Air pollution study in Macedonia using a moss biomonitoring technique, ICP-AES and AAS

Lambe Barandovski; Trajce Stafilov; Robert Sajn; Marina Frontasyeva; Katerina Baceva

doi:10.20450/mjcce.2013.137

Authors

Lambe Barandovski Institute of Physics, Faculty of Science, Ss. Cyril and Methodius University, POB 162, 1000 Skopje, Macedonia
Trajce Stafilov Institute of Chemistry, Faculty of Natural Sciences and Mathematics, Ss. Cyril & Methodius University, Skopje
Robert Sajn Geological Survey of Slovenia, Dimičeva ul. 14, 1000 Ljubljana, Slovenia
Marina Frontasyeva Frank Laboratory of Neutron Physics, Joint Institute for Nuclear Research, 141980 Dubna, Moscow Region, Russia
Katerina Baceva Institute of Chemistry, Faculty of Science, Ss. Cyril and Methodius University, POB 162, 1000 Skopje, Macedonia

DOI:

https://doi.org/10.20450/mjcce.2013.137

Keywords:

Moss, biomonitoring, air pollution, heavy metals, Macedonia

Abstract

In the framework of the International Cooperative Programme on Effects of Air Pollution on Natural Vegetation and Crops under the auspices of the United Nations Economic Commission for Europe (UNECE-ICP Vegetation) Convention on Long-Range Transboundary Air Pollution (LRTAP), in 2002 and 2005, a moss biomonitoring technique was applied to air pollution studies in the Republic of Macedonia. The third moss survey took place in August and September 2010 when 72 samples of the terrestrial mosses Homalothecium lutescens and Hypnum cupressiforme were collected over the territory of the Republic of Macedonia, using the same sampling network grid as for the previous surveys. Using inductively coupled plasma-atomic emission spectrometry (ICP-AES) and atomic absorption spectrometry (AAS), a total of 18 elements (Al, Ba, Ca, Cd, Cr, Cu, Fe, Hg, K, Li, Mg, Mn, Ni, P, Pb, Sr, V and Zn) were determined. To reveal hidden multivariate data structures and to identify and characterize different pollution sources, Principal Component Analysis was used. Distributional maps were prepared to point out the regions most affected by pollution and related to known sources of contamination. As in the previous surveys, the regions near the towns of Skopje, Veles, Tetovo, Radoviš and Kavadarci were found to be most affected by pollution, even though the median elemental content in the mosses in 2010 for Cd, Cr, Cu, Ni, Pb and Zn was slightly lower than in the previous surveys. For the first time, P content in the moss samples was analyzed, and a higher content of this element as well as K in the mosses was observed in the agricultural regions of the country.

References

REFERENCES

H. T. Wolterbeek, Biomonitoring of trace element air pollution: Principles, possibilities and perspectives, Environ. Poll., 120, 11–21 (2002).

K. Szczepaniak, M. Biziuk, Aspects if the biomonitoring studies using mosses and lichens as indicators of metal pollution, Environ. Res., 93, 221-230 (2003).

Å. Rühling, G. Tyler, Heavy metal deposition in Scandinavia, Water, Air Soil Poll., 2, 445–455 (1973).

Å. Rühling, E. Steinnes, Atmospheric heavy metal deposition in Europe 1995–1996, NORD Environment, NORD 1998:15, 1998.

H. Harmens, A. Buse, P. Büker, D. Norris, G. Mills, B. Williams, Heavy metal concentrations in European mosses: 2000/2001 survey, J. Atmos. Chem. 49, 425–436 (2004).

S. S. Groet, Regional and local variations in heavy metal concentrations of bryophytes in the northeastern United States, Oikos 27, 445–456 (1976).

K. E. Percy, Heavy metal and sulphur concentrations in Sphagnum Magellanicum Brid. in the maritime provinces, Canada, Water Air Soil Poll. 19, 341–349 (1982).

C. Elias, E.A.N. Fernandes, E. J. França, M. A. Bacchi, F. S. Tagliaferro, Native bromeliads as biomonitors of airborne chemical elements in a Brazilian restinga forest. J. Radioanal. Nucl. Chem., 278, 423–427 (2008).

C. S. L. Lee, X. Li, G. Zhangb, X. Pengb, L. Zhangc, Biomonitoring of trace metals in the atmosphere using moss (Hypnum plumaeforme) in the Nanling Mountains and the Pearl River Delta, Southern China. Atmos. Environ., 39, 397–407 (2005).

D. Čeburnis, D. Vailiulis, Investigation of absolute metal uptake efficiency from precipitation in moss. Sci. Total Environ., 226, 247-253 (1999).

O. A. Culicov, R. Mocanu, M. V. Frontasyeva, L. Yurukova, E. Steinnes, Active moss biomonitoring applied to an industrial site in Romania: relative accumulation of 36 elements in moss-bags, Environ. Monit. Assess., 108, 229–240 (2005).

M. Aničić, M. Tasić, M. V. Frontasyeva, M. Tomašević, S. Rajšić, Z. Mijić, A. Popović, Active moss biomonitoring of trace elements with Sphagnum girgensohnii moss bags in relation to atmospheric bulk deposition in Belgrade, Serbia, Environ. Poll., 157, 673–679 (2009).

M. Aničić, M. Tomašević, M. Tasić, S. Rajšić, A. Popović, M. V. Frontasyeva, S. Lierhagen, E. Steinnes, Monitoring of trace element atmospheric deposition using dry and wet moss bags: Accumulation capacity versus exposure time, J. Hazard. Mater., 171, 182–188 (2009).

E. Gjengedal, E. Steinnes, Uptake of metal ions in moss from artificial precipitation. Environ. Monit. Assess., 14, 77–87 (1990).

T. Berg, O. Røyset, E. Steinnes, Moss (Hylocomium splendens) used as biomonitor of atmospheric trace element deposition: Estimation of uptake efficiencies. Atmos. Environ., 29, 353–360 (1995).

T. Berg, E. Steinnes, Use of mosses (Hylocomium splendens and Pleurozium schreberi) as biomonitors of heavy metal deposition: From relative to absolute values. Environ. Poll., 98, 61–71 (1997).

D. Čeburnis, E. Steinnes, K. Kveitkus, Estimation of metal uptake efficiencies from precipitation in mosses in Lithuania. Chemosphere 38, 445–455 (1999).

International Cooperative Programme on Effects of Air Pollution on Natural Vegetation and Crops Heavy metals in european mosses: 2005/2006 survey, Monitoring manual, http://icpvegetation.ceh.ac.uk/ publications.htm, 2005.

L. Galsomiès, M. A. Letrouit, C. Dechamps, D. Savanne, M. Avnaim, Atmospheric deposition in France: Initial results on moss calibration from the 1996 biomonitoring, Sci. Total Environ. 232, 39-47 (1999).

L. Barandovski, M. Cekova, M. V. Frontasyeva, S.S. Pavlov, T. Stafilov, E. Steinnes, V. Urumov, Air pollution studies in Macedonia using the moss biomonitoring technique, NAA, AAS and GIS technology; Preprint E18–2006–160, Joint Institute for Nuclear Research, Dubna, 2006.

L. Barandovski, M. Cekova, M. V. Frontasyeva, S.S. Pavlov, T. Stafilov, E. Steinnes, V. Urumov, Atmospheric deposition of trace element pollutants in Macedonia studied by the moss biomonitoring technique, Environ. Monitor. Assess., 138, 107–118 (2008).

L. Barandovski, M. V. Frontasyeva, T. Stafilov, R. Šajn, S. Pavlov, V. Enimiteva. Trends of atmospheric deposition of trace elements in Macedonia studied by the moss biomonitoring technique, J.Environ. Sci. Heal. A, 47, 2000–2015(2012).

J. Stamenov, M. Iovchev, B. Vachev, E. Gueleva, L. Yurukova, A. Ganeva, M. Mitrikov, A. Antonov, A. Srentz, Z. Varbanov, I. Batov, K. Damov, E. Marinova, M. V. Frontasyeva, S. S. Pavlov, L. P. Strelkova, New results from air pollution studies in Bulgaria (Moss survey 2000–2001), Preprint E14–2002–204, Joint Institute for Nuclear Research, Dubna 2002.

S. Marinova, L. Yurukova, M. V. Frontasyeva, E. Steinnes, L. P. Strelkova, A. Marinov, A. G. Karadzhinova, Air pollution studies in Bulgaria using the moss biomonitoring technique, Ecol. Chem. Eng. S, 17, 37-52 (2010).

M. V. Frontasyeva, T. Ye. Galinskaya, M. Krmar, M. Matavuly, S. S. Pavlov, E. A. Povtoreyko, D. Radnovic, E. Steinnes, Atmospheric deposition of heavy metals in northern Serbia and Bosnia– Herzegovina studied by the moss biomonitoring, neutron activation analysis and GIS technology, J. Radioanal. Nucl. Chem., 259, 141–144 (2004).

O. Stan, A. Lucaciu, M. V. Frontasyeva, E. Steinnes, New results from air pollution studies in Romania. Proceedings of NATO ARW “Man-Made Radionuclides and Heavy Metals in Environment”, M. V. Frontasyeva, P. Vater, V. P. Perelygin (Eds.), Kluwer Academic Publishers, NATO Science Series, IV Earth and Environmental Sciences, Vol. 5, 2001, pp. 179-190.

S. Cucu-Man, R. Mocanu, O. Culicov, E. Steinnes, M. Frontasyeva, Atmospheric deposition of metals in Romania studied by biomonitoring using the epiphytic moss Hypnum cupressiforme, Int. J. Environ. Anal. Chem., 84, 845–854 (2004).

E. Steinnes, T. Berg,. T. E. Sjøbakk, H. Uggerud, M. Vadset, Atmospheric deposition of heavy metals in Norway Nation-wide Survey 2000. Report, State Pollution Control Authority, Oslo 2001.

H. Harmens, D. A. Norris, E. Steinnes, E. Kubin, J. Piispanen, R. Alber, Y. Aleksiayenak, O. Blum, M. Coşkun, M. Dam, L. De Temmerman, J. A. Fernández, M. Frolova, M. Frontasyeva, L. González-Miqueo, K. Grodzińska, Z. Jeran, S. Korzekwa, M. Krmar, K. Kvietkus, S. Leblond, S. Liiv, S. H. Magnússon, B. Maňkovská, R. Pesch, A. Rühling, J. M. Santamaria, W. Schröder, Z. Spiric, I. Suchara, L. Thöni, V. Urumov, L. Yurukova, H. G. Zechmeister, Mosses as biomonitors of atmospheric heavy metal deposition: spatial and temporal trends in Europe, Environ. Poll., 158, 3144-3156 (2010).

H. Harmens, D. Norris, J. Aboal Viñas, R. Alber, Y. Aleksiayenak, M. Ashmore, L. Barandov¬ski, T. Berg, R. Bermejo, O. Blum, A. Carballeira Ocaña, A. Çayir, M. Cokun, Mü. Cokun, M. Dam, H. Dieffenbach-Fries, D. Elustondo, E. Ermakova, A. Fernández Escribano, M. Florek, M. Fro¬lo¬va, M. Fron¬ta¬sy¬eva, L. Galsomiès, B. Godzik, L. González-Miqueo, K. Grodziska, K. Grod¬ziska, K. Jar¬vis, Z. Jeran, C. Jor¬dan, P. Kapusta, J. Karhu, M. Krmar, E. Kubin, K. Kviet¬kus, E. Lasheras, S. Leb¬lond, S. Liiv, A. Lloyd, B. Makovská, S. Marinova, S.H. Magnússon J. Meresova, O. Niko¬de¬mus, T. Ol¬s¬son, J. Oszlanyi, Y. Pank¬ra¬to¬va, R. Pesch, J. Piispanen, J. Poi¬ko¬lainen, D. Rad¬no¬vich, C. Rausch–de Traubenberg, A. Riss, Å. Rühling, J.J. M. San¬ta¬ma¬ría, L.W. Schröder, Z. Spi¬ric, T. Stafilov, E. Steinnes, L. Strel¬ko¬va, I. Su¬chara, J. Sucha¬ro¬vá, G. Szarek-Ukaszewska, K. Szy¬mon, G. Tabors, L. Thöni, G. De Tem¬mer¬man, H. Uggerud, V. Uru¬mov, L. Yurukova, K. Vergel, H. Zech¬¬me¬¬is¬ter, Spatial and tem¬po¬¬ral trends in heavy metal accu¬mu¬lation in mos¬¬ses in Europe (1990-2005), H. Harmens and D. Noris, eds., Programme Coordination Cen¬tre FOR THE ICP Vege¬ta¬tion, Centre for Ecology & Hydrology, Natural Environ¬ment Research Council, Bangor, UK, 2008.

State Statistical Office of the Republic of Macedonia, Population and Social Statistics, Skopje, Republic of macedonia, 2011.

T. Stafilov, R. Šajn, Z. Pančevski, B. Boev, M. V. Frontasyeva, L. P. Strelkova, Heavy metal contamination of surface soils around a lead and zinc smelter in the Republic of Macedonia, J. Hazard. Mater., 175, 896-914 (2010).

T. Stafilov, R. Šajn, B. Boev, J. Cvetković, D. Mukaetov, M. Andreevski, S. Lepitkova, Dis¬tribution of some elements in surface soil over the Kavadarci Region, Republic of Macedonia. Environ. Earth. Sci., 61, 1515-1530 (2010).

B. Balabanova, T. Stafilov, R. Šajn, K. Bačeva, Characterisation of heavy metals in lichen species Hypogymnia Physodes and Evernia Prunastri due to biomonitoring of air pollution in the vicinity of copper mine, Int. J. Environ. Res., 6, 779-792 (2012).

B. Balabanova, T. Stafilov, R. Šajn, K. Bačeva, Distribution of chemical elements in attic dust as reflection of lithology and anthropogenic influence in the vicinity of copper mine and flotation. Arch. Environ. Contam. Toxicol., 6, 173–184 (2011).

K. Bačeva, T. Stafilov, R. Šajn, C. Tănăselia, S. I. Popov, Distribution of che¬mi¬cal elements in attic dust in the vicinity of ferronickel smelter plant, Fresen. Envi¬ron. Bull., 20, 2306-2314 (2011).

K. Bačeva, T. Stafilov, R. Šajn, C. Tănăselia, Moss biomonitoring of air pollution with heavy metals in the vicinity of a ferronickel smelter plant, J Environ Sci Health A, 47, 1-13 (2012).

N. Dumurdzanov, T. Serafimovski, B. C. Burchfiel, Cenozoic tectonics of Macedonia and its relation to the South Balkan extensional, Geosphere 1, 1-22 (2005).

G. Jovanovski, B. Boev, P. Makreski, Minerals from the Republic of Macedonia with an introduction to mineralogy. Macedonian Academy of Sciences and Arts, Skopje, 2012.

United Nations Economic Commission For Europe Convention On Long-Range Transboundary Air Pollution monitoring Of Atmospheric Heavy Metal Deposition In Europe Using Bryophytes, Monitoring Manual 2005/2006 Survey, 2005.

E. Steinnes, Å. Rühling, H. Lippo, A. Mäkinen, Reference material for large-scale metal deposition surveys. Accredit. Qual. Assur., 2 243–249 (1997).

G. W. Snedecor, W. G. Cochran Statistical methods, The Iowa State University Press, Ames, Iowa, 1967.

M. Hollander, D. A. Wolfe, Nonparametric statistical methods, 2nd Edition, John Wiley & Sons, New York, 1999.

R. W. Le Maitre, Numerical Petrology, Statistical interpretation of geochemical data. Elsevier, Amsterdam, 1982.

J. C. Davis, Statistic and data analysis in geology, Willey & Sons, New York, 1986.

C. Reimann, P. Filzmoser, R. G. Garrett, Factor analysis applied to regional geochemical data: problems and possibilities. App. Geochem., 17, 185-206 (2002).

P. Filzmoser, R. G. Garrettb, C. Reimann, Multivariate outlier detection in exploration geochemistry. Comput. Geosci., 31, 579–587 (2005).

R. Beelen, G. Hoek, E. Pebesma, D. Vienneaud, K. de Hoogh, D. J. Briggs, Mapping of background air pollution at a fine spatial scale across the European Union. Sci. Total. Environ., 407, 1852–1867 (2009).

E. Steinnes, T. Berg, H. T. Uggerud, K. A. Pfaffhuber, Atmostærisk nedfall av tungmetaller i Norge Landsomfattende undersøkelse i 2010, Stallig program for forurensningsovervåking, Rappotur 1109/2011, 2011 (in Norvegian).

F. W. Fifield, P. J. Haines, Environmental analytical chemistry, Blackie Academic & Professional, London, 1995.

Z. Špirić, M. Frontasyeva, E. Steinnes, T. Stafilov, Multi-element atmospheric deposition study in Croatia, Int. J. Environ. Anal. Chem., 92, 1200-1214 (2012).

S. Marinova, L. Yurukova, M. V. Frontasyeva, E. Steinnes, L. P. Strelkova, A. Marinov, A. G. Karadzhinova, Air pollution studies in Bulgaria using the moss biomonitoring technique, Ecol. Chem. Eng. S, 17, 37-52 (2010).

M. Coşkun, M.V. Frontasyeva, E. Steinnes, A. Y. Çotuk, S. S. Pavlov, A. S. Sazonov, A. Çayir, M. Belivermis, Atmosperic deposition of heavy metals in Thrace studied by analysis of moss (Hypnum cupresiforme), Bull. Environ. Contam. Toxicol., 74, 201-209 (2005).

T. Stafilov, L. Peeva, B. Nikov, A. de Koning, Industrıal hazardous waste ın the Re¬publıc of Macedonıa, Applied Environmental Geochemistry – Anthropo¬ge¬nic İmpact on Human Environment in the SE Europe, Proceedings Book (R. Šajn, G. Žilbert, J. Alijagić, Eds.), Geological Survey of Slovenia, Ljubljana, 2009, pp. 108-112.

J. M. Serafimovska, S. Arpadjan, T. Stafilov, S. Ilik Popov, Dissolved inorganic antimony, se¬le¬nium and tin species in water samples from various sampling sites of river Vardar (Macedonia/Greece), Maced. J. Chem. Che¬m. Eng., 30, 181-188 (2011).

A. Lazarevski, Climate in Macedonia, Kultura, Skopje Republic of Macedonia, 1993 (in Macedonian).

T. Stafilov, R. Šajn, B. Boev, J. Cvetković, D. Mukaetov, M. Andreevski, Geochemical atlas of Kavadarci and the environs, Faculty of Natural Sciences and Mathematics, Skopje, 2008.

T. Stafilov, R. Šajn, B. Balabanova, K. Bačeva, Distribution of heavy metals in attic and deposited dust in the vicinity of copper ore processing and ferronickel smelter plants in the Republic of Macedonia, In: Dust: Sources, Environmental Concerns and Control, L. B. Wouters, M. Pauwels (Eds.), Science Publishers, Hauppauge, NY,; ISBN: 978-1-61942-566-8, 2012.

F. De Corte, E. Steinnes, P. de Neve, A. Simonits, Importance of double neutron-capture as a second-order reaction interference in NAA, J. Radioanal. Nucl. Chem., 215, 279-282 (1997).

Air pollution study in Macedonia using a moss biomonitoring technique, ICP-AES and AAS

Authors

DOI:

Keywords:

Abstract

References

Downloads

Published

How to Cite

Issue

Section

License

Most read articles by the same author(s)

Information

Make a Submission

Browse

Developed By