Abstract
Moss samples from four dominant species (Hypnum cupressiforme, Pleurozium schreberi, Homalothecium sericeum and Brachythecium rutabulum) were collected during the summer and autumn of 2010 from 121 sampling sites evenly distributed over the territory of Croatia. Samples were totally digested by using microwave digestion system, whilst mercury was analysed by using cold vapour atomic absorption spectrometry (CV-AAS). Descriptive statistics were done from analyses of mercury in all moss samples. The content of mercury ranged from 0.010 to 0.145 mg kg−1 with a median value of 0.043 mg kg−1. Hg distribution map shows the sites of the country with higher levels of this element. High contents of Hg were found in moss samples collected from the regions of Podravina and Istria as a result of anthropogenic pollution. Comparison of median values and ranges with those found in moss samples in 2006 shows slight reduction of mercury air pollution. When compared to the results obtained from recent studies conducted in Slovenia, Macedonia and especially in Norway—which serves as a reference considering the fact that it is a pristine area—mercury air pollution in Croatia is insignificant.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Barandovski, L., Cekova, M., Frontasyeva, M. V., Pavlov, S. S., Stafilov, T., Steinnes, E., & Urumov, V. (2008). Atmospheric deposition of trace element pollutants in Macedonia studied by the moss biomonitoring technique. Environmental Monitoring and Assessment, 138, 107–118.
Barandovski, L., Frontasyeva, M. V., Stafilov, T., Šajn, R., Pavlov, S., & Enimiteva, V. (2012). Trends of atmospheric deposition of trace elements in Macedonia studied by the moss biomonitoring technique. Journal of Environmental Science and Health, Part A, 47(13), 2000–2015.
Brooks, W. E., & Matos, G. R. (2005). Mercury recycling in the United States in 2000. In S. F. Sibley (Ed.), Flow studies for recycling metal commodities in the United States, U.S. Geological Survey Circular 1196-U. Washington D.C.: U.S. Department of the Interior.
Brown, D. H., & Bates, J. W. (1990). Bryophyte and nutrient cycling. Botanical Journal of the Linnean Society, 104, 129–147.
Carpi, A., Weinstein, L. H., & Ditz, D. W. (1994). Bioaccumulation of mercury by sphagnum moss near a municipal solid waste incinerator. Journal of Air and Waste Management Association, 44(5), 669–672.
Clarkson, T. W. (1997). The toxicology of mercury. Critical Reviews of Toxicology, 34, 369–403.
Clarkson, T. W., Magos, L., & Myers, G. J. (2003). The toxicology of mercury—current exposures and clinical manifestations. The New England Journal of Medicine, 349, 1731–1737.
Conti, M. E., & Cecchetti, G. (2001). Biological monitoring: lichens as bioindicators of air pollution assessment—a review. Environmental Pollution, 114, 471–492.
Environmental Protection Agency. State of the Environment of the Republic of Croatia for the period 2005–2008, S. K. Dragičević, M. Zovko, & H. Mesić (Eds.) (in Croatian). http://www.azo.hr/Izvjesca30. Accessed August 2012.
Government of the Republic of Croatia (2008) The protection and improved air quality in Croatia during the period of 2008 to 2011, Narodne Novine, No. 2094 (In Croatian).
Halamić, J., & Miko, S. (Eds.). (2009). Geochemical atlas of the Republic of Croatia. Zagreb, Croatia: Croatian Geological Survey.
Harmens, H. (2009). Heavy metals in European mosses: 2010 survey monitoring manual. Bangor: ICP Vegetation Coordination Centre, Centre for Ecology and Hydrology.
Harmens, H., Norris, D., & Participants of the Moss Survey. (2013). Heavy metals and nitrogen in mosses: spatial patterns in 2010/2011 and long-term temporal trends in Europe. Bangor: ICP Vegetation Programme Coordination Centre, Centre for Ecology and Hydrology.
Hrubá, F., Strömberg, U., Černá, M., Chen, C., Harari, F., Harari, R., Horvat, M., Koppová, K., Kos, A., Krsková, A., Krsnik, M., Laamech, J., Li, Y. F., Löfmark, L., Lundh, T., Lundström, N. G., Lyoussi, B., Mazej, D., Osredkar, J., Pawlas, K., Pawlas, N., Prokopowicz, A., Rentschler, G., Spěváčková, V., Spiric, Z., Tratnik, J., Skerfving, S., & Bergdahl, I. A. (2012). Blood cadmium, mercury, and lead in children—an international comparison of cities in six European countries, and China, Ecuador, and Morocco. Environmental International, 41, 29–34.
Horvat, M., Jeran, Z., Špiric, Z., Jaćimović, R., & Miklavcic, V. (2000). Mercury and other elements in lichens at INA-naftaplin gas treatment plant, Molve, Croatia. Journal of Environmental Monitoring, 2, 139–144.
Kłos, A., Rajfur, M., Šrámek, I., & Wacławek, M. (2012). Mercury concentration in lichen, moss and soil samples collected from the forest areas of Praded and Glacensis Euroregions (Poland and Czech Republic). Environmental Monitoring and Assessment, 184(11), 6765–6774.
Krishna, M. V. B., Karunasagar, D., & Arunachalam, J. (2003). Study of mercury pollution near a thermometer factory using lichens and mosses. Environmental Pollution, 124, 357–360.
Linšak, Ž., Linšak, D. T., Špirić, Z., Srebočan, E., Glad, M., & Milin, Č. (2013). Effects of mercury on glutathione and glutathione-dependent enzymes in hares (Lepus europaeus Pallas). Journal of Environmental Science and Health, Part A, 48(11), 1325–1332.
Lodenius, M., Tulisalo, E., & Soltanpour-Gargari, A. (2003). Exchange of mercury between atmosphere and vegetation under contaminated conditions. The Science of the Total Environment, 304, 169–174.
Moriarty, F. (1999). Ecotoxicology—the study of pollutants in ecosystems (3rd ed.). San Diego: Academic.
National Archives and Records Administration (NARA). (2011). National Emission Standards for hazardous air pollutants from coal- and oil-fired electric utility steam generating units and standards of performance for fossil-fuel-fired electric utility, industrial-commercial-institutional, and small industrial-commercial-institutional steam generating units. Federal Register 76(85). Washington, D.C: Environmental Protection Agency.
Nriagu, J. O. (1989). A global assessment of natural sources of atmospheric trace metals. Nature, 338, 47–49.
Pacyna, J. M., & Pacyna, E. G. (2001). An assessment of global and regional emissions of trace metals to the atmosphere from anthropogenic sources worldwide. Environmental Reviews, 9, 269–298.
Pawlas, N., Strömberg, U., Carlberg, B., Cerna, M., Harari, F., Harari, R., Horvat, M., Hruba, F., Koppova, K., Krskova, A., Krsnik, M., Li, Y.-F., Löfmark, L., Lundh, T., Lundström, N. G., Lyoussi, B., Markiewicz-Górka, I., Mazej, D., Osredkar, J., Pawlas, K., Rentschler, G., Spevackova, V., Spiric, Z., Sundkvist, A., Tratnik, J. S., Vadla, D., Zizi, S., Skerfving, S., & Bergdahl, I. A. (2013). Cadmium, mercury and lead in blood of urban women in Croatia, the Czech Republic, Poland, Slovakia, Slovenia, Sweden, China, Ecuador and Morocco. International Journal of Occupational Medicine and Environmental Health, 26(1), 58–72.
Pirrone, N., Cinnirella, S., Feng, X., Finkelman, R. B., Friedli, H. R., Leaner, J., Mason, R., Mukherjee, A. B., Stracher, G. B., Streets, D. G., & Telmer, K. (2010). Global mercury emissions to the atmosphere from anthropogenic and natural sources. Atmospheric Chemistry and Physics, 10, 5951–5964.
Pitcairn, C. E. R., Fowler, D., & Grace, J. (1995). Deposition of fixed atmospheric nitrogen and foliar nitrogen content of bryophytes and Calluna vulgaris (L.) Hull. Environmental Pollution, 88, 193–205.
Rühling, Å., & Tyler, G. (1968). An ecological approach to the lead problem. Botaniska Notiser, 122, 248–342.
Rühling, A., & Steinnes, E. (1998). Atmospheric heavy metal deposition in Europe 1995–1996. Copenhagen, Denmark: Nord 15. Nordic Council of Ministers.
Steinnes, E., Berg, T., Uggerud, T. H., & Pfaffhuber, K. A. (2011). Atmospheric deposition of heavy metals in Norway, National Study in 2010, Rapport 1109/2011 [in Norwegian]. Trondheim: Norwegian University of Science and Technology.
Steinnes, E., Rühling, Å., Lippo, H., & Mäkinen, A. (1997). Reference material for large-scale metal deposition surveys. Accreditation and Quality Assurance, 2, 243–249.
Špirić, Z., & Stockwell, P. B. (1998). Ambient air mercury measurements during natural gas production. American Environmental Laboratory, 10(5), 16–20.
Špirić, Z., & Mashyanov, N. R. (2000). Mercury measurements in ambient air near natural gas processing facilities. Fresenius Journal of Analytical Chemistry, 366(5), 429–432.
Špirić, Z. (2001). Innovative approach to the mercury control during natural gas processing. Paper presented at the ASME, Petroleum Division: ETCE 2001—Environmental Symposium, Houston, USA, February 4–7, 2001.
Spirić, Z. (2010). Delivering ecosystem service benefits: science and innovation for sustainable development. In P. H. Liotta, W. G. Kepner, J. M. Lancaster, & D. A. Mouat (Eds.), NATO Science for Peace and Security Series-E: human and societal dynamics vol. 69: Achieving Environmental Security: Ecosystem Services and Human Welfare (pp. 207–216). Amsterdam: Ios Press.
Špirić, Z., Frontasyeva, M., Steinnes, E., & Stafilov, T. (2012a). Multi-element atmospheric deposition study in Croatia. International Journal of Environmental Analytical Chemistry, 92(10), 1200–1214.
Špirić, Z., Srebočan, E., & Prevendar-Crnić, A. (2012b). Mercury in hares tissue (Lepus europaeus Pallas) in the vicinity of the mercury contaminated natural gas treatment plant in Croatia. Journal of Environmental Science and Health, Part A, 47(1), 77–83.
Špirić, Z., Srebočan, E., & Prevendar-Crnić, A. (2013a). Mercury in pheasant (Phasianus colchicus) organs in Podravina, Croatia. Journal of Environmental Science and Health, Part A, 48(4), 394–399.
Špirić, Z., Vučković, I., Stafilov, T., Kušan, V., & Frontasyeva, M. (2013b). Air pollution study in Croatia using moss biomonitoring and ICP–AES and AAS analytical techniques. Archives of Environmental Contamination and Toxicology, 65, 33–46.
Tota, M., Jakovac, H., Špirić, Z., Srebočan, E., & Milin, Č. (2013). Accumulated metals and metallothionein expression in organs of hares (Lepus europaeus Pallas) within natural gas fields of Podravina, Croatia. Archives of Environmental and Occupational Health. doi:10.1080/19338244.2013.787966 (accepted).
Tchounwou, P. B., Ayensu, W. K., Ninashvili, N., & Sutto, D. (2003). Environmental exposure to mercury and its toxicopathologic implications for public health. Environmental Toxicology, 18(3), 149–175.
Tyler, G. (1970). Moss analysis—a method for surveing heavy metal deposition. In H. M. Englund & W. T. Berry (Eds.), Proceedings of the second international clean air congress (pp. 129–132). New York: Academic.
Tyler, G. (1990). Bryophytes and heavy metals: a literature review. Botanical Journal of the Linnean Society, 104, 231–253.
Vučković, I., Špirić, Z., Stafilov, T., & Kušan, V. (2012). Atmospheric deposition of cadmium in Croatia studied by using moss biomonitoring technique and ICP-AES. Geologica Macedonica, 26, 11–19.
Vučković, I., Špirić, Z., Stafilov, T., & Kušan, V. (2013). Moss biomonitoring of air pollution with chromium in Croatia. Journal of Environmental Science and Health, Part A, 48, 829–834.
Whelpdale, D. M., Summers, P. W., & Sanhueza, E. (1998). A global overview of atmospheric acid deposition fluxes. Environmental Monitoring and Assessment, 48, 217–247.
Wittig, R. (1993). General aspects of biomonitoring heavy metals by plants. In B. Markert (Ed.), Plants as biomonitors—indicators for heavy metals in the terrestrial environment (pp. 3–27). Weinheim: VHC.
Zouboulis, A. I., Loukidou, M. X., & Matis, K. A. (2004). Biosorption of toxic metals from aqueous solutions by bacteria strains isolated from metalpolluted soils. Process Biochemistry, 39, 909–916.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Špirić, Z., Vučković, I., Stafilov, T. et al. Biomonitoring of air pollution with mercury in Croatia by using moss species and CV-AAS. Environ Monit Assess 186, 4357–4366 (2014). https://doi.org/10.1007/s10661-014-3704-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10661-014-3704-y