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Assessment of the physiological condition of Salvinia natans L. exposed to copper (II) ions

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Salvinia natans L. is a known bioaccumulator of metal ions from the aquatic environment. Exposure of plants to prolonged impact of toxins along with a large dose of the metal affects the physiological condition of the plants. The changes occurring in the plants in the phytoremediation process in contaminated medium culture of 5, 10, 15 and 20 mg Cu/dm3 show two basic physiological parameters: the assimilation pigment content (chlorophyll a and b) responsible for the production of energy in the process of photosynthesis, and the total protein level as the main constituent of the plant. Conducted studies confirmed a negative effect of high concentrations of copper(II) on Salvinia natans L. plants which in these conditions are capable to bioaccumulate metal from each contaminated culture medium.
Rocznik
Strony
147--158
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
  • Faculty of Environmental Engineering, Wrocław University of Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław
  • Faculty of Environmental Engineering, Wrocław University of Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław
Bibliografia
  • [1] BARANOWSKA-MOREK A., Plant mechanisms of tolerance to the toxic effects of heavy metals, Kosmos. Problemy Nauk Biologicznych, 2003, 52 (2–3), 283 (in Polish).
  • [2] HOŁTRA A., ZAMORSKA-WOJDYŁA D., The bioaccumulation capacities of copper(II) ions in Salvinia natans, Environ. Protect. Eng., 2014, 40 (4), 41.
  • [3] AL-HAMDANI S.H., BLAIR S.L, Influence of copper on selected physiological responses in Salvinia minima and its potential use in copper remediation, Am. Fern. J., 2004, 94 (1), 47.
  • [4] ELANKUMARAN R., MOHAN R.B., MADHYASTHA M.N., Biosorption of copper from contaminated water by Hydrilla verticillata Casp. and Salvinia sp., 2003, http://www.ecoweb.com/editorial/030717.html
  • [5] SEMSARI S., AIT AMAR H., BADANI Z., BENAYAD B., Study of the inhibition of certain trophic levels by the presence of metal cations in water, Desalination, 2002, 150, 177.
  • [6] SEN A.K., MONDAL N.G., Removal and uptake of copper(II) by Salvinia natans from wastewater, Water, Air, Soil Poll., 1990, 49, 1.
  • [7] PRASAD M.N.V., Aquatic plants for phytotechnology, [in:] S.N. Singh, R.D. Tripathi (Eds.), Environmental Bioremediation Technologies, Springer, Berlin 2007, 259.
  • [8] HOŁTRA A., ZAMORSKA-WOJDYŁA D., Use of Lemna sp. and Salvinia natans in bioremediation of aquatic environment contaminated with metals, [in:] T.M. Traczewska, B. Hanus-Lorenz (Eds.), Hydrobiology in Environment Protection, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław 2013, 55.
  • [9] HOŁTRA A., ZAMORSKA-WOJDYŁA D., TRACZEWSKA T., The influence of mercury on Salvinia natans, [in:] T.M. Traczewska, B. Hanus-Lorenz (Eds.), Hydrobiology in Environment Protection, Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław 2013, 47.
  • [10] HOŁTRA A., TRACZEWSKA T., SITARSKA M.E., ZAMORSKA-WOJDYŁA D., Phytoremediation of contaminated aquatic environment in the context of sustainable ecosystem development, Probl. Ekorozw., 2011, 6 (1) suppl., 191.
  • [11] HOŁTRA A., TRACZEWSKA T., SITARSKA M.E., ZAMORSKA-WOJDYŁA D., Assessment of the phytoremediation efficacy of born-contaminated waters by Salvinia natans, Environ. Prot. Eng., 2010, 36 (4), 87.
  • [12] HOŁTRA A., TRACZEWSKA T., SITARSKA M.E., ZAMORSKA-WOJDYŁA D., Phytoremediation of contaminated aquatic environments by the species of Salviniaceae, [in:] Ż. Bargańska (Ed.), Proceedings of 15th International Conference on Heavy Metals in the Environment, Gdańsk 2010, 541.
  • [13] AL-HAMDANI S.H., BLAIR S.L., Influence of copper on selected physiological responses in Salvinia minima and its potential use in copper removal, Am. Fern J., 2004, 94, 47.
  • [14] BIZZO A.L.T., INTORNE A.C., GOMES P.H., SUZUKI M.S., ESTEVES B., Short-term physiological responses to copper stress in Salvinia auriculata Aubl., Acta Limnol., 2014, 26 (3), 268.
  • [15] HEGAZY A.K., KABIEL H.F., FAWZY M., Duckweed as heavy metal accumulator and pollution indicator in industrial wastewater ponds, Desalin. Water Treat., 2009, 12, 400.
  • [16] DHIR B., SHARMILA P., SARADHI P.P., SHARMA S., KUMAR R., MEHTA D., Heavy metal induced physiological alterations in Salvinia natans, Ecotoxicol. Environ. Saf., 2011, 74, 1678.
  • [17] BUTA E., TÖRÖK Á., CSOG A., ZONGO B., CANTOR M., BUTA M., MAJDIK C., Comparative studies of the phytoextraction capacity of five aquatic plants in heavy metal contaminated water, Not. Bot. Horti Agrobo., 2014, 42 (1), 173.
  • [18] HOAGLAND D.R., ARNOLD D.J., The water culture method of growing plants without soil, Cailf. Agric. Expt. Stn. Cir., 1950, 347, 1.
  • [19] PN-86/C-05560/02 (Polish standard), Water and sewage. The research chlorophyll content in surface waters. Determination of chlorophyll alpha content in the planktonic algae using spectrophotometric method with corrected for feopigmenty alpha (in Polish).
  • [20] LOWRY O.H., ROSEBROUGH N.J., FARR A.L., RANDAL R.J., Protein measurement with the folin phenol reagent, Biol. Chem., 1951, 193, 265.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-87f00502-6c68-4dea-9f6a-cd86c595d6d8
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