Assessment of the SnO2 nanoparticles’ impact on the growth of Picochlorum maculatum algae

To determine the effect of SnO2 nanoparticles on Picochlorum maculatum - isolated from Qatar marine environment, algal growth media is amended with different nanoparticles concentrations (1, 5, 25, 50, and 100 mg/L) and the culture was followed for 72 h. Algal growth, morphology, photosynthetic pigments and the potential for producing highly valuable bio compounds (including pigments, lipids, carbohydrates, etc.) is investigated. The data obtained show that the SnO2 nanoparticles has a toxicity effect on the algae growth, with lower doses presenting more negative impacts than higher doses. The results of SEM observations highlight that the slow growth observed at 1-5 mg/L is triggered by the attachment of SnO2 nanoparticles to algal cells which caused dramatic damage to the cell morphology, cell shape, and size. However, at high concentrations of SnO2 (50-100 mg/L), agglomeration of nanoparticles around the cells lead to a reduced effect on cell morphology and appearance. This data is supported by the energy dispersive x-ray spectroscopy (EDX) analysis of the cells after exposure to SnO2. Moreover, the effects of nanoparticles on algae composition is dose specific. Lipids and carbohydrates are stimulated by the decrease in nanoparticle concentrations, while an inhibition in protein production is observed. Besides, the presence of SnO2 at low concentrations stimulates the synthesis of protective molecules such as carotenoids. Hence, exposure to SnO2 nanoparticles can be one of the methods to induce the synthesis of highly valuable products in the local microalgae, which can be used for many applications in different industries.

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