Affiliation:
1. National University of Life and Environmental Sciences of Ukraine
2. Ternopil National Pedagogical University named after V. Hnatyuk
Abstract
The growth of man-caused load on natural objects, including surface waters, gave impetus to the studying for issue of water pollution in Ukraine by various pollutants. Especially relevant for us are the studies of fishery reservoirs as a direct environment for growing quality aquaculture products. Among the toxic compounds contained in reservoirs, one of the first places is occupied by heavy metals. On the one hand, heavy metals, as pollutants in natural waters, pose a great danger because even in relatively small concentrations they can adversely affect aquatic organisms. On the other hand, in microquantities most heavy metals (except mercury, cadmium and lead) are a natural and even essential component of living cells of aquatic organisms, including fish [17,19].Zn, Mn, Fe, Cu, Pb, Co, Ni, Cd in the organs and tissues of the bighead carphybrid form, which was cultivated in ponds from highly urbanized territory, are distributed heterogeneously and their level of content depends not only on the physical and chemical characteristics of the aquatic environment or this heavy metals biochemical activities force in fish organisms, but also on functional features of concrete organs and tissues of the latter. Results of our investigations showed that above mentioned heavy metals were characterised by high levels of content in the organs and tissues of hybrid silver x bigheadcarp. Highest content in organism of hybrid are lead, cobalt, and cadmium. Highest concentration of heavy metals in our investigations was recorded in gills, because it is the first defence line of fish organism from environmental pollutants.
Publisher
AOA Academic Open Access Ltd.
Reference20 articles.
1. All Union State Standard 26929-94. Syrye i produkty pishchevyye. Podgotovka prob. Mineralizatsiya dlya opredeleniya soderzhaniya toksichnikh elementov [Raw materials and food products. Sample preparation. Mineralization to determine the content of toxic elements; Interstate Council for Standardization. metrology and certification]. Minsk: Mezhgosudarstvennyy sovet po standartizatsii. metrologii i sertifikatsii (in Russian).
2. All Union State Standard 30178–96. Syrye i produkty pishchevyye. Atomno-absorbtsionnyy metod opredeleniya toksichnikh elementov [Raw materials and food products. Atomic absorption method for the determination of toxic elements]. Moskva: Standardinform (in Russian).
3. Askary, Sary A., & Mohammadi, M. (2012). Lead bioaccumulation and toxicity in tissue of economically fish species from river and marine water. Environmental Contamination Toxicology, 89, 82-85.
4. Bols, N. C., Brubacher, J. L. & Ganassin, R. C. (2001). Ecotoxicology and innante immunity in fish. Develompental and Comparative Immunology, 25, 853-873.
5. Burdina, N. F. (2019). Analysis of features of accumulation and distribution of heavy metals in the body of fish (literature review). Young scientist, 40 (278), 183-185.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献