PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Powiadomienia systemowe
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
Tytuł artykułu

Phyto- and zooplankton in fishponds contaminated with heavy metal runoff from a lead-zinc mine

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This investigation focused on plankton inhabiting fishponds, which previously received mine waters from the lead-zinc mine ‘Matylda’, located in southern Poland (Upper Silesia). The purpose of the investigation was to study the effects of chronic and persistent contamination of fishpond bottom sediments with heavy metals originated from the lead and zinc mine. The phytoand zooplankton in the four fishponds were dominated by diatoms, green algae and rotifers. Plankton composition of the reference non-contaminated pond was different, since Chrysophytes dominated, and Copepoda were the most numerous among zooplankton. In the contaminated fishponds, we observed teratological forms, both for phyto-and zooplankton species, but only as individuals. Our results showed that planktonic communities had adapted to chronic and persistent heavy metal contamination.
Słowa kluczowe
Rocznik
Strony
77--85
Opis fizyczny
Bibliogr. 39 poz., tab., wykr.
Twórcy
autor
autor
autor
  • Institute of Nature Conservation, Polish Academy of Sciences, al. Mickiewicza 33, 31-120 Kraków, Poland, wilk@iop.krakow.pl
Bibliografia
  • 1.Aleksander-Kwaterczak U., Helios-Rybicka E., 2009, Contaminated sediments as a potential source of Zn, Pb, and Cd for a river system in the historical metalliferous ore mining and smelting industry area of South Poland, J. Soils & Sediments, 9:13-22
  • 2.Aleksander-Kwaterczak U., Ciszewski D., Szarek-Gwiazda E., Waloszek A., Kwandrans J., Wilk-Woźniak E., 2010, Wpływ historycznej działalności kopalni rud Zn-Pb w Chrzanowie na stan środowiska wodnego doliny Matyldy, Górnictwo i Geologia, 5:21-30, (in Polish)
  • 3.Balistrieri L.S., Seal II R.R., Piatak N.N., Paul B., 2007, Assessing the concentration, speciation, and toxicity of dissolved metals during mixing of acid-mine drainage and ambient river water downstream of the Elizabeth Copper Mine, Appl. Geochem., 22: 930-952
  • 4.Besser J.M., Brumbaugh W.G., May T.W., Schmitt C.J., 2007, Biomonitoring of lead, zinc, and cadmium in streams draining leadmining and non-mining areas, Southeast Missouri, USA, Environ. Monit. Assess., 129, 227-241
  • 5.Bielańska-Grajner I., Gładysz A., 2010, Plankotnic rotifers in mining lakes in the Silesian Upland: relationships to environmental parameters, Limnologica, 40: 67-72
  • 6.Burchardt L., Pawlik-Skowrońska B., 2005, Zakwity sinic - konkurencja międzygatunkowa i środowiskowe zagrożenie, Wiad. Bot., 49: 39-49 (in Polish)
  • 7.Celewicz-Gołdyn S., 2005, -Abundance of Dinobryon divergens Imhoff in the eutrophic lake Rosnowskie Duże in 2002-2003, Rocz. Akad. Rol. w Poznaniu, CCCLXXIII, Bot.-Stec. 9: 23-30
  • 8.Chapman P.M., 2007, Determining when contamination is pollution - weight of evidence determinations for sediments and effluents, Environ. Int., 33: 492-501
  • 9.Ciszewski D., 1998, Channel processes as a factor controlling accumulation of heavy metals in river bottom sediments: consequences for pollution monitoring (Upper Silesia, Poland), Environ. Geol., 36, 45-54
  • 10.Ciszewski D., 2004, Pollution of the Mała Panew River sediments by heavy metals: effect of changes in river bed morphology, Pol. J Environ. Stud., 13: 589-595
  • 11.Ciszewski D., Czajka A., Błażej S., 2008, Rapid migration of heavy metals and 137Cs in alluvial sediments of the Upper Odra River valley, Poland, Environ. Geol., 55: 1577-1586
  • 12.Ciszewski D., Aleksander-Kwaterczak U., Kubsik U., Kwandrans J., Pociecha A. et al., 2010, -Interdyscyplinarne badania skutków zanieczyszczenia wód i osadów stawów i cieków doliny Matyldy - próba klasyfikacji, In: Ludwikowska-Kędzia M., Zieliński A., (Ed.) Badania interdyscyplinarne - przeszłośĆ, teraźniejszośĆ, przyszłośĆ nauk przyrodniczych. Inst. Geog. UJK Kielce, 40-43 (in Polish)
  • 13.Clement B., Devaux A., Perrodin Y., Danjean M., Ghidini-Fatus M., 2004, Assessment of sediment ecotoxicity and genotoxicity in freshwater laboratory microcosms, Ecotoxicology, 13: 323-333
  • 14.Dziengo-Czaja M., Koss J., Matuszak A., 2008, Teratological forms of diatoms (Bacillariophyceae) as indicators of water pollution in the western part of Puck Bay (southern Balitic Sea), Ocean. Hydrob. Stud., 37: 119-132
  • 15.Förstner U., Wittman G.T., 1983, Metal Pollution in the Aquatic Environment, Springer, Berlin, Heidelberg, pp. 486
  • 16.Jak R.G., Maas J.I., Scholten M.C.T., 1996, Evaluation of laboratory derived toxic effect concentrations of a mixture of metals by testing freshwater plankton communities in enclosures, Water Res., 30: 1215-1227
  • 17.Krupa D., 1981, Ceratium hirundinella (O.F. Muller) Bergh in two trophically different lakes. II. Development and morphological variation of active forms and cysts, Ekol. Pol.-Pol. J Ecol., 29: 571-583
  • 18.Ligęza S., Wilk-Woźniak E., 2011, The occurrence of Euglena pascheri and Lepocinclic ovum bloom in an oxbow Lake in southern Poland under extreme environmental conditions. Ecological indicators, 11: 925-929
  • 19.Linnik P.M., 2000, Zinc, lead and cadmium speciation in Dniepr waterbodies. Lake reservoir management, 5: 261-270
  • 20.Lund J.W.G., Kipling G., Le Cren E.D., 1958, The inverted microscope method of estimating algae numbers and the statistical basis of estimation by counting. Hydrobiologia, 11: 143-170
  • 21.Morin S., Dong T.T., Drabin A., Coynel A., Herlory O. et al., 2008, Long-term survey of heavy metal pollution, biofilm contamination and diatom community structure in the Riou Mort watershed, southwest France, Environ. Pollut., 151: 532-542
  • 22.Pasternak K., 1971, The content of copper, zinc and manganese in the water of the dam reservoir at Goczałkowice and of several other reservoirs, Acta Hydrobiol., 13: 159-177.
  • 23.Paulsson M., Nystrom B., Blanck, H., 2000, Long-term toxicity of zinc to bacteria and algae in periphyton communities from the river Gota Alv, based on a microcosm study, Aquatic Toxic., 47: 243-257
  • 24.Pawlik-Skowrońska B., 2001, Phytochelatin productions in freshwater alga Stigeoclonium in response to heavy metals contained in mining water; effects of some environmental factors, Aquatic Toxic., 52: 241-249
  • 25.Pawlik-Skowrońska B., 2002, Tajemnice odporności glonów i sinic na toksyczne metale ciężkie, Kosmos, 51:175-184
  • 26.Pawlik-Skowrońska B., 2002b, Correlations between toxic Pb effects and production of Pb-induced thiol peptides in the microalga Stichococcus bacillaris, Environ. Pollut., 119: 119-127
  • 27.PN-EN ISO 17294-1, 2007, Water quality - Application of mass spectrometry with inductively coupled plasma (ICP-MS), 40 pp
  • 28.Pociecha A., Higgins T., McCarthy T.K., 2010, A preliminary study on the plankton assemblages of Lough Derg (Ireland) during a winter-spring season. Ocean. Hydrob. Stud., 39: 145-154
  • 29.Sarma S.S.S., Azuara-Garcia R., Nandini S., 2007a, Combined effects of zinc and algal food on the competition between planktonie rotifers, Anuraeopsis fissa and Brachionus Rubens (Rotifera), Aquatic ecology, 41: 631-638
  • 30.Sarma S. S. S., Peredo-Alvarez V. M., Nandini S., 2007b, Comparative study of the sensitivities of neonates and adults of selected cladoceran (Cladocera: Crustacea) species to acute toxicity stress, J Environ. Sci. Heal. A, 42: 1449-1452
  • 31.Shubert E., Rusu A-M., Bartok K., Moncrieff C.B., 2001, Distribution and abundance of edaphic algae adapted to highly acidic, metal rich soils, Nova Hedwigia, 123: 411-425
  • 32.Smolyakov B.S., Ryzhikh S.B., Bortnikova S.B., Saeva O.P., Chernova N.Yu., 2010, Behavior of metals (Cu, Zn, and Cd) in the initial stage of water system contamination: Effect of pH and suspended particles, Appl. Geochem., 25: 1153-1161
  • 33.Smolyakov B.S., Ryzhikh A.P., Romanov R.E., 2010b, The fate of Cu, Zn, and Cd in the initial stage of water system contamination: the effect of phytoplankton activity, J Hazard. Mater., 184: 819-825
  • 34.Szuwarzyński M., 2000, Zakłady Górnicze "Trzebionka" S.A. 1950-2000, Przedsiębiorstwo Doradztwa Technicznego "Kadra", Trzebinia (in Polish).
  • 35.Vymazal J., 1995, Algae and element cycling in wetlands. CRC Press/Lewis Publisher, Boca Raton, Florida, pp. 689
  • 36.Wilk-Woźniak E., 2009, Zmiany populacyjne w zbiorowiskach glonów planktonowych oraz ich strategie życiowe w warunkach ekosystemów wodnych sztucznie zmienionych (Changes in phytoplankton communities and the life strategies of planktonic algae in artificially changed aquatic ecosystems). Studia Naturae 55, IOP PAN, Kraków, pp. 132 (in Polish with English summ.)
  • 37.Wilk-Woźniak E., Marshall H.G., 2009, Diel changes in phytoplankton composition and abundance in the surface and subsurface strata from a shallow eutrophic pond, Int. Rev. Hydrobiol., 94: 29-39
  • 38.Wołowski K., Grabowska M., 2007, Trachelomonas species as the main component of the euglenophyte community in the Siemianówka Reservoir (Narew River, Poland), Ann. Limnol. - Int. J. Lim., 43: 207-218.
  • 39.Wołowski K., Turnau K., Henriques F. S., 2008, The algal flora of an extremely acidic, metal-rich drainage pond of Săo Domingos pyrite mine (Portugal), Cryptogamie Algol., 29: 313-324.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0012-0042
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.