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Pine needles (Pinus sylvestris L.) as bioindicators in the assessment of urban environmental contamination with heavy metals

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The studies on Zn, Pb and Mn content in the needles of Pinus silvestris and the surface layers of soil (0.0–0.2 m and 0.4–0.6 m) were conducted in 2010. The research stations covered residential areas, municipal parks, neighborhoods of busy streets, industrial establishments, waste dump sites and sewage treatment plants. The tests showed variability of the analyzed elements in the needles of P.silvestris and in municipal soils, depending on concentration of urban and industrial activity, road traffic and the depth of the examined layer of soil. The content of heavy metals in soil varied. Zn was character-ized by the highest variability, depending on the depth (50.3–52.4%), Mn slightly lower (38.5–42.2%), and Pb, the lowest (29.1–33.2%). It was evidenced that the values of the heavy metals enrichment factors of the needles are closely connected with concentration of the examined metals in the soil. Along with the rise of Zn, Mn and Pb content in the soil, the values of enrichment factors decreased. The strongest negative correlations were found in the case of Zn, both in 1-year old needles (r = -0.82, p<0.05), as well as in 2-years’ old ones (r = -0.83, p<0.05), slightly weaker in the cases of lead and manganese.
Rocznik
Strony
29--38
Opis fizyczny
Bibliogr. 35 poz., tab., rys.
Twórcy
autor
  • Environmental Chemistry Research Unit, Institute of Biology and Environmental Protection, Pomeranian University in Slupsk, Arciszewskiego St. 22b, 76-200 Słupsk, Poland
autor
  • Department of Geoecology and Geoinformation, Pomeranian University in Słupsk, Partyzantów St. 27, 76- 200 Słupsk, Poland
Bibliografia
  • 1. Brożek A., Zarembski A. 2011. The annual assessment of air quality in the region Pomeranian, Report for the year 2010, WIOŚ, Gdańsk (in Polish).
  • 2. Buszewski B., Jastrzębska A., Kowalkowski T., Górna-Binkul A. 2000. Monitoring of selected heavy metals uptake by plants and soils in the area of Toruń, Poland. Pol. J. Environ. Stud. 9, 6, 511-515.
  • 3. Czarnowska K. 1997. The level some heavy metals in soils and leaves of trees in the city of Łódź. Rocz. Glebozn. 48, 3/4, 49-61 (in Polish).
  • 4. Czubaszek R., Bartoszuk. 2011. Content of selected heavy metals in silos in accordance with its distance from the street and land use. Civil and Environ. Engineering, Bud. Inż. Środ. 2, 27-34 (in Polish).
  • 5. Gworek B. 1991. Pollution level zinc, lead and copper Warsaw soils. Rocz. Glebozn. 42, 1/2, 49- 56 (in Polish).
  • 6. Dąbkowska–Naskręt H., Różański S. 2009. Forms of Pb and Zn in urbansoils of Bydgoszcz agglomeration, Ochrona Środowiska i Zasobów Naturalnych 41, 489-496 (in Polish).
  • 7. Dmuchowski W., Bytnerowicz A. 1995. Biomonitoring of the environmental pollution in Poland using chemical analysis of Scott pine (Pinus sylvestris L.) needles, Environ. Pollut. 87, 87-104.
  • 8. Dmuchowski W., Gozdowski D., Baczewska A.H., Brągszewska P. 2011. The comparison bioindication methods in the assessment of environmental pollution with heavy metals, Ochrona Środowiska i Zasobów Naturalnych 50, 170-179.
  • 9. Gambuś F. 1997. Intake of heavy metals by different plant species. Part II. Accumulation of heavy metals by plants. Acta Agraria, Series Agraria, 35, 31, 1997 (in Polish).
  • 10. Gruca-Królikowka S., Wacławek W. 2006. Metals in the environment. Part. II. Influence of heavy metals in plants, Chemistry ∙ Didactics ∙ Ecology ∙ Metrology 11, 1-2, 41-56, 2006 (in Polish).
  • 11. Grzebsz W., Cieśla L., Komisarek J., Potarzycki J., 2002. Geochemical assessment of heavy metals pollution of urban soils. Pol. J. Environ. Stud. 11, 5, 493-499.
  • 12. Imperatoa M., Adamob P., Naimoa D., Arienzob M., Stenzionea D., Violanteb P. 2003. Spatial distribution of heavy metals in urban soils of Naples city (Italy). Environ. Pollut. 124, 247-256.
  • 13. Kabata-Pendias A. 2001. Trace elements in soil and plants. CRC Press, Londyn.
  • 14. Kabata-Pendias A., Pendias H., 1993. Biogeochemistry of trace elements, PWN, Warszawa. [in Polish].
  • 15. Karczewska A. 2002. Heavy metals in soils polluted emissions from copper smelters – form and solubility. Zesz. Nauk. AR Wrocław 432, Dissertations 184, Wrocław [in Polish].
  • 16. Kłos A. 2009. The use of enrichment factor (EF) for the interpretation of results Biomonitoring test. Chemia-Dydaktyka-Ekologia-Metrologia 14, 1-2, 49-55 [in Polish].
  • 17. Kozanecka T., Chojnicki J., Kwasowski W. 2002. Content of heavy metals in plant from pollution-free regions. Pol. J. Environ. Stud. 11, 4, 395-399.
  • 18. Krauss H., Wilcke W., Zech W. 2000. Reactivity and bioavailability of PAHs and PCBs Urban soils of Beyreuth. Proceedings First International Conference Soils of Urban, Industrial, Traffic and Mining Areas. (W. Burghardt and C. Dornauf Eds.) Essen 12-18, July 657-661.
  • 19. Królak E. 2003. Accumulation of Zn, Cu, Pb and Cd by dandelion (Taraxacum officinale Web.) in environments with various degrees of metallic contamination. Pol. J. Environ. Stud. 12, 6, 713-721.
  • 20. Kusza G., Ciesielczuk T., Gołuchowska B., 2009. Heavy metal content in soils from the adjacent areas of cement plants in the city of Opole. Ochrona Środowiska i Zasobów Naturalnych. 40: 70-75 [in Polish].
  • 21. Lis J., Pasieczna A. 1995. Geochemical Atlas of Polish, PIG, Warszawa [in Polish].
  • 22. Madrid L., Diaz-Barrientose E., Madrid F. 2002. Distribution of heavy metal contents of urban soils in park sof Seville. Chemosphere 49, 10, 1301- 1308.
  • 23. Martines C.E., Motto H.L. 2000. Solubility of lead, zinc and copper added to mineral soils. Environ. Pollut. 170: 153-158, 2000.
  • 24. 24. McALISTER J.J., SMITH B.J., TÖRÖK A. 2006. Element partitioning and potential mobility within surface dusts on buildings in a polluted Urban environment. Budapest. Atmospheric Environment 40, 6780-6790.
  • 25. Morel J.L. 1997. Bioavailability of trace elements to terrestrial plants. Soil Ecotoxicology 141-176.
  • 26. Ottesen R.T., Alexander J., Reidun de Lange. 1999. Ground pollution in Bergen – consequences for health and the environment. NGU Rapport 1999. Geol. Survey of Norway/Trondheim.
  • 27. Parzych A., Jonczak 2013. Content of heavy metals in needles of Scots pine (Pinus sylvestris L.) in selected of pine forest in the Słovinski National Park, Arch. Environ. Prot. 1, 39, 41-51.
  • 28. Pasieczna A. 2003. Atlas contamination of urban soils in Poland, PIG, Warszawa [in Polish].
  • 29. Rautio P., Fürst A., Stefan K., Raitio H., Bartels U. 2010. Sampling and analysis of needles and leaves. 19 pp. Manual Part XII. [In]: Manual and methods and criteria for harmonized sampling, assessment, monitoring and analysis of the effects to air pollution on forests. UNECE ICP Forest Programme Coordinating Centre, Hamburg.
  • 30. Samecka-Cymerman A., Kosior G., Kempers A.J. 2006. Comparison of the moss Pleurozium schreberi with needles and bark of Pine sylvestris as biomonitors of pollution by industry in Stalowa Wola (southeast Poland), Ecotoxicology and Environmental, Safety 65, 108-117.
  • 31. Selim M, Sparks D.L. 2001. Heavy Metals Release in Soils. CRC Press, Boca Raton, FL.
  • 32. Takáć P., Szabová T., B Kozáková L., Benková M. 2009. Heavy metals and their bioavailability from soils in the long-term polluted Central Spis region of SR, Plant, Soil and Environment 55, 4, 167-172.
  • 33. The Minister of Environment on 9 September 2002 in on standards for soil quality and soil quality standards [Dz.U. z 2002 r. Nr 165, poz.1359] [in Polish].
  • 34. Tyler G. 1992. Critical concentrations of heavy metals in the morhorizon of Swedish forests. Swedish Environmental Protection Agency, Report 4078. Solna, p. 38.
  • 35. Yang Y., Peterson E., Campbell C. 2001. Accumulation of heavy metals in urban soils and impacts on microorganism. Huan Jing Ke Xue 22, 3, 44-48.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cc46019d-f9ed-4bb8-8af1-27f23a1ab7cc
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