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Biomonitoring of surface water by synchronous culture of Chlorella vulgaris algae

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A possible use of synchronous culture of Chlorella vulgaris algae has been examined as a shortterm bioassay for water quality control. Experiments were performed with algae cultivated in liquid media prepared with distilled water (control) and with water aliquots sampled from the Goczałkowice Reservoir. It has been demonstrated that changes in the absorbance (at 680 nm) of algae liquid synchronous culture and the rate of algae cellular division may be useful as criteria for water quality control. Changes in the algae metabolic activity are clearly a sign of the July flood and autumnal water quality changes.
Rocznik
Strony
29--40
Opis fizyczny
Bibliogr. 25 poz., tab., rys.
Twórcy
  • Institute of Water Supply and Environment Protection, Cracow University of Technology, ul. Warszawska 24, 31-155 Cracow, Poland
autor
  • School of Pharmacy with the Division of Laboratory Medicine in Sosnowiec, Medical University of Silesia, Department of Biochemistry, Jedności 8, 41-200 Sosnowiec, Poland
Bibliografia
  • [1] WATERS M.D., SANDHU S.S., Preface, Proc. 2nd Symposium on the application of short-term bioassays in the fractionation and analysis of complex environmental mixtures, U.S. Environmental Protection Agency, 4–7 March 1980, North Carolina, 4–5.
  • [2] OECD Guideline 201. Freshwater alga and cyanobacteria, growth inhibition test, Organization for Economic Co-operation and Development, Paris, France, 2006.
  • [3] EATON A.D., CLESCERI L.S., RICE E.W., GREENBERG A.E., Standard methods for the examination of water and wastewater, American Public Health Association, Washington 2005.
  • [4] CUKURLUOGLU S., MUEZZINOGLU A., Assessment of toxicity in waters due to heavy metals derived from atmospheric deposition using Vibrio fischeri, J. Environ. Sci. Health., Tox. Hazard Subst. Environ. Eng., 2013, 48 (1), 57.
  • [5] LATIF M., LICEK E., Toxicity assessment of wastewaters, river waters, and sediments in Austria using cost-effective microbiotests, Environ. Toxicol., 2004, 19 (4), 302.
  • [6] MALARA A., OLESZCZUK P., Application of a battery of biotests for the determination of leachate toxicity to bacteria and invertebrates from sewage sludge-amended soil. Environ, Sci. Pollut. Res. Int., 2013, 20 (5), 3435.
  • [7] PARFINIEWICZ B., Evaluation of Cd(II) toxicity in the presence of Cu(II), Co(II) and Zn(II) in synchronous culture of algae Chlorella vulgaris Beijerinck 1890, strain A-8, Thesis, Medical University of Silesia, Sosnowiec 1998 (in Polish).
  • [8] WILCZOK A., MAZUREK U., TYRAWSKA D., SOSAK-ŚWIDERSKA B., Effect of cadmium on the cell division of Chlorella vulgaris Beijerinck 1890, strain A-8, Pol. Arch. Hydrobiol., 1994, 41 (1), 123.
  • [9] WILCZOK T., DWORZAŃSKI J., FARBISZEWSKA T., GOSS M., DZIERŻEWICZ Z., MAZUREK U., KRYSTEK M., RACZEK K., DĘBOWSKI M., SIMON I., Investigation of toxic organic pollutants in waters of Odra river and its basin, Forum Odrzańskie, Opole 1983, Zeszyty Odrzańskie Seria Nowa, 1984, 12, 54–71 (in Polish).
  • [10] LODOWSKA J., CZAPLICKA-KOTAS A., NOGAJ P., TAM I., WILCZOK A., CWALINA B., Synchronous culture of Chlorella vulgaris as biotest for quality of waste water from tannery, Proc. Int. Conf. Trace Elements: Effect on Organisms and Environment, 23–26 June 1998, Wyd. Naukowo- -Techniczne EcoEdycja, Katowice, Poland, 103–107.
  • [11] CZAPLICKA-KOTAS A., LODOWSKA J., WILCZOK A., ŚLUSARCZYK Z., Changes of photosynthetic pigments concentration in the synchronous culture of Chlorella vulgaris as an indicator of water quality in Goczałkowice Reservoir, Arch. Environ. Prot., 2009, 35 (1), 65.
  • [12] KÜHL A., LORENZEN H., The handling and culturing of Chlorella, [in:] D.M. Prescott (Ed.), Methods in Cell Physiology, Academic Press, New York 1964, 159–187.
  • [13] BORNS E., BOHM H., SCHULTZE D., Studies on the effect of different combinations of synchronous growth medium for culture of Chlorella vulgaris, Wiss. Hefte des Pedagog. Inst. Köthen, 1973, 2, 55 (in German).
  • [14] WILCZOK A., MAZUREK U., The role of water in size and shape characteristics of newly formed aplanospores of Chlorella vulgaris, Stud. Biophys., 1987, 122 (1–3), 237.
  • [15] MAZUREK U., Changes of C18 fatty acids content in phospholipides of synchronously cultured Chlorella vulgaris, Acta Biochim. Pol., 1993, 40 (1), 120.
  • [16] SKOWROŃSKI T., Influence of cadmium on unicellular algae, Post. Mikrobiol., 1988, 27 (1/2), 77 (in Polish).
  • [17] GRABOWSKI J., SCULLY P.P., EDWARDS R., EL SAADAWY S., LATOSIŃSKA M., Metal’s toxicity for microorganisms – investigations using method of fluorogenic substrate, Biotechnologia, 1997, 1 (36), 25 (in Polish).
  • [18] PRASAD M.N.V., Heavy metal stress in plants: from biomolecules to ecosystems, Springer-Verlag, Berlin 2004. 40 A. CZAPLICKA-KOTAS, J. LODOWSKA
  • [19] JANIKOWSKA G., WARDAS W., Bioconcentration of benzo(a)pyrene in Chlorella BB Cells, Pol. J. Environ. Stud., 2002, 11 (4), 345.
  • [20] BEDNARZ T., Upper Vistula River: response of aquatic communities to pollution and impoundment. VII. Bioassay studies of water trophic state with Chlorella pyrenoidosa growth test, Pol. J. Ecol., 2002, 50 (2), 191.
  • [21] CZAPLICKA-KOTAS A., CWALINA B., SZOSTAK A., NOGAJ P., ŚLUSARCZYK Z., Influence of flood on water quality in Goczałkowice Reservoir, Czasop. Techn., 2004, 8-Ś, 49–58 (in Polish).
  • [22] KVIDEROVA J., Rapid algal toxicity assay using variable chlorophyll fluorescence for Chlorella kessleri (Chlorophyta), Environ. Toxicol., 2009, 25 (6), 554.
  • [23] CHIU S.Y., KAO C.Y., CHEN C.H., KUAN T.C., ONG S.C., LIN C.S., Reduction of CO2 by a high- -density culture of Chlorella sp. in a semicontinuous photobioreactor, Bioresour. Technol., 2008, 99 (9), 3389.
  • [24] HSIEH C.H., WU W.T., Cultivation of microalgae for oil production with a cultivation strategy of urea limitation, Bioresour. Technol., 2009, 100 (17), 3921.
  • [25] GRIFFITHS M.J., GARCIN C., VAN HILLE R.P., HARRISON S.T., Interference by pigment in the estimation of microalgal biomass concentration by optical density, J. Microbiol. Methods., 2011, 85 (2), 119.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5a84e161-b674-460c-9102-fbfec67a1df7
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