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Environmental radioactivity

EisenbudM. 1987. Environmental Radioactivity. 3rded. New York Academic Press, Inc. [Pg.235]

It is necessary to pay attention to environmental radioactivity when peaceful applications of nuclear methods are developed for various fields of science and technology. The importance of technetium in environmental safety was socially recognized not so long ago. The Commission of the European Communities... [Pg.22]

III) Determination of Environmental Radioactivity Spa Area in Sanin, J. Jap. Assoc. Phys. Med. Balneol. Climatol. 46 63-75 (1982). [Pg.142]

Iida, T., An Electrostatic Radon Monotor for the Continuous Measurement of Environmental Radon, in Atmospheric Radon Families and Environmental Radioactivity (S Okabe, ed) pp. 65-73, Atomic Energy Society of Japan, Tokyo (1985) (in Japanese). [Pg.174]

The natural cosmic ray background and the environmental radioactivity set a lower limit on measurable counting rates and thus the minimum number of radioactive atoms in the sample. This minimum number increases linearly with the half-life. For 14C the number of atoms present in a sample is given by ... [Pg.53]

Tonelli, D., E. Gattavecchia, S. Ghini, C. Porrini, G. Celli, and A.M. Mercuri. 1990. Honey bees and their products as indicators of environmental radioactive pollution. Jour. Radioanal. Nuclear Chem. 141 427-436. [Pg.1751]

Soudek, P., Valenova, S., Benesova, D., Tykva, R., and Vanek, T., 2006c, Transfer of Ra nuclide from soil to plants during the vegetation period. Journal of Environmental Radioactivity (submited). [Pg.158]

Bonotto, D. M. 1998. Generic performance assessment for a deep repository for low and intermediate level waste in the UK - a case study in assessing radiological impacts on the natural environment. Journal of Environmental Radioactivity, 66, 89-119. [Pg.33]

Fernades, H. M., Franklin, M. R., Veiga, L. H. S., Freitas, P. Gomiero, L. A. 1996. Management of uranium mill tailing geochemical processes and radiological risk assessment. Journal of Environmental Radioactivity, 30, 69-95. [Pg.33]

Lozano, J. C., RodrIguez, P. B. Tome, F. V. 2002. Distribution of long-lived radionuclides of the 23SU series in the sediments of a small river in a uranium mineralized region of Spain. Journal of Environmental Radioactivity, 63, 153-171. [Pg.33]

Salbu, B., Janssens, K., Lind, O. C., Proost, K. Danesi, P. R. 2003. Oxidation states of uranium in DU particles from Kosovo. Journal of Environmental Radioactivity, 64, 167-173. [Pg.87]

Study of the effects of environmental radioactivity on plants and animals, particularly at the population and community levels of biological organization ... [Pg.149]

Eisenbud, M. Gesell, T. 1997. Environmental Radioactivity. Academic Press, San Diego, New York, Toronto. [Pg.151]

Garcia-Olivares, A. Iranzo, C. E. 1997. Resuspension and transport of plutonium in the Palomares area. Journal of Environmental Radioactivity, 37, 101-114. [Pg.151]

Geering, J. J., Froidevaux, P., Schmitler, T., Buchillier, T. Valley, J. F. 2000. Mesures de plutonium et d americium dans Tenvironment. In Voelkle, H. Gobet, M. (eds) Environmental Radioactivity and Radiation Exposure in Switzerland. Swiss Inspectorate for Public Health, Amiual Report 1999, Section B7.2.1-8. [Pg.151]

Kliment, V. Bucina, 1. 1990. Contamination of food in Czechoslovakia by caesium radioisotopes from the Chernobyl accident. Journal of Environmental Radioactivity, 12, 167-178. [Pg.151]

Livens, F. R., Fowler, D. Horill, A. D. 1992. Wet and dry deposition of l3Il, 134Cs and 137Cs at an upland site in northern England. Journal of Environmental Radioactivity, 16, 243 -254. [Pg.151]

Michel, H., Barci-Funel, G., Dalmasso, J., Ardisson, G., Appleby, P. G Haworth, E. El-Daoushy, F. 2002. Plutonium and americium inventories in atmospheric fallout and sedimentary coves from Blelham Tarn, Cumbria, UK. Journal of Environmental Radioactivity, 59, 127-137. [Pg.151]

Montero, P. R. Sanchez, A. M. 2001. Plutonium contamination from accidental release or simply fallout study of soils at Palomares (Spain). Journal of Environmental Radioactivity, 55, 157-165. [Pg.151]

Due, M., Lefevre, G. et al. 2003. Sorption of selenium anionic species on apatites and iron oxides from aqueous solutions. Journal of Environmental Radioactivity, 70, 61-72. [Pg.468]

Merril Eisenbud (1983) [Available also in Environmental Radioactivity, see above]... [Pg.58]

Curie, M. Radioactive Substances, Dover Publications, Inc., Miueola, NY, 2002. Eisenbud. M. and T.F. Gesell Environmental Radioactivity from Natural, Industrial, and Military Sources, 4th Edition, Morgan Kaufmann Publishers, Orlando. FL 1997. [Pg.1416]

The third principal component of environmental radioactivity is that due to the activities of humans, the anthropogenic radionuclides. This group of nuclides includes the previously discussed cases of 3H and 14C along with the fission products and the transuranium elements. The primary sources of these nuclides are nuclear weapons tests and nuclear power plant accidents. These events and the gross nuclide releases associated with them are shown in Table 3.1. Except for 14C and... [Pg.80]

One of the areas in which the skills of radiochemists are used is the area of low-level chemistry and low-level counting. Areas as diverse as the detection of solar neutrinos or the study of environmental radioactivity involve low-level techniques. For example, despite concentration of the radiotracers of interest during sampling procedures in environmental studies, quite often one is left with a sample containing... [Pg.603]

Several reviews on the measurement of environmental radioactivity have been published [60-63]. [Pg.86]

Eisenbud M. 1973. Natural radioactivity. In Environmental radioactivity. New York, NY Academic Press, 159-174. [Pg.81]

Environmental Radioactivity, Proceedings of the Nineteenth Annual Meeting held on April 6-7, 1983 (including Taylor Lecture No. 7) (1983)... [Pg.416]

The radiological impact of the Chernobyl debris compared with that from nuclear weapons fallout. Journal of Environmental Radioactivity, 6,151-62. Aarkrog, A. Lippert, J. (1971) Direct contamination of barley with 51 Cr,59Fe,58 Co, 65Zn, 203Hg and 210Pb. Radiation Botany, 11, 463-72. [Pg.108]

Fulker, M.J. (1987) Aspects of environmental monitoring by British Nuclear Fuels pic following the Chernobyl reactor accident. Journal of Environmental Radioactivity, 5, 235-44. [Pg.111]

Hotzl, H., Rosner, G. Winkler, R. (1989) Long term behaviour of Chernobyl fallout in air and precipitation. Journal of Environmental Radioactivity, 10, 157-71. [Pg.111]

Jaworowski, Z. Kownacka, L. (1988) Tropospheric and stratospheric distributions of radioactive iodine and caesium after the Chernobyl accident. Journal of Environmental Radioactivity, 6,145-50. [Pg.111]

Dreicer, M. Klusek, C.S. (1988) Transport of 1311 through the grass-cow-milk pathway. Journal of Environmental Radioactivity, 7, 201-7. [Pg.149]

See other pages where Environmental radioactivity is mentioned: [Pg.144]    [Pg.58]    [Pg.22]    [Pg.26]    [Pg.28]    [Pg.348]    [Pg.151]    [Pg.56]    [Pg.169]    [Pg.245]    [Pg.181]    [Pg.89]    [Pg.496]   
See also in sourсe #XX -- [ Pg.395 ]

See also in sourсe #XX -- [ Pg.2506 ]



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Radioactive nuclides as tracers of environmental processes

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