Abstract
To examine bioconcentration factors (BCFs) of mercury by Parasol Mushroom (Macrolepiota procera) roughly similarly sized (a cap diameter) fruiting bodies of this fungus and underlying soil (0–10 cm) samples were collected at 15 sites in Poland between 1995 and 2003. The total mercury content of the individual caps and stipes of Parasol Mushroom ranged from 0.05 to 22 mg Hg/kg dry matter (d.m.) and from 0.05 to 20 mg Hg/kg d.m., while the means were from 1.1 to 8.4 mg Hg/kg d.m. and from 0.83 to 6.8 mg Hg/kg d.m., respectively. The caps generally contained higher concentrations of mercury when compared to stipes, and the means of the cap to stipe mercury concentration quotient ranged from 1.3 to 4.6. The range of mercury concentration in topsoil samples collected at the sites where the fruiting bodies were collected was from 0.01 to 0.54 mg/g d.m. (means ranged from 0.022 to 0.36 mg/g d.m.). The BCFs factors for total mercury varied from 0.52 to 470 for individual caps and 0.52 to 360 for stipes, while average values, depending on the site, were from 16 to 220 and from 7.6 to 130 for caps and stipes, respectively.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
Aichberger, K. (1977). Untersuchungen über den Quecksilbergehalt österreichischer Speisepilze und seine Beziehungen zum Rohproteingehalt der Pilze. Zeitschrift für Lebensmittel-Untersuchung und–Forschung, 163, 35–38.
Alonso, J., Salgado, M. J., Garcia, M. A., & Melgar, M. J. (2000). Accumulation of mercury in edible macrofungi: Influence of some factors. Archives of Environmental Contamination and Toxicology, 38, 158–162.
Borovička, J., Řanda, Z., Jelinek, E., Kotraba, P., & Dunn, C. E. (2007). Hyperacumulation of silver by the mushroom Amanita strobiliformis and related species of the section Lepilella. Mycological Research (accepted).
Byrne, A. R., & Ravnik V. (1976). Trace element concentrations in higher fungi. The Science of Total Environment, 5, 65–78.
Falandysz, J. (2002). Mercury in mushrooms and soil of the Tarnobrzeska Plain, south-eastern Poland. Journal of Environmental Science and Health, 37A, 343–352.
Falandysz, J., Brzostowski, A., Nosewicz, M., Danisiewicz, D., Frankowska, A., Apanasewicz, D., & Bielawski, L. (2000). Rtęć w grzybach jadalnych z terenu Trójmiejskiego Parku Krajobrazowego. Bromatologia Chemia Toksykologiczna, 33, 177–182.
Falandysz, J., & Chwir, A. (1997). The concentrations and bioconcentration factors of mercury in mushrooms from the Mierzeja Wiślana sand-bar, Northern Poland. The Science of Total Environment, 203, 221–228.
Falandysz, J., Gucia, M., Kawano, M., Brzostowski, A., & Chudzyński, K. (2002). Mercury in mushrooms and soil from the Wieluńska Upland in South-central Poland. Journal of Environmental Science and Health, 37A, 1409–1420.
Falandysz, J., & Hałaczkiewicz, J. (1999). Zawartość rtęci w grzybach jadalnych na terenie Wyżyny Wieluńskiej. Roczniki Państwowego Zakładu Higieny, 50, 253–259.
Falandysz, J., & Kryszewski, K. (1996). Rtęć w jadalnych gatunkach grzybów w rejonie Gubina. Bromatologia Chemia Toksykologiczna, 29, 27–29.
Falandysz, J., Szymczyk, K., Ichihashi, H., Bielawski, L., Gucia, M., Frankowska, A., & Yamasaki, S. (2001). ICP/MS and ICP/AES elemental analysis (38 elements) of edible wild mushrooms growing in Poland. Food Additives and Contamination, 18, 503–513.
Fisher, R. G., Rapsomanikis, S., Andreae, M. O., & Baldini, F. (1995). Bioaccumulation of methylmercury and transformation of inorganic mercury by macrofungi. Environmental Science and Technology, 29, 993–999.
Koch, E., Kneifel, H., & Bayer, E. (1987). Das Vorkommen von Amavadin in Pilzen der Gattung Amanita. Zeitschrift für Naturforschung, 42, 873–878.
Kuusi, T., Laaksovirta, K., Liukkonen-Lilja, H., Lodenius, M., & Piepponen, S. (1981). Lead, cadmium and mercury in fungi in the Helsinki area and in unpolluted control areas. Zeitschrift für Lebensmittel-Untersuchung und–Forschung, 173, 261–267.
Lasota, W., & Witusik, M. (1987). Zawartość rtęci w grzybach dziko rosnących i w podłożu. Problemy Higieny, 32, 125–134.
Mejstrik, V., & Lepsova, A. (1993). Applicability of fungi to the monitoring of environmental pollution by heavy metals. In W. B. Markert (Ed.), Plants as biomonitors. Indicators for heavy metals in the terrestrial environment (pp. 365–378). Weinheim: CCH.
Seeger, R. (1978). Quicksilbergehalt der Pilze. Zeitschrift für Lebensmittel-Untersuchung und–Forschung, 160, 303–312.
Stijve, T., Bourqui, B., (1991). Arsenic in edible mushrooms. Deutsche Lebensmittel Rundschau, 87, 307–310.
Stijve, T., Noorloos, T., Byrne, A. R., Slejkovec, Z., & Goessler, W. (1998). High selenium levels in edible Albatrellus mushrooms. Deutsche Lebensmittel Rundschau, 94, 275–279.
Svoboda, L., Zimmermannová, K., & Kalač, P. (2000). Concentrations of mercury, cadmium, lead and copper in fruiting bodies of edible mushrooms in an emission area of a copper smelter and a mercury smelter. The Science of Total Environment, 246, 61–67.
Vetter, J., & Berta, E. (1997). Mercury content of some edible mushrooms. Zeitschrift für Lebensmittel-Untersuchung und–Forschung, 205, 316–320.
Zimmermannová, K., Svoboda, L., & Kalač, P. (2001). Mercury, cadmium, lead and copper contents in fruiting bodies of selected edible mushrooms in contaminated Middle Spiš region, Slovakia. Ekológia (Bratislava), 20, 440–446.
Zurera, G., Rincón, F., Arcos, F., & Pozo-Lora, R. (1986). Mercury content in mushroom species in the Cordova area. Bulletin of Environmental Contamination and Toxicology, 36, 662–667.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Falandysz, J., Gucia, M. Bioconcentration factors of mercury by Parasol Mushroom (Macrolepiota procera). Environ Geochem Health 30, 121–125 (2008). https://doi.org/10.1007/s10653-008-9133-5
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10653-008-9133-5