Ust-Kamenogorsk is one of the largest cities and industrial centers in Kazakhstan. Non-ferrous metallurgy (Zn–Pb smelter) has acted as a predominating industrial branch in the city since late 1940s. The industrial plants are situated directly adjacent to the residential area of the city which creates grievous ecotoxicological hazard. In the present paper, we aimed at assessing the trace metal pollution of top soils in Ust-Kamenogorsk and its potential threats to the local population. The top soils were sampled at 10 sites throughout the city center. We determined the physical and chemical properties of soils as well as the contents of Cd, Cu, Pb, and Zn. In addition, the soil samples were subjected to a five-step sequential extraction to ascertain the fractionation of trace metals. On this basis, we calculated the geoaccumulation index (Igeo) and pollution load index (PLI) and assessed bioavailability of the elements. From our data, it emerged that the soils displayed a strong polymetallic pollution. PLI was as high as 33.4. Throughout the city, the trace metal contents exceeded the geochemical background and allowable values for residential, recreational, and institutional areas. The Igeo obtained were 3.7–6.5 for Cd, 1.5–4.7 for Cu, 2.8–5.7 for Pb, and 2.6–4.6 for Zn. The soils in Ust-Kamenogorsk displayed extremely high contamination with Cd, moderate to strong contamination with Pb and Zn, and low to moderate contamination with Cu. Cd and Pb were found to be the most bioavailable elements. The mobility of trace metals in the soils changed in the order Cd > Pb > Zn > Cu.
This article discusses two cases of so-called double barrows from the Middle Bronze Age Komar ow culture cemetery in Bukivna, in the Upper Dniester Basin (Ukraine), in order to demonstrate the potential of incorporating geophysical image analysis, excavations and sedimentological studies towards identifying subterranean funerary architecture. The magnetometer prospection of the Bukivna necropolis revealed the presence of a specific dipolar anomaly within the extent of a double barrow. The excavations uncovered burnt wooden-clay constructions related to mortuary houses.The sedimentological samples collected from the features below the mound provided data for the increased ferrous content. Another double barrow located in the Pidhoroddia cemetery was prospected by means of magnetometry, which did not reveal any similar anomaly within the magnetometry plan, thus providing evidence for a possible lack of discussed mortuary structure.
The aim of this paper was to evaluate the link between environmental conditions and the vegetation pattern of mountain peatlands drained for forestry. We assumed that (a) water chemistry and soil properties differ between the investigated peatlands types—from fen to bog, (b) the vegetation pattern is dependent on water chemistry and soil properties, and (c) water chemistry and soil properties play different roles in determining peatland patterning. For our study, five ecologically and topographically diverse forestry‐drained shallow peatlands in Central Sudetes, Poland, were selected. A comparison between the studied peatlands and environmental variables was done by discriminant analysis, whereas vegetation–environmental relationship was analysed by canonical correspondence analysis. Results demonstrated that pH, HCO3−, NO3−, and Ca2+ best explained the variation in water chemistry (approximately 74%), whereas base saturation, pHwater, and plant‐available phosphorus best explained the variation in soil properties. Plant assemblages within the peatlands exhibited three vegetation clusters that did not always correspond to peatland ecological type. The vegetation was mostly affected by water chemistry (explained up to 54% of variation), rather than by soil properties. Vegetation within such ecosystems seems to be a good indicator of differences in water chemistry, caused by differences in bedrock (soligenic fen peatlands) or atmospheric inputs (ombrogenic bogs). Our results will help improve our understanding of vegetation–environment relationships in degraded mountain peatland ecosystems in the temperate climate zone. They might also be useful for proper planning of restoration and monitoring of these ecosystems.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.