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Abstrakty
The aim of the study was to evaluate and compare changes in the selected haematological parameters of rainbow trout after long-term (14 days) exposure to sublethal concentrations of two kinds of contaminants: 1) highway traffic emission pollutants (model mixture of heavy metals) and 2) road maintenance salt. Four groups of fish exposed to sublethal concentrations of model mixture metal solutions demonstrated an increased frequency of abnormal erythrocytes and elevated percentage of neutrophiles. The percentage of juvenile and abnormal erythrocytes was significantly increased in the blood of fish exposed to sublethal concentrations of road maintenance salt solutions. Our data confirm that even low amounts of metals found in soil near roadsides and road maintenance salt can induce adverse effects on fish. Morphological analysis of erythrocytes seems to be a reliable tool for detection of toxic effects upon fish.
Czasopismo
Rocznik
Tom
Strony
95--104
Opis fizyczny
Bibliogr. 23 poz.
Twórcy
autor
autor
autor
- Institute of Ecology of Vilnius University, Akademijos 2, LT-08412, Vilnius, Lithuani
Bibliografia
- [1] POSZYLER-ADAMSKA A., CZERNIAK A., Biological and chemical indication of roadside ecotone zones, J. Environ. Engineer. Landscape Management, 2007, 15(2), 113a–118a.
- [2] RODRIGUEZ-FLORES M., RODRIGUEZ-CASTELLON E., Lead and cadmium levels in soil land plants near highways and their correlation with traffic intensity, Environ. Pol., 1982, 4, 281–290.
- [3] MADHAVAKRISHNAN S., SATHISHKUMAR M., BINUPRIYA A.R., CHOI J.G., JAYABALAN R., MANICKAVASAGAM K., PATTABI S., Ricinus communis pericarp activated carbon as an adsorbent for the removal of Pb(II) from aqueous solution and industrial wastewater, Environment Protection Engineering, 2010, 36(1), 83–94.
- [4] NORRSTROM A.C., JACKS G., Concentration and fractionation of heavy metals in roadside soils receiving deicing salts, Sci. Total Environ., 1998, 218, 161–174.
- [5] THUNQVIST E.L., Regional increase of mean chloride concentration in water due to the application of deicing salt, Sci. Total Environ., 2004, 325, 29–37.
- [6] BALTRENAS P., KAZLAUSKIENE A., ZAVECKYTEĖ J., Experimental investigation into toxic impact of road maintenance salt on grass vegetation, J. Environ. Engineer. Landscape Management, 2006, 14, 83–88.
- [7] OŠKINIS V., KASPEROVIČIUS T., Impact of road maintenance salts on water ecosystems according to diatom flora investigation, J. Environ. Engineer. Landscape Management, 2005, 13, 51–55.
- [8] JEZIERSKA B., WITESKA M., Metal toxicity to fish, Reviews in Fish Biology and Fisheries, 2001, 11(3), 279–279.
- [9] VOSYLIENĖ M.Z., KAZLAUSKIENĖ N., SVECEVIČIUS G., Effect of heavy metal model mixture on biological parameters of rainbow trout Oncorhynchus mykiss, Environ. Sci. & Pollut. Res., 2003, 10, 103–107.
- [10] BRUCKA-JASTRZEBSKA E., PROTASOWIECKI M., Effects of cadmium and nickel exposure on haematological parameters of common carp, Cyprinus carpio, L. Acta Ichthyol. Piscat., 2005, 35, 29–38.
- [11] VOSYLIENĖ M.Z., The effect of heavy metals on haematological indices of fish, Acta Zoologica Lituanica, Hydrobiologia, 1999, 9, 76–82.
- [12] VOSYLIENĖ M.Z., JANKAITĖ A., Effect of heavy metal model mixture on rainbow trout biological parameters, Ekologija, 2006, 4, 12–17.
- [13] VOSYLIENĖ M.Z., BALTRĖNAS P., KAZLAUSKIENĖ A., Toxicity of road maintenance salts to rainbow trout Oncorhynchus mykiss, Ekologija, 2006, 2, 15–20.
- [14] SVOBODOVA Z., VYKUSOVA B., Diagnostics, prevention and therapy of fish diseases and intoxications, Research Institute of Fish Culture and Hydrobiology, Vodnany, Czechoslovakia, 1991.
- [15] MARSALEK J., Road salts in urban stormwater: an emerging issue in stormwater management in cold climate, Water Sci. Technol., 2003, 48(9), 61–70.
- [16] U.S. Environmental Protection Agency, 1999, Biological assessment of the Idaho water quality standards for numeric water quality criteria for toxic pollutants, U.S. EPA, Region 10, Seattle Wa. Kootenai River Tributaries, Appendix C 3, 4–9.
- [17] GABRYELAK T., AKAHORI A., PRZYBYLSKA M., JÓZWIAK Z., BRICHON G., Carp erythrocyte lipids as a potential target for the toxic action of zinc ions, Toxicol. Letters, 2002, 132, 57–64.
- [18] SNYDER C.A., VALEE C., Lymphocyte proliferation assays as potential biomarkers of toxicant exposures, J. Toxicol. Environ. Health, 1991, 34, 120–139.
- [19] CHEBOTAREVA J.V., IZIUMOV J.G., TALIKINA M.G., Some peculiarities of blood picture of Rutilus rutilus after the exposure of broodstock sperm to toxicants, Voprosy Ikhtiologii, 2003, 43, 711–715 (in Russian).
- [20] GHANMI Z., ROUABHIA M., ALIFUDDIN M., TROUTAUD D., DESCHAUX P., Modulatory effect of metal ions on the immune response of fish: in vivo and in vitro influence of MnCl2 on NK activity of carp pronephros cells, Ecotoxicol. Environ. Saf., 1990, 20, 241–245.
- [21] BOWSER D.H., FRENKEL K., ZELIKOFF J.T., Effects of in vitro nickel exposure on the macrophagemediated immune functions of rainbow trout (Oncorhynchus mykiss), Bull Environ. Contamin. Toxicol., 1994, 52, 367–373.
- [22] OLANIKE KUDIRAT ADEYEMO, Haematological profile of Clarias garlepinus (Burchell, 1822) exposed to lead, Turkish Journal of Fisheries and Aquatic Sciences, 2007, 7, 163–169.
- [23] EVANS D.H., The Physiology of Fishes, CRC Press, New York, USA, 1997.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW8-0013-0055