Abstract
The paper presents results of screening analysis of all Polish national parks (23) contamination with Cd, Cu, Pb and Zn on the basis of a three-level characteristic of heavy metal presence in Norway spruce stands: accumulation on the needle surface, concentration of heavy metals in spruce needles and concentration of bioavailable heavy metals in the soil. Based on the obtained results, the classification of forest ecosystem hazard in national parks with heavy metals was made using synthetic indicators. It was found out that Babiogórski, Magurski, Ojcowski and Gorczański National Parks, located in the southern part of the country, were the most polluted with heavy metals. It is probably due to a higher industrial activity in this part of Poland and the transboundary transport of air pollutants. A little lower level of pollution was observed in Kampinoski National Park located in the middle of the country. The concentration of heavy metals found in needles from national parks does not seem to be harmful for the health status of the trees. Statistically significant correlation between all parameters, which was found for cadmium—the most mobile of the analysed elements—shows that this metal can be proposed as a marker to reflect present effect of industrial emission on forests.
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Allen, S. T., Grimshaw, H. M., Parkinson, J. A., & Quarmby, C. (1974). Chemical analysis of ecological materials. Oxford: Black Scientific Publications.
Alloway, W. H. (1968). Agronomic controls over the environmental cycling of trace elements. Advances in Agronomy, 20, 235–274.
Arndt, U., Nobel, W., & Schweizer, B. (1987). Bioindikatoren Moeglichkeiten, Grenzen und neue Erkenntnisse. Stuttgart: Ulmer Verlag.
Auclair, D. (1977). Effects of dusts on photosynthesis: II. Effects of particulate matter on photosynthesis of Scotch pine and poplar. American Science For, 34, 47–48.
Azouaou, Z., & Souvré, A. (1993). Effects of copper deficiency on pollen fertility and nucleic acids in the durum wheat anther. Sexual Plant Reproduction, 6, 199–204.
Bergmann, W. (1983). Farbatlas Ernährungsstörungen bei Kulturpflanzen für den Gebrauch im Feldbestand (pp. 254–313). Jena: VEB Gustav Fisher Verlag.
Burton, K. W., & Morgan, E. (1983). The influence of heavy metals upon the growth of Sitka spruce in South Wales forest. I. Upper critical and foliar concentrations. Plant and Soil, 73, 327–336.
Buschmann, B., Kahle, H., & Breckle, S.-W. (1991). Zum Einfluß von Cadmium auf Mineralstoffhaushalt und Vegetationszeit von Buchenjungwuchs auf verschiedenen Substraten. Verhandlungen Gesellschaft Ökologie, 19(3), 209–213.
Cape, J. N. (1983). Contact angles of water droplets on needles of Scots pine growing in polluted atmospheres. The New Phytologist, 93, 293–299.
Cape, J. N., & Fowler, D. (1981). Changes in epicuticular wax of Pinus sylvestris exposed to polluted air. Silva Fennica, 15, 457–458.
Cape, J. N., Paterson, I. S., & Wolfenden, J. (1989). Regional Variation in surface properties of Norway spruce and Scots pine needles in relation to forest decline. Environmental Pollution, 58, 325–342.
Cook, C. M., Kostedou, A., Vardaka, E., & Lamaras, T. (1997). Effects of copper on growth, photosynthesis and nutrient concentration of Phaseolus plants. Photosynthetica, 34, 179–193.
Crossley, A., & Fowler, D. (1986). The weathering of Scots pine epicuticular wax in polluted and clean air. The New Phytologist, 103, 207–218.
Daniels, R. R., Stuckmayer, B. E., & Peterson, L. A. (1972). Copper toxicity in Pheseolus vulgaris L. Influenced by iron nutrition. I. An anatomical study’. Journal American Society Horticulture Science, 9, 249–254.
Das, P., Samantaray, S., & Rout, G. R. (1997). Studies on cadmium toxicity in plants: a review. Environmental Pollution, 98, 29–36.
Dmuchowski, W., & Bytnerowicz, A. (1995). Biomonitoring of the environmental pollution in Poland using chemical analysis of Scots pine (Pinus silvestris L.) needles. Environmental Pollution, 87, 87–104.
Europe’s Environment (1995). In D. Stanners, P. Bourdeau (Eds.), The Dobris Report, Copenhagen: European Environment Agency Task Force. European Commission: DG XI and Phare.
Garber, K. (1974). Schwermetalle als Luftverunreinigung (Blei-Zinc-Cadmium). Beeinflussung der Vegetation. Staub-Reinhaltg Luft, 34, 1–7.
Godbold, D. L. (1994). Aluminium and heavy metal stress: from the rhizosphere to the whole plant. In D. L. Godbold & A. Hüttermann (Eds.), Effects of Acid Rain on Forest Processes (pp. 231–264). New York: Wiley-Liss.
Greszta, J., Braniewski, S., Marczyńska-Gałkowska, K., & Nosek, S. (1979). The effects of dust emitted by non-ferrous metal smelters on the soil, soil microflora and selected tree species. Ekologiia Polska, 27, 397–426.
Grill, D., & Golob, P. (1983). SEM-investigations of different dust deposition on the surface of coniferous needles and the effect on the needle wax. Aquilo Series Botany, 19, 255–261.
Grodzińska, K., & Szarek-Łukaszewska, G. (2001). Response of mosses to the heavy metal deposition in Poland—an overview. Environmental Pollution, 114(3), 443–451.
GUS. (2001). Ochrona Środowiska 2001. Warszawa.
Heinrichs, H., & Mayer, R. (1980). The role of forest vegetation in the biogeochemical cycle of heavy metals. Journal Environmental Quality, 9(1), 111–118.
Hewitt, E. J., & Smith, T. A. (1974). Plant mineral nutrition. London: The English University Press.
Hutchinson, T. C., & Whitby, L. M. (1974). Heavy-metal pollution in the Sudbury mining and smelting region of Canada, I. Soil and vegetation contamination by nickel, copper, and other metals. Environmental Conservation, 1, 123–132.
Innes, J. L. (1993). Forest health: its assessment and status. Wallingford: CAB International.
Kabata-Pendias, A., & Pendias, H. (1992). Trace elements in soils and plants. Boca Raton: CRC Press.
Karweta, S. (1978). Bioindykacja skażenia środowiska metalami ciężkimi (Zn i Pb) na podstawie analizy chemicznej szpilek sosny zwyczajnej w rejonie emisji. Archiwum Ochrony Środowiska, 2, 135–138.
Keller, C., & Hammer, D. (2004). Metal availability and soil toxicity after repeated croppings of Thlaspi caerulescens in metal contaminated soils. Environmental Pollution, 131(2), 243–254.
Kjaer, C., & Elmegaard, N. (1996). Effects of copper sulfate on black bindweed (Polygonum convolulus L.). Ecotoxicology and Environ Safety, 33, 110–117.
Lariland, N. I., Lovelius, N. B., & Yatschenko-Khmelevskii, A. A. (1978). The effect of dust pollution from cement factories on growth of oak. Botany Zhurnal, 63, 721–729.
Lerman, S. L., & Darley, E. F. (1975). Particulates. In J. B. Mudd & T. T. Kozlowski (Eds.), Responses of plants to air pollutants (pp. 141–155). New York, San Francisco, London: Acad. Press.
Linzon, S. N., Chai, B. L., Temple, P. J., Pearson, R. G., & Smith, M. L. (1976). Lead contamination of urban soils and vegetation by emissions from secondary lead industries. Journal Air Pollution Control Association, 26, 650–655.
Łukasik, I. (2006). Degradacja starodrzewów bukowych "Lazulo pilosae - Fagetum" w warunkach zróżnicowanej antropopresji na Wyżynie Śląsko-Krakowskiej, Wyd. Uniwersytetu Śląskiego. 1–142.
Malzahn E. (1999). Ocena zagrożeń i zanieczyszczenia środowiska leśnego Puszczy Białowieskiej, Prace IBL. No. 885. Warszawa.
Mankovska, B. (1980). The natural content of Fe, As, Pb, and Cd in the forest trees. Biologia (Bratislava), 35(4), 267–274.
Maynard, D. N. (1979). Nutritional disorders of vegetable crops: a review. Journal of Plant Nutrition, 1(1), 1–23.
Mengel, K., & Kirkby, E. A. (1982). Principles of plant nutrition (pp. 1–655). Bern: International Potash Institute.
Nriagu, J., & Pacyna, J. (1988). Quantitative assessment of worldwide contamination of air, water and soils by trace metals. Nature, 333, 134–139.
Olendrzyński, K. (2007). Inwentaryzacja emisji do powietrza SO 2 , NO 2 , CO, NH 3 , pyłów, metali ciężkich, NMLZO i TZO w Polsce za rok 2005. Report IOŚ. Warszawa.
Pacyna, J. (1988). Long-range transport of heavy metals—modelling and measurements. In H. Van Dop (Ed.), Air Pollution Modelling and Its Application (pp. 367–380). New York (USA): Plenum Press.
Pueyo, M., Lopez-Sanchez, J. F. L., & Rauret, G. (2004). Assessment of CaCl2, NaNO3 and NH4NO3 extraction procedures for the study of Cd, Cu. Pb and Zn extractability in contaminated soils. Analytica Chimica Acta, 504, 17–226.
Rance, S. J., Cameron, D. M., & Williams, E. R. (1982). Correction of crown disorders of Pinus caribaea var. hondurensis by application of zinc. Plant and Soil, 65, 293–296.
Rautio, P., Huttunen, S., & Lamppu, J. (1998). Effects of sulphur and heavy metal deposition on foliar chemistry of Scots pines in Finnish Lapland and on the Kola Peninsula. Chemosphere, 36(4–5), 979–984.
Raven, P. H., & Johnson, G. B. (1986). Biology. St. Louis, Toronto, Santa Clara: Times Mirror/Mosby College Publishing.
Rhode, G. (1962). Flugasche und Pflanzenwachstum. Z Gesellschaft Hygiene Grenzgebiete, 8, 333–339.
Riederer, M., Jetter, R., Markstädter, C., Schreiber L. (1994). Air pollutants and the cuticle—implications for plant physiology. In K. E. Percy (ed.), Air Polltants and the leaf cuticle, NATO ASI, vol. G 36, 107–111.
Roemkens, P. A. F. M., & Salomons, W. (1998). Cd, Cu and Zn solubility in arable and forest soils: consequences of land use changes for metal mobility and risk assessment. Soil Science, 163, 859–871.
Rostański, K., & Sokół, S. (1980). Wpływ emisji Huty cynku na skład flory epifitycznych porostów w Miasteczku Śląskim. Archiwum Ochrony Środowiska, 3–4, 159–164.
Rout, G. R., & Das, P. (2003). Effect of metal toxicity on plant growth and metabolism: I. Zinc. Agronomie, 23(11), 3–11.
Ruszkowska, M. (1978). Fizjologiczne aspekty nadmiaru pierwiastków śladowych w roślinach. Mat. I Kraj. Konf. Puławy.
Sachdev, P., & Deb, D. L. (2006). Effect of zinc on protein and RNA content in wheat plant. Journal of the Science of Food and Agriculture, 28(11), 959–962.
Stachurski, A., Zimka, J. R., & Kwiecień, M. (1994). Forest decline in Karkonosze (Poland). L. Chlorophyll, phenols, defoliation index and nutrient status of the Norway spruce (Picea abies L. ). Ekologiia Polska, 42, 289–316.
Staszewski, T., Godzik, S., & Poborski, P. (1994). Physico-chemical characteristics of pine needle surfaces exposed to different air pollution sources. In K. Percy (Ed.), Air Pollutants and the leaf cuticle, NATO ASI Series, vol. G 36 (pp. 341–349). Berlin, Heidelberg: Springer-Verlag.
Turner, R. S., Johnson, A. H., & Wang, D. (1985). Biogeochemistry of lead in McDonalds Branch Watershed, New Jersey Pine Barrens. Journal of Environmental Quality, 14, 305–314.
Ullrich, S. M., Ramsey, M. H., & Helios-Rybicka, E. (1999). Total and exchangeable concentrations of heavy metals in soils near Bytom, an area of Pb/Zn mining and smelting in Upper Silesia, Poland. Applied Geochemistry, 14, 187–196.
Wedding, J. B., Carlson, R. W., Stukel, J. J., & Bazzaz, F. A. (1975). Aerosol deposition on plant leaves. Environmental Science and Technology, 9, 151–153.
Zőttl, H. W. (1985). Heavy metal levels and cycling in forest ecosystems. Experiments, 41, 1104–1113.
Zőttl, H. W. (1990). Ernährung und Düngung der Fichte. Forstwiss Centrabl, 109(2–3), 130–137.
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This research was supported by Polish National Fund for Environmental Protection and Water Management.
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Staszewski, T., Łukasik, W. & Kubiesa, P. Contamination of Polish national parks with heavy metals. Environ Monit Assess 184, 4597–4608 (2012). https://doi.org/10.1007/s10661-011-2288-z
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DOI: https://doi.org/10.1007/s10661-011-2288-z