Among the analyzed water parameters only a few Natural Product Library physical and chemical
characteristics differentiate the two types of habitats and can definitely affect the character of local communities of beetles. The highest statistically Veliparib significant differences between the two types of anthropogenic ponds were attributed to electrolytic conductivity, which is an approximate indicator of the amount of dissolved minerals. The EC was much higher in clay than in gravel pits; this difference was supported by higher anion concentration (HCO3 −, SO4 2− and Cl–) in agreement with other clay pits (Corbet et al. 1980; Jenkin 1982; Lewin and Smolinski 2006). The electrolytic conductivity and content of minerals were the two factors that distinctly differentiated the waters of the two types of studied pits. These factors may be of great significance to locally occurring beetle fauna. Correlations between the density of various organisms versus water conductivity and concentration of ions have also been implied by Savage and Gazey (1987), as well as Jurkiewicz-Karnkowska (2011). Nonetheless, it seems that
differences in the degree of macrophyte prevalence selleck chemical still have a greater impact on the nature of aquatic beetle clusters in the studied ponds—which is expressed in the mean values of species richness (number of species—N), mean values of the Shannon–Weaver index (H′) and mean number (N) of beetles. The importance of succession stages in the formation of beetle fauna in artificial water bodies is noted by, among others, Barness (1983) and Pakulnicka (2008). With all certainty, the development stage of macrophytes in the studied ponds is definitely a factor related to physical and chemical water parameters. The PCA results show that both the abundance and species richness or biodiversity of the beetles in the examined clay pits are correlated with water temperature, but also, with NH4-N, total N and BOD5. Values of these parameters typically change as a pond matures, which is
associated with the degree of development and differentiation of emergent vegetation, providing habitats to various species of Tyrosine-protein kinase BLK beetles, and with the rate of primary production and decomposition of organic matter. The influence of these factors proved to be more significant than the expected effect of conductivity or concentration of ions. Similar conclusions have been drawn by Lewin and Smoliński (2006), who found statistically significant correlation between the number of species of mollusks and water alkalinity but not with its conductivity. With respect to the influence of the analyzed physical and chemical parameters of pond water on the presence of specific beetle species, noteworthy is correlation of the thermophilous species S. halensis with conductivity, concentrations of ions HCO3 −, SO4 2− and temperature.