PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Effect of some heavy metals on neustonic and planktonic bacteria isolated from the Deep of Gdańsk

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The effect of different concentrations of heavy metal ions Hg+2, Cd+2, Zn+2, Cu+2 on growth and respiratory activity of neustonic and planktonic bacteria derived from the Deep of Gdańsk was studied. The laboratory experiments demonstrated that all heavy metals examined exhibited toxic effects on the development and oxygen uptake by neustonic and planktonic bacteria. This effect depended on the kind of the metal and its concentration.
Rocznik
Strony
89--99
Opis fizyczny
Bibliogr. 32 poz., wykr.
Twórcy
autor
  • Department of Experimental Biology, Pedagogical University, ul. Arciszewskiego 22, 76-200 Słupsk, Poland
autor
  • Department of Water Microbiology and Biotechnology, Nicholas Copernicus University, ul. Gagarina 9, 87-100 Toruń, Poland
  • Department of Experimental Biology, Pedagogical University, ul. Arciszewskiego 22, 76-200 Słupsk, Poland
autor
  • Department of Water Microbiology and Biotechnology, Nicholas Copernicus University, ul. Gagarina 9, 87-100 Toruń, Poland
Bibliografia
  • [1.] Barkey T., Turner R. M., Saouter E., Horn J., 1992, Mercury biotransformations and their potential for remediation of mercury contamination, Biodegradation, 3, 147-159.
  • [2.] Bogdanova E. S., Mindlin S. Z., Parkowa E., Kocur M., Rouch A. A., 1992, Mercuric reductase in environmenłal Gram-positive bacteria sensitive to mercury, FEMS Microbiol. Lett., 97, 95-100.
  • [3.] Burke B. E., Pfister R. M., 1986, Cadmium transport by a Cd2-sensitive and Cd2- resistant strain of Bacillus subtilis, Can. J. Microbiol., 32, 539-542.
  • [4.] Capone D. G., Bauer J. E., 1992, Microbial processes in coastal pollution, Environ. Microbiol., 2, 191-237.
  • [5.] Chen J-H., Lion L. W., Ghiorse W. C., Shuler M. L., 1995, Mobilization of adsorbed cadmium and lead in aquifer material by bacterial extracellular polymers, Water Res., 29, 421-430.
  • [6.] Codina J. C., Perez-Torrente C., Perez-Gracia A., Cazorala F. M., de Vicente A., 1995, Comparsion of microbial tests for the detection of heavy metal genotoxicity, Arch. Environ. Contam. Toxiol., 29, 260-265.
  • [7.] Diaz-Ravina M., Baath E., Frostegard A., 1994, Multiple heavy metal tolerance of soil bacterial communities and its measurment by a thymidine incorporation technique, Appl. Environ. Microbiol., 60, 2238-2247.
  • [8.] Doelman P., Jansen E., Michals M., van Til M., 1994, Effects of heavy metals on soil on microbial diversity and activity as shown by the sensitivity-resistance index, an ecologically relevant parameter, Biol. Fertiliy Soils., 17, 177-184.
  • [9.] Donderski W., Głuchowska M., Wódkowska A., 1997, Effect of heavy metal ions on neustonic and planktonic bacteria isolated from lake Jeziorak Maly, Pol. J. Environ., 6, 29-34.
  • [10.] Fabiano M., Danovaro R., Magi E., Mazzucotelli A., 1994, Effects of heavy metals on benthic bacteria in coastal marine sediments: A field result, Mar. Pollut. Bull., 28, 18-23.
  • [11.] Farrell R. E., Germida J. J., Huang P. M., 1993, Effects of chemical speciation in growth media on the toxicity of mercury (II), Appl. Environ. Microbiol., 59, 1507-1514.
  • [12.] Foster T. J., 1983, Plasmid-determined resistance to antimicrobial drugs and toxic metal ions in bacteria, Microbiol. Rev., 47, 361-409.
  • [13.] Garrett W. D., 1965, Collection of slick-forming materials from the sea surface, Limnol. Oceanogr., 10, 602-605.
  • [14.] Gordon A. S., Howell L. D., Harwood V., 1994, Responses of diverse heterotrophic bacteria to elevated copper concentrations, Can. J. Microbiol., 40, 408-411.
  • [15.] Hardoyo S., Kajiwara S., Kato J., Ohtake H., 1993, Bacterial motility as a potential tool for rapid toxicity assays, Biotechnol. Tech., 7, 457-462.
  • [16.] Harvey R. W., Lion L. W., Young L. Y., Leckie J. O., 1982, Enrichment and association of lead and bacteria at particulate surfaces in a salt-marsh surface layer, J. Mar. Res., 40, 1201-1211.
  • [17.] Hermansson M., Jones G. W., Kjelleberg S., 1987, Frequency of antibiotic and heavy metal resistance, pigmentation and plasmids in bacteria of the marine air-water interface, Appl. Environ. Microbiol., 53, 2338-2342.
  • [18.] Kim S-J., 1985, Effect of heavy metals on natural populations of bacteria from surface microlayers and subsurface water, Mar. Ecol. Prog. Ser., 26, 203-206.
  • [19.] Lion L. W., Harvey R. W., Leckie J. O., 1982, Mechanisms for trace metal enrichment at the surface microlayer in an estuarine salt marsh, Mar. Chem., 11, 235-244.
  • [20.] Lopez-Amoros R., Vives-Rego J., Gracia-Lara J., 1997, Exogeneous isolation of Hgr plasmids from coastal Mediterranean waters and their effect on growth and survival of Escherichia coli in sea water, Microbios, 92, 109-112.
  • [21.] Martinez J., Sato Y., Vives-Rego J., Bianchi M., 1991, Toxicity of Cu, Ni and alkylbenzene sulfonate on the naturally occurring bacteria in the Rhone river plume, Environ. Toxicol. Chem., 10, 641-647.
  • [22.] Mudryk Z., Korzeniewski K., 1995, Activity of heterotrophic bacteria isolated from the surface microlayer and subsurface water in the Southern Baltic, Stud. Mat. Oceanol., 69, 45-57.
  • [23.] Nair S., Chandramohan D., Bharathi P. A., 1992, Differential sens itivity ofpigmented and non-pigmented marine bacteria to metals and antibiotics, Water Res., 26, 431-434.
  • [24.] Niewolak S., Kopij H., Chomutowska H., 1996, Influence of some heavy metals on the survival of heterotrophic bacteria in bottom sediments of eutrophic lake, Pol. J. Environ., 5, 21-27.
  • [25.] Perez-Garcia A., Codina J. C., Cazorola F. M., de Vicente A., 1993, Rapid respirometric toxicity test: sensitivity to metals, Bull. Environ. Contam. Toxicol., 50, 703-708.
  • [26.] Pickaver A. H., Lyes M. C., 1981, Aerobic microbial activity in surface sediments containing high or low concentrations of zinc taken from Dublin Bay, Ireland, Estuar. Coast Shelf Sci., 12, 13-22.
  • [27.] Rheinhaimer G., 1977, Microbial ecology of a brackish water environment, Ecol. Stud., 25, 121-137.
  • [28.] Ron E. Z., Minz D., Finkelstein N. P., Rosenberg E., 1992, Interaction of bacteria with cadmium, Biodegradation, 3, 161-170.
  • [29.] Rudd T., Sterritt R. M., Lester J. N., 1983, Mass balance of heavy metal uptake by encapsulated cultures of Klebsiella aerogenes, Microb. Ecol., 9, 261-272.
  • [30.] Sylwester A. J., Ware G. C., 1977, Laboratory studies on the effect of metals on oxygen uptake by sewage sludge in brackish water, Mar. Pollut. Bull., 8, 45-48.
  • [31.] Tubbing D. M. J., Admiraal W., Katako A., 1995, Successive changes in bacterioplankton communities in the river Rhine after copper additions, Environ. Toxicol. Chem., 14, 1507-1512.
  • [32.] Waldichuk M., 1982, Air-sea change of pollutants, [in:] Pollutant transfer and transport in sea, Kullenberg G. (eds), CRS Press, Boca Raton, Florida, 177-218.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0016-0066
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.