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EN
This study aimed to assess the ecological and human health risks of heavy metals (Cd, Cr, Cu, Ni, Pb, and Zn) in the bottom sediments of the Pławniowice reservoir, which is located in the Silesian Voivodeship, one of the most polluted regions in Poland. Sediment samples were collected at 5 sampling points located along the main axis of the reservoir. The concentrations of heavy metals were determined using Avio 200 ICP-OES atomic absorption spectrometer (PerkinElmer Inc.). The geochemical quality classification, Geoaccumulation Index (Igeo), Ecotoxicological criteria, and Potential Ecological Risk Factor (ER) were used for the assessment of the ecological risk, while for the human health risks, the Hazard Quotient (HQ), Hazard Index (HI), Carcinogenic Risk (CR) and Total Carcinogenic Risk (TCR). The results of the ecological risk analysis indicated that among the studied metals, only Cd may pose a potential hazard to the fauna and flora of the reservoir. The results of the health risks assessment indicated that the primary exposure pathway for adults and children can be accidental ingestion of polluted sediments. In both cases, children are far more exposed to the health effects. Although the studied metals did not pose a direct threat to human health, due to the values of CRs and TCRs to Cd, Cr and Ni it is recommended to take appropriate steps to reduce the concentrations of these heavy metals in the bottom sediments by their periodical removal.
PL
Celem pracy jest ocena ryzyka ekologicznego i zdrowotnego związanego z obecnością metali ciężkich (Cd, Cr, Cu, Ni, Pb i Zn) w osadach dennych zbiornika Pławniowice, który znajduje się w województwie śląskim, jednym z najbardziej zanieczyszczonych regionów w kraju. Próbki do badań pobierano w pięciu punktach rozmieszczonych wzdłuż głównej osi zbiornika. Stężenia metali ciężkich oznaczano przy użyciu spektrometru absorpcji atomowej Avio 200 ICP-OES (PerkinElmer Inc.). Do oceny ryzyka ekologicznego wykorzystano geochemiczne klasy czystości osadów, Geoaccumulation Index (Igeo), Ecotoxicological criteria oraz Potential Ecological Risk Factor (ER), z kolei do oceny ryzyka zdrowotnego użyto Hazard Quotient (HQ), Hazard Index (HI), Cancirogenic Risk (CR) oraz Total Carcinogenic Risk (TCR). Wyniki analizy ryzyka ekologicznego wskazują, że spośród badanych metali tylko Cd może stanowić potencjalne zagrożenie dla fauny i flory zbiornika. Ocena ryzyka zdrowotnego wykazała, że główną drogą narażenia dla dorosłych i dzieci może być przypadkowe połknięcie zanieczyszczonych osadów. Ponadto w obu przypadkach dzieci są bardziej narażone na skutki zdrowotne. Pomimo że analizowane metale nie stwarzały bezpośredniego zagrożenia dla zdrowia człowieka, to ze względu na wartości indeksów CR i TCR, w odniesieniu do Cd, Cr i Ni, zaleca się podjęcie odpowiednich działań w celu zmniejszenia stężeń tych metali ciężkich w osadach dennych poprzez ich okresowe usuwanie.
EN
The purpose of the research is to summarise quantitative characteristics and to analyse the spatial distribution of artificial water bodies as anthropogenic fragmentation elements of medium and small rivers within the Dnipropetrovsk Region, Ukraine. The paper uses current data pertaining to existing reservoirs and mineralisation of water in rivers. Comparison included quantitative characteristics, water surface area, and the volume water in ponds and reservoirs. It has been established that although the total ratio was 97% for ponds to 3% for reservoirs, whereas their water surface area 48%, and the volume of water stored only 23% of the total resources. The paper shows the inexpediency and low efficiency of using ponds as water reservoirs feeding small rivers. Increasing the number of ponds in the river basin has a negative impact on the quality of water resources, in particular, by increasing water mineralisation - total dissolved solids (TDS). Depending on the river, the following indicator of river basin fragmentation has been determined: 6-20 reservoirs per 100 km2 of the river catchment area, and on average 18-36 ponds and reservoirs are built for every 100 km of the river in relation to the length of the hydrographic network. It has shown the regularity of growing water mineralisation due to the fragmentation of rivers by a large number of artificial reservoirs. A strong correlation between regulation and fragmentation of river basins has been established (coefficient of determination R2 ranges from 0.72 to 0.91). It proves the possibility to estimate the degree of change (increase) of water mineralisation based on the water flow coefficient Kw and the river fragmentation coefficient Ksfr in the Dnipropetrovsk Region. The paper offers ways of further research for planning and implementation of a water management strategy concerning ecologically safe levels of water use in small and medium-sized river basins.
EN
The Pakoski reservoir .was created in 1975 as a result of damming the lakes located within the Western Valley of the Noteć River. This reservoir operates in rearly cycles with water level fluctuations of up to 3.6 m. The researches carried off by the author in the years 1998-2003 indicate that the thirty-year exploitation period has not ended the intense reshaping phase of the shore zone of the reservoir. Both intensive shore abrasion and various accumulative forms support the above statement. These forms include the small ones of distinctively initial character, such as accumulative spurs or berms, as well as the complex ones whose shaping process has almost finished and the area of which exceeds a few hundred square metres. Due to constant lowering of the water level, accumulative forms occur within the entire width of the shore-platform which is being dried. In most cases these are whole groups of smaller forms related to one another. A beach can constitute a good example, as it predominantly combines a few, most often 5 to 6, adjoining beach ridges separated with small lagoons.
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