Abstract
The distribution of 11 individual polycyclic aromatic hydrocarbons (PAHs) was analysed in a 210Pb dated sediment core from the deepest area of Lake Peipsi and in four surface sediment samples taken from littoral areas. According to the concentrations in the core three groups of PAHs may be distinguished: (1) relatively stable concentrations of PAHs within the whole studied time interval; (2) very low concentrations in sediments accumulated before intensive anthropogenic impact (from 19th century up to the 1920s) following a slight increase and (3) an overall increase in PAH concentrations since the 1920s up to the present. Comprehensive analysis of PAHs in the core and monitoring data obtained in the 1980s together with the lithology of sediments show that an increase of anthropogenically induced PAHs correlates well with the history of fuel consumption in Estonia and speaks about atmospheric long-distance transport of PAHs. The continuous increase of PAH concentrations since the 1920s do not support the earlier hypothesis about the dominating impact of the oil shale fired power plants near the lake, because their emissions decreased significantly in the 1990s. The concentration of PAHs in the deep lake core sample correlates well with the content of organic matter, indicating absorption and co-precipitation with plankton in the sediment.
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Appleby, P. G., Nolan, P. J., Gifford, D. W., Godfrey, M. J., Oldfield, F., Anderson, N. J., et al. (1986). 210Pb dating by low background gamma counting. Hydrobiologia, 141, 21–27.
Behymer, T. D., & Hites, R. A. (1988). Photolysis of polycyclic aromatic hydrocarbons adsorbed on fly ash. Environmental Science & Technology, 22, 1311–1319.
Cripps, G. C. (1989). Problems in the identification of anthropogenic hydrocarbons against natural background levels in the Antarctic. Antarctic Science, 1, 307–312.
Dahle, S., Savinov, V. M., Matishov, G. G., Evenset, A., & Naes, K. (2003). Polycyclic aromatic hydrocarbons (PAH) in bottom sediments in the Kara Sea shelf, Gulf of Ob and Yenissei Bay. Science of the Total Environment, 306, 57–71.
Environmental review 2005. (2005). (Tallinn: Estonian Environment Information Centre)
Fang, G.-C., Wu, Y.-S., Chen, J.-C., Chang, C.-N. & Ho, T.-T. (2006). Characteristic of polycyclic aromatic hydrocarbon concentration and source identification for fine and coarse particulates at Taichung Harbor near Taiwan Strait during 2004–2005. Science of the Total Environment, 366, 729–738.
Fragoso, N. M., Hodson, P. V., & Zambon, S. (2006). Evaluation of an exposure assay to measure uptake of sediment Pah by fish. Environmental Monitoring and Assessment, 116, 481–511.
Heath, E., Ogrinic, N., Faganelli, J. & Covelli, S. (2006). Sedimentary record of polycyclic aromatic hydrocarbons in the Gulf of Trieste (Northern Adriatic Sea). Water Air Soil Pollut Focus, 6, 605–614.
Jaani, A. (2001). Waves. In T. Nõges (Ed.), Lake Peipsi. Meteorology, hydrology, hydrochemistry (pp. 64–65). Tartu: Sulemees Publishers.
Johnson, M. D., Keinath, T. M. & Weber, W. J. (2001). A distributed reactivity model for sorption by soils and sediments. 14. Characterization and modelling of phenanthrene desorption rates. Environmental Science & Technology, 35, 1688–1695.
Kangur, M., Kangur, K., Punning, J.-M., Laugaste, R., & Möls, T. (2007). Comparison of palaeolimnological record and monitoring data from L. Pskov. Hydrobiologia, 584, 121–132.
Ke, L., Yu, K. S. H., Wong, Y. S., & Tam, N. F. Y. (2005). Spatial and vertical distribution of polycyclic aromatic hydrocarbons in mangrove studies. Science of the Total Environment, 340, 177–187.
Kirso, U., & Irha, N. (1998). Role of algae in fate of carcinogenic polycyclic aromatic hydrocarbons in aquatic environment. Ecotoxicology and Environmental Safety, 41, 83–89.
Kirso, U., Urb, G., Laja, M., Teinemaa, E., Reinik, J., Gebefügi, I., et al. (2006). PAH in airborne particulate matter. Polycyclic Aromatic Compounds, 26, 111–119.
Kullus, L.-P. (1976). Water balance of Lake Peipsi-Pihkva. In A. Raukas & L. Tulp (Eds.), Estonia Regional studies (pp. 71–78). Tallinn: Academy of Science.
Last, W. M. (2001). Textural analysis of lake sediments. In W. M. Last & J. P. Smol (Eds.), Tracking Environmental Change Using Lake Sediments. Volume 2 – Physical and Geochemical Methods (pp. 41–81). London: Kluwer Academic Publishers.
Nõges, T. (2001). Introduction. In T. Nõges, (Ed.), Lake Peipsi. Meteorology, hydrology, hydrochemistry (pp. 8–9). Tartu: Sulemees Publishers.
Nõges, T., Heinsalu, A., Alliksaar, T., & Nõges, P. (2006). Paleolimnological assessment of eutrophication history of large transboundary, Lake Peipsi, Estonia/Russia. Verhandlungen der Internationalen Vereinigung für Theoretische und Angewandte Limnologie, 29, 1135–1138.
Paalme, L., Voll, M., Urbas, E., Johannes, H., Palvadre, P., & Kirso, U. (1988). Peipsi järve atmosfäärsest reokoormusest. In T. Frey (Ed.), Kaasaegse ökoloogia probleemid (pp. 102–105). Tartu.
Pikkarainen, A.-L. (2004). Polycyclic Aromatic Hydrocarbons in the Baltic Sea sediments. Polycyclic Aromatic Compounds, 14, 667–679.
Punning, J.-M., & Leeben, A. (2003). A comparison of sediment and monitoring data: implications for paleomonitoring a small lake. Environmental Monitoring and Assessment, 89, 1–15.
Punning, J.-M., Liblik, V., & Alliksaar, T. (1997). History of fly ash emission and palaeorecords of atmospheric deposition in the oil shale combustion area. Oil Shale, 14, 347–362.
Quiroz, R., Popp, P., Urrutia, R., Bauer, C., Araneda, A., Treutler, H.-C. et al. (2005). PAH fluxes in the Laja Lake of south central Chile Andes over the last 50 years: Evidence from a dated sediment core. Science of the Total Environment, 349, 150–160.
Suess, M. J. (1976). The environmental load and cycle of polycyclic aromatic hydrocarbons. Science of the Total Environment, 6, 239–250.
Teinemaa, E., Kirso, U., Strommen, M. R., & Kamens, R. M. (2002). Atmospheric behaviour of oil-shale combustion fly ash in a chamber study. Atmospheric environment, 36, 813–824.
Trapido, M., & Veldre, I. (1996). On polynuclear aromatic hydrocarbons contamination levels in the ecosystem of Lake Peipsi in the 1970s–1980s. Hydrobiologia, 338, 185–190.
Vaine, C. H., Harrison, I., & Kim, A. W. (2007). Polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs) in sediments from the Mersey Estuary, U. K. Science of the Total Environment, 374, 112–126.
Veldre, I., Itra, A., & Trapido, M. (1987). Polütsüklilised areenid Peipsi järves ja sissevooludes. Eesti Loodus, 3, 136–142.
Veldre, I., Trapido, M., & Karlova, S. (2001). Carcinogenic compounds in Lake Peipsi and its inflows in the 1970 and 1980s. In T. Nõges (Ed.), Lake Peipsi. Meteorology, hydrology, hydrochemistry (pp. 132–138). Tartu: Sulemees Publishers.
Zhang, X., Christensen, E. R., & Gin, M. F. (1993). Polycyclic aromatic hydrocarbons in dated sediments from Green Bay and Lake Michigan. Estuaries, 16, 638–652.
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Punning, JM., Terasmaa, J., Vaasma, T. et al. Historical changes in the concentrations of polycyclic aromatic hydrocarbons (PAHs) in Lake Peipsi sediments. Environ Monit Assess 144, 131–141 (2008). https://doi.org/10.1007/s10661-007-9951-4
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DOI: https://doi.org/10.1007/s10661-007-9951-4