Bioenergy products sequestration proportions among three mixotrophically cultivated microalgae by remediating two organic waste resources.

Abstract

In this study, three microalgae species were cultivated using dairy and fish wastewater: Haematococcus pluvialis, Coelastrella saipanensis, and Chlorella sp. The process involved manipulating various physicochemical conditions, to determine optimal growth parameters. Our evaluation considered cell count, biomass productivity, specific growth rate, pigments, carbohydrates, proteins, lipid compositions, and cellulose stored in microalgae. A significant observation of highest cellulose accumulation was recorded in C. saipanensis cultivated in dairy waste (DW) medium (2.54 ± 0.042 µg/mg). In contrast, the species grown in fish waste (FW) media recorded a lower level (0.9405 ± 0.06 µg/mg) of cellulose. In DW, H. pluvialis and C. saipanensis accumulated substantial amounts of astaxanthin and carotenoid, respectively. Carbohydrate, protein, and lipid accumulation was maximized in DW culture, with H. pluvialis exhibiting a more incredible carbohydrate content. Lipid analysis showed as Chlorella sp. was capable of accumulating alpha-linolenic acid. The disparity may be attributed to DW's nutritional and mineral content, which encourages cellulose deposition. The FTIR analysis confirmed the accumulation of cellulose. These findings underscore the potential of DW and FW media as valuable resources for microalgal biofuel and ethanol production, offering a hopeful future for sustainable energy production.