Free Access
Volume 44, Number 5, 2009
ECORAD 2008 - Radioecology and Environmental Radioactivity
Page(s) 327 - 332
Published online 06 June 2009
  • Jasiulionis R. and Rozkov A. 137Cs activity concentration in the ground-level air in the Ignalina NPP region. Lithuanian Journal of Physics, (2007) Vol.47, N°2, pp. 195–202. [Google Scholar]
  • Masson O. and Cautenet G. Radioecological impact of Saharan dust fallout. Study of a major event over south part of France in February 2004. First Accent Symposium: The changing chemical climate of the atmosphere, Urbino, 12–16/09/2005 [Google Scholar]
  • Goyal S.K. and Chalapati Rao C.V. Assessment of atmospheric assimilation potential for industrial development in an urban environment: Kochi (India). Science of the Total Environment 376 (2007) 27–39. [Google Scholar]
  • Baklanov A., Joffre S.M., Piringer M., Deserti M., Middleton D.R, Tombrou M., Karppinen A., Emeis S., Prior V., Rotach M.W., Bonafè G., Baumann-Stanzer K. and Kuchin A. Towards estimating the mixing height in urban Areas. Recent experimental and modelling results from the COST-715 Action and FUMAPEX project. Scientific Report 06-06. Digital ISBN: 87-7478-540-0 ISSN: 1399–1949 [Google Scholar]
  • Paliouris G., Taylor H.W., Wein R.W., Svoboda J. and Mierzynski B. Fire as an agent in redistributing fallout 137Cs in the Canadian boreal forest. The Science of the Total Environment 160/161(1995) 153–166. [Google Scholar]
  • Amiro, B.D., S.C. Sheppard, F.L. Johnston, W.G. Evenden and D.R. Harris (1996), Burning radionuclide question: What happens to iodine, caesium and chlorine in biomass fires?, Sci. Total Environ., 187, 93–103. [Google Scholar]
  • Johansen, M.P., T.E. Hakonson, F.W. Whicker and D.D. Breshears. 2003. Pulsed redistribution of a contaminant following forest fire: Cesium-137 in runoff. Journal of Environmental Quality 32(6): 2150–2157. [Google Scholar]
  • Dusha-Gudym S.I. Transport of radioactive materials by wildland fires in the Chernobyl accident zone: How to address the problem. International Forest Fire News (IFFN) n°32 January - June 2005,119–125. [Google Scholar]
  • Wotawa G., De Geer L.-E., Becker A., D'Amours R., Jean M., Servranckx R. and Ungar3 K. Inter- and intra-continental transport of radioactive cesium released by boreal forest fires, Geophys. Res. Lett., 33, L12806, doi:10.1029/2006GL026206. [Google Scholar]
  • Lujaniene G., Šapolaite J., Remeikis V., Lujanas V. and Jermolajev A. Cesium, Americium and Plutonium Isotopes in ground level air of Vilnius. Czechoslovak Journal of Physics, Vol. 56 (2006), Suppl. D. [Google Scholar]
  • Blake, N.J., et al. (1999), Influence of southern hemispheric biomass burning on midtropospheric distributions of nonmethane hydrocarbons and selected halocarbons over the remote South Pacific., J. Geophys. Res., 104(D13), 16,213–16,232. [Google Scholar]
  • Pazukhin E.M., Borovoi A.A. and Ogorodnikov B.I. Forest fire as a factor of environmental redistribution of radionuclides originating from Chernobyl accident. Radiochemistry, Vol. 46, No. 1, 2004, pp. 102–106. [Google Scholar]
  • Strebl F., Gerzabek M.H., Bossew P. and Kienzl K. Distribution of radiocaesium in an Austrian forest stand. The Science of the Total Environment, (1999) 226, 75–83. [Google Scholar]
  • Hus M., Kosutic K. and Lulic S. Radioactive contamination of wood and its products. Journal of Environmental Radioactivity 55 (2001) 179–186. [Google Scholar]

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