Synthesis, characterization and investigation of algal oxidative effects of water-soluble copper phthalocyanine containing sulfonate groups.

In this study, the chemical and algicidal properties of the newly synthesized compound (2) were evaluated and its algal oxidative effects were determined in Arthrospira platensis and Chlorella vulgaris. First, we have reported on the synthesis and characterization of highly water-soluble copper (II) phthalocyanine (2), containing sodium 2-mercaptoethanesulfonate (2) substituents at the peripheral positions. Some spectroscopic techniques were used to characterize the new synthesized compound (2). In terms of biological properties, C. vulgaris were more tolerance to compound (2) than A. platensis depending to growth parameters. When SOD (Superoxide dismutase) activity significantly increased at 0.25 ppb and 1.5 ppb concentrations in A. platensis cultures, it increased at 6 ppb concentration in C. vulgaris cultures. GR (Glutathione reductase) activity decreased at 1 ppb and 1.5 ppb concentrations while APX (Ascorbate peroxidase) activity did not show a significant change at any concentrations in A. platensis cultures. GR activity showed a significant increase at 6 ppb concentration, while APX activity increased at all concentrations compared to control in C. vulgaris cultures. MDA (malondialdehyde) and H2O2 content decreased at 1 and 1.5 ppb concentrations but there were significant increases in the proline content at all concentrations compared to the control in A. platensis. MDA, H2O2 and free proline contents showed a significant increase at 0.5 ppb concentration in C. vulgaris. In conclusion, compound (2) have algicidal effects, and also it causes to oxidative stress in these organisms.

Local factors or altitudinal gradient: which one is effective on diatom communities and ecological status in the 23 lentic systems of the Sakarya Basin (Türkiye)?

In the 23 lentic systems of the Sakarya Basin, littoral diatoms and environmental variables were assessed with the samples collected in the spring, summer, and fall of 2018 to determine the effect of altitude or local factors on diatom assemblages. A total of 210 diatom taxa in 63 genera were identified during the studied period. Both the distribution of indicator species and the species composition were affected by pH, electrical conductivity, alkalinity, total organic carbon, total nitrogen, and total phosphorus. Especially low alkalinity was found to be effective in the distribution of high-altitude optima species. Close geographical location was also important in shaping species composition. Although the species richness and diversity of lentic systems on > 1600 m a.s.l. were higher than those in lower altitudes, pH and total phosphorus were the determinant factors. On the other hand, altitude indirectly affected all these factors by causing habitat diversity. The Leclercq and Maquet Diatomic Index showed a higher correlation with total nitrogen, total organic carbon, and total phosphorus. This index was more effective in determining the ecological status of 23 lentic systems. Altitude has also an indirect effect on the ecological status of these systems by restricting anthropogenic pressure such as total phosphorus.