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Trace elements concentrations in selected moss and lichen species collected within Antarctic research stations

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The Antarctic region has been considered as a region the least exposed to the pollution. However, increase of human activities at the research stations, transportation and tourism threaten the natural environment of this region. The paper reports the contents of selected trace elements in lichen and moss samples collected in the interior parts of several Antarctic research stations located on King George Island (South Shetlands, maritime Antarctica). Lichens and mosses are particularly sensitive to anthropogenic environmental changes, especially to air pollution. Moss Sanionia uncinata and lichens - Usnea antarctica and Usnea aurantiaco-atra were chosen as bioindicators. The amount of ten trace metals (vanadium, chromium, manganese, copper, zinc, lead, rubidium, strontium, yttrium, and cadmium) and bromine was measured in thalli using the analytical PIXE (Particle Induced X-ray Emission) method. The results obtained for the samples originating from research stations were compared with the data obtained for the samples of same species collected in the area distant from any human activities. For the samples from Antarctic stations the average contents of trace elements (in [micro]g g[^-1] d.w., mean [plus or minus] SD) were as follows: S. uncinata - V 27 [plus or minus] 22, Cr 7 [plus or minus] 2, Mn 256 [plus or minus] 95, Cu 11 [plus or minus] 3, Zn 33 [plus or minus] 4, Pb 9 [plus or minus] 6, Br 40 [plus or minus] 22, Rb 14 [plus or minus] 11, Sr 69 [plus or minus] 25; U. antarctica - V 28 [plus or minus] 31, Cr 3 [plus or minus] 1, Mn 53 [plus or minus] 18, Cu 10 [plus or minus] 4, Zn 30 [plus or minus] 1, Pb 2 [plus or minus] 1, Br 40 [plus or minus] 16, Sr 18 [plus or minus] 4, Y 4 [plus or minus] 2; U. aurantiaco-atra - V 7 [plus or minus] 6, Cr 6 [plus or minus] 3, Mn 59 [plus or minus] 35, Cu 66 [plus or minus] 33, Zn 27 [plus or minus] 5, Pb 5 [plus or minus] 1, Br 30 [plus or minus] 15, Sr 32 [plus or minus] 20, Y 3 [plus or minus]3. The average concentrations of Cr, Mn and Pb in all samples from research stations demonstrated significant differences in relation to the reference material. The maximal concentrations of measured elements obtained in the samples from potentially polluted areas were as a rule much higher ([similar to] 120-3800%) in comparison with the concentrations in the control group. This observation is especially worrying. These results point out that the human influence on the Antarctic environment may be negative and indicate the necessity for pollution monitoring programmes in the region. This research is a part of biomonitoring recommended by SCAR (Scientific Committee on Antarctic Research).
Rocznik
Strony
39--48
Opis fizyczny
Bibliogr. 29 poz.,Rys., tab.,
Twórcy
  • Institute of Botany, Jagiellonian University, Kopernika 27, 31-501 Cracow, Poland
  • Henryk Niewodniczański Institute of Nuclear Physics, Polish Academy of Sciences, Radzikowskiego 152, 31-342 Cracow, Poland
autor
  • Institute of Botany, Jagiellonian University, Kopernika 27, 31-501 Cracow, Poland
  • Department of Antarctic Biology, Polish Academy of Sciences, Ustrzycka 10, 02-141 Warsaw, Poland
Bibliografia
  • 1. Bargagli R. 2000 – Trace Metals in Antarctica Related to Climate Change and Increasing Human Impact – Rev. Environ. Contam. Toxicol. 166: 129–173.
  • 2. Bargagli R. 2001 – Trace Metals in Antarctic Organisms and the Development of Circumpolar Biomonitoring Networks – Rev. Environ. Contam. Toxicol. 171: 53–110.
  • 3. Bargagli R., Battisti E., Focardi S., Formichi P. 1993 – Preliminary data on environmental distribution of mercury in northern Victoria Land, Antarctica – Antarct. Sci. 5 (1): 3–8.
  • 4. Bargagli R., Brown D.H., Nelli L. 1995 - Metal biomonitoring with mosses: procedures for correcting for soil contamination - Environ. Pollut. 89: 169–175.
  • 5. Bargagli R., Focardi S. 1992 – Preliminary data on heavy metals in surface soil and macrolichens of Northern Victoria Land (In: Proc. Antarct. Biol. Padova, Eds. B. Battaglia, P.M. Bisol, V. Varotto) – Edizioni Universitarie Pavatine, Italia, pp. 227–234.
  • 6. Bargagli R., Sanchez-Hernandez J.C., Martella L., Monaci F. 1998 – Mercury, cadmium and lead accumulation in Antarctic masses growing along nutrient and moisture gradients – Polar Biol. 19: 316–322.
  • 7. Boutron C.F., Wolff E.W. 1989 – Heavy metal and sulphur emissions to the atmosphere from human activities in Antarctica - Atmos. Environ. 27A: 1833–1841.
  • 8. Clark B.M., Mangelson N.F., St. Clair L.L., Gardner J.S., Cooper L.S., Rees L.B., Grant P.G., Bench G.S. 1999 - Analysis of lichen thin sections by PIXE and STIM using a proton microprobe – Nucl. Instrum. Method. Phys. Res. B 150: 248–253.
  • 9. Dutkiewicz E.M., Van Kuijen W.J.P., Munnik F., Mutsaers P.H. A., Rokita E., de Voigt M.J.A. 1992 – Determination of Hg Concentration in Gasses by PIXE - Nucl. Instr. and Meth. B68: 305–308.
  • 10. Heller-Zeisler S.F., Zeisler R., Zeiller E., Parr R.M., Radecki Z., Burns K.I., De Regge P. 1999 – Intercomparison Run for the Determination of Trace and Minor Elements in Lichen Material IAEA–336 – International Atomic Energy Agency, NAHRES-33, (IAEA/AL/79), Vienna.
  • 11. Johansson S.A.E., Johansson T.B. 1976 - Analytical Application of Particle Induced X-Ray Emission – Nucl. Instr. and Meth. 137: 473–516.
  • 12. Kabata-Pendias A. 2000 – Trace Elements in Soils and Plants, 3rd ed – CRC Press, 432 pp.
  • 13. Kabata-Pendias A., Pendias H. 1999 – Biochemia pierwiastków śladowych [Biochemistry of trace elements] – Wyd. Nauk. PWN, Warszawa, pp. 106–328 (in Polish).
  • 14. Kajfosz J., Kwiatek W.M. 1987 – Non-Polynomial Approximation of Backgroud In X-Ray Spectra – Nucl. Instr. and Meth. B22: 78.
  • 15. Kwiatek W.M., Lekki J., Nowak T., Dutkiewicz E.M., Paluszkiewicz C. 1997 – Matrix Effects in PIXE Elemental Analysis on Thick Targets. 14th International Conference on Application of Accelerators in Research and Industry, Denton, USA, 1996 – American Institute of Physics Journal, 392: 531–534.
  • 16. Lippo H., Poikolainen J., Kubin E. 1995 - The use of moss, lichen and pine bark in the nationwide monitoring of atmospheric heavy metal deposition in Finland – Water Air Soil Pollut. 85: 2241–2246.
  • 17. Mietelski J.W., Gaca P., Olech M.A. 2000 - Radioactive contamination of lichens and mosses collected in South Shetlands and Antarctic Peninsula – J. Radioanal. Nucl. Chem. 245 (3): 527–537.
  • 18. Olech M., Dutkiewicz E.M., Kwiatek W.M. 1998 – Lead Pollution in the Antarctic Region – X-ray Spectrom. 27: 232–235.
  • 19. Olech M., Osyczka P., Dutkiewicz E.M. 2000 – Local environmental pollution with heavy metals in the Admiralty Bay region (South Shetlands, Antarctica) – Pol. Polar Stud. 99–103.
  • 20. Olech M., Szymczyk S., Kajfosz J. 1993 – Lokalne zanieczyszczenia ołowiem środowiska w rejonie Antarktyki [Local lead contamination of the environment in the Antarctic region] – Prace Mineral. 83: 51–54 (in Polish, with English summary).
  • 21. Poblet A., Andrade S., Scagliola M., Vodopivez C., Curtosi A., Pucci A., Marcovecchio J. 1997 – The use of epilithic Antarctic lichens (Usnea aurantiacoatra and Usnea antarctica) to determine deposition patterns of heavy metals in the Shetland Islands, Antarctica – Sci. Total Environ. 207: 187–194.
  • 22. Rokita E., Wróbel A., Kwiatek W.M., Dutkiewicz E.M. 1996 – The New PIXE Setup at the Institute of Nuclear Physics in Kraków – Nucl. Instrum. Method Phys. Res. B109/110: 109–112.
  • 23. Seaward M.R.D. 1992 – Large-scale air pollution monitoring using lichens – GeoJournal, 28: 403–411.
  • 24. Shaw G.E. 1988 – Antarctic aerosols: a review – Rev. Geophys. 26: 89–112.
  • 25. Smykla J, Szarek-Gwiazda E., Krzewicka B. 2005 – Trace elements in the lichens Usnea aurantiaco-atra and Usnea antarctica from the vicinity of Uruguay’s Artigas Station on King George Island, Maritime Antarctica – Polish Bot. Stud. 19: 49–57.
  • 26. Van Dobben H.F., Wolterbeek H.Th., Wamelink G.W.W., Ter Braak C.J.F. 2001 – Relationship between epiphytic lichens, trace elements and gaseous atmospheric pollutants – Environ. Pollut. 112: 163–169.
  • 27. Williams R.N., Casellas R.C., Mangelson N.F., Rees L.B., St. Clair L.L., Schaalje G.B., Swalberg K.D. 1996 - Elemental analysis of lichens from the intermountain western USA using PIXE – Nucl. Instrum. Method Phys. Res. B109/110: 336–340.
  • 28. Wolff E.W., Suttie E.D. 1994 – Antarctic snow record of southern hemisphere lead pollution Geophysical Research Letters 21 (9): 781–784.
  • 29. Wolterbeek H.T., Garty J., Reis M.A., Freitas M.C. 2003 – Biomonitors in use: lichens and metal air pollution (In: Bioindicators and biomonitors, principles, concepts and applications. Trace metals and other contaminations in the environment, Eds. B.A. Markert, A.M. Breure, H.G. Zechmeister) – Elsevier, Amsterdam, pp. 377–419.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-1617-6309
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