Arthrospira platensis cultivated on Zarrouk medium supplemented with chelated amino acids with metals was showed an increase in algal pigments and lipids with Mn-LW, Zn-LW and Mg-LW treatments. Also, the results showed that the produced biodiesel was observed with M-LW treatments, which was more than that of glycinate treatments, untreated culture (Zarrouk) and LW biodiesel. Therefore, the highest biodiesel percentages were founded with Zn, Mn and Mg-LW (5.37, 5.25 and 4.86% respectively). The recorded results and material balance data concluded that possibility for use the chelated minerals (glycine and leather wastes) as plant fertilizer in future because its high yield and low fees for production. [ABSTRACT FROM AUTHOR] |