<strong>Yablokov</strong>: Radioactive Impact on Fauna 277in the <strong>Chernobyl</strong> region, Ukraine. Environ. Toxicol.Chem. 19: 2130–2135.McGee, E. J., Synnott, H. J., Johanson, K. J., Fawaris, B.H., Nielsen, S. P., et al. (2000). <strong>Chernobyl</strong> fallout ina Swedish spruce forest ecosystem. J. Env. Radioact.48(1): 59–78.Medvedev, Zh. A. (1991). Breakthroughs do not becameattacks: Why do Soviet academics’ journalskeep silent about <strong>Chernobyl</strong>? Energy 4: 2–6 (inRussian).Mezhzherin, V. A. & Myakushko, S. A. (1998). Strategiesof small rodent populations in Kanevsky reserveunder habitat condition changes due to the influenceof technogenic contamination and the <strong>Chernobyl</strong>accident. Proc. Acad. Sci. (Biol.) 3: 374–381 (inRussian).Millpointer, K. (1991). Silent summer. Chapter 3. In:Gould, J. M. & Goldman, B. A., Deadly Deceit: Low-Level Radiation–High Level Cover-Up (Four Walls EightWindows, New York): pp. 29–37 (cited by Russiantranslation 2001).Møller, A. P. (1993). Morphology and sexual selectionin the barn swallow Hirundo rustica in <strong>Chernobyl</strong>,Ukraine. Proc. R. Zool. Soc., Lond. 252: 51–57.Møller, A. P. & Mousseau, T. A. (2001). Albinism and phenotypeof barn swallows Hirundo rustica from <strong>Chernobyl</strong>.Evolution 55(10): 2097–2104.Møller, A. P. & Mousseau, T. A. (2006). Biological consequencesof <strong>Chernobyl</strong>: Twenty years on. Trend Ecol.Evol. 2(4): 200–207 (//www.cricket.biol.sc.edu/chernobyl/papers/Møller-Mousseau-TREE-2006-PR1.pdf).Møller, A. P. & Mousseau, T. A. (2007a). Species richnessand abundance of forest birds in relation to radiationat <strong>Chernobyl</strong>. Biol. Lett. Roy. Soc. 3: 483–486(//www.cricket.biol.sc.edu/<strong>Chernobyl</strong>.htm).Møller, A. P. & Mousseau, T. A. (2007b). Birds prefer tobreed in sites with low radioactivity in <strong>Chernobyl</strong>.Proc. Roy. Soc. 274: 1443–1448.Møller, A. P., Hobson, K. A., Mousseau, T. A. & Peklo,A. M. (2006). <strong>Chernobyl</strong> as a population sink forbarn swallows: Tracking dispersal using stable isotopeprofiles. Ecol. Appl. 16: 1696–1705.Møller, A. P., Karadas, F. & Mousseau, T. A. (2008a).Antioxidants in eggs of great tits Parus major from<strong>Chernobyl</strong> and hatching success. J. Comp. Physiol. B.178: 735–743.Møller, A. P., Mousseau, T. A., Lynn, C., Ostermiller, S.& Rudolfsen, G. (2008b). Impaired swimming behaviourand morphology of sperm from barn swallowsHirundo rustica in <strong>Chernobyl</strong>. Mutat. Res. 650:210–216.Møller, A. P., Mousseau, T. A., Milinevsky, G., Peklo, A.,Pysanets, E. & Szép, T. (2005). Condition, reproductionand survival of barn swallows from <strong>Chernobyl</strong>.J. Anim. Ecol. 74: 1102–1111.Mustafin, A. G., Yarygin, V. N., Vakhtel, N. M. & Bybaeva,L. V. (1996). Radiation impact on chromatincharacteristics in neurons of mice exposed in the<strong>Chernobyl</strong> zone. Bull. Exp. Biol. Medic. 5: 555–558(in Russian).Mykytyuk, A. Yu. & Ermakov, A. A. (1990). Low doseionizing radiation’s impact on level basal metabolismin birds. In: Biological and Radioecological Aspectsof the <strong>Chernobyl</strong> Accident and their Consequences(“Nauka,” Moscow): 68–70 (in Russian).Nazarov, A. G., Burlakova, E. B., Pelevyna, I. I.,Oradovskaya, I. V. & Letov, V. N. (2007). <strong>Chernobyl</strong>,biosphere, and humans: Looking into the future.In: Atomic Energy Society Security. Public forum dialog,April 18–19, 2007, Moscow (Russian Green Cross,Moscow): pp. 77–110 (in Russian).Novykov, N. A., Kotomyna, M. G. & Maslov, C. D. (2006).Radioecological monitoring of the technogenic radionuclideplume many years later. Herald Altay AgrarianUniversity 3(23): 17–20. (//www.asau.ru/doc/nauka/vestnik/2006/3/Agroekologiya_Novikov.pdf) (in Russian).Oleinik, V. R. (2005). Veterinary background to manageboars in farms with low radioactive contamination.D.V.M. Thesis (L’vov Academy of VeterinaryMedicine, Lvov): 18 pp. (in Ukrainian).Pelevyna, I. I., Afanas’ev, G. G., Gotlib, V. Ya., Al’ferovich,A. A., Antotchyna, M. M., et al. (1993). Expositionof the cells in cell culture and exposition of animals(mice) in 10-km <strong>Chernobyl</strong> zone: Impact on sensitivityto future irradiation. Radiat. Biol., Radioecol.33(1–4): 508–519.Pelevyna, I. I., Gorlib, A. Ya. & Konradov, A. A. (2006).Twenty years is much too little for estimation of<strong>Chernobyl</strong> consequences. International Scientificand Practical Conference. Twenty Years of <strong>Chernobyl</strong>Catastrophe: Ecological and Sociological Lessons. June5,2006, Moscow (Materials, Moscow): pp. 185–196(//www.ecopolicy.ru/upload/File/conference<strong>book</strong>_2006.pdf) (in Russian).Pel’gunov, A. N., Phylippova, A. Yu. & Pel’gunova,L. A. (2006). An estimation of the movement ofradioactive cesium from terrestrial ecosystems intosettlements as a result of hunting. InternationalScientific and Practical Conference. Twenty Years of<strong>Chernobyl</strong> Catastrophe: Ecological and Sociological Lessons.June 5, 2006, Moscow (Materials, Moscow): pp.105–112 (//www.ecopolicy.ru/upload/File/conference<strong>book</strong>_2006.pdf)(inRussian).Petukhov, V. B. & Kokhnenko, O. S. (1998). Gametogenesisin bream (Abramis brama) and small fry (Rutilusrutilus) in radioactively contaminated Belarussian
278 Annals of the New York Academy of Scienceswater bodies. Herald Nat. Belar. Acad. Sci. (Biol.) 3:115–120 (in Belarussian).Pinchuk, L. B. & Rodionova, N. K. (1995). Impacton blood-forming system. Section 4.2.5.In: Bar’yakhtar, V. G. (Ed.), <strong>Chernobyl</strong> Catastrophe:History, Social, Economical, Geochemical, Medicaland Biological Consequences (“Naukova Dumka,”Kiev) (//www.stopatom.slavutich.kiev.ua/1.htm) (inRussian).Pinchuk, V. G. (1995). Oncological effects. Section4.2.7. In: Bar’yakhtar, V. G. (Ed.), <strong>Chernobyl</strong> Catastrophe:History, Social, Economical, Geochemical, Medicaland Biological Consequences (“Naukova Dumka,”Kiev) (//www.stopatom.slavutich.kiev.ua/1.htm) (inRussian).Pokarzhevsky, A. D., Kryvolutsky, D. A. & Viktorov,A. G. (2006). Soil fauna and radiation accidents.International Scientific and Practical Conference.Twenty Years of <strong>Chernobyl</strong> Catastrophe: Ecological andSociological Lessons. June 5, 2006, Moscow (Materials,Moscow): pp. 205–213 (//www.ecopolicy.ru/upload/File/conference<strong>book</strong>_2006.pdf) (in Russian).Pomerantseva, M. D., Ramaya, L. K. & Chekhovich, A.V. (1996). Genetic monitoring of house mouse populationfrom radionuclide contaminated areas as aresult of the <strong>Chernobyl</strong> accident. Cytol. Genet. 30(4):42–48 (in Russian).Pomerantseva, M. D., Shevchenko, V. A., Ramaya, L. K.& Testvov, I. M. (1990). Genetic damages in housemouse living under increasing radiation background.Genet. 26(3): 46–49 (in Russian).Rantavaara, A. (1987). Radioactivity of vegetables andmushrooms in Finland after the <strong>Chernobyl</strong> accidentin 1986. Report STUK-A59 (Finnish Center for Radiationand Nuclear Safety, Helsinki) (cited by RAD-NET, 2008).Rissanen, K., Ikaheimonen, T. K. & Matishov, D. G.(1999). Radionuclide concentrations in sediment,soil and plant samples from the archipelago of FranzJoseph Land, an area affected by the <strong>Chernobyl</strong> fallout.In: Fourth International Conference. EnvironmentalRadioactivity in the Arctic, Edinburgh, Scotland,September 20–23, 1999 (Abstracts, Edinburgh): pp.325–326.Robbins, J. A. & Jasinski, A. W. (1995). <strong>Chernobyl</strong> falloutradionuclides in Lake Sniardwy, Poland. J. Env.Radioact. 26: 157–184.Ryabokon’, N. I. (1999a). Biological effects in natural populationsof small rodents on radioactively contaminatedterritories: Marrow polyploidy cell frequenciesin red voles in various times after <strong>Chernobyl</strong>catastrophe. Rad. Biol. Radioecol. 39(6): 613–618 (inRussian).Ryabokon’, N. I. (1999b). Genetic monitoring of muriderodents in radioactively contaminated Belarussianterritories. M.D. Thesis (Minsk): 24 pp. (in Russian).Ryabokon’, N. I. & Goncharova, R. I. (2006). Transgenerationalaccumulation of radiation damage in smallmammals chronically exposed to <strong>Chernobyl</strong> fallout.Rad. Env. Biophys. 45(3): 167–177.Ryabokon’, N. I., Smolich, I. I., Kudryashov, I. P. & Goncharova,R. I. (2005). Long-term development of theradionuclide exposure of murine rodent populationsin Belarus after the <strong>Chernobyl</strong> accident. Rad. Env.Biophys. 44: 169–181.Ryabov, I. N. (2002). Long-term observation of radioactivecontamination in fish around <strong>Chernobyl</strong>. In:Imanaka, T. (Ed.), Research Activities on the <strong>Chernobyl</strong>NPS in Belarus, Ukraine and Russia, KURRI-KR-79(Kyoto University, Kyoto): pp. 112–123.Savchenko, V. K. (1995). The Ecology of the <strong>Chernobyl</strong> Catastrophe:Scientific Outlines of an International Programme ofCollaborative Research: Man & the Biosphere Series. V.16. Taylor and Francis, Parthenon Group Ltd., NewYork: 200 pp.Savtsova, Z. D. (1995). Influence on immune system.Section 4.2.4. In: Bar’yakhtar, V. G. (Ed.), <strong>Chernobyl</strong>Catastrophe: History, Social, Economical, Geochemical, Medicaland Biological Consequences (“Naukova Dumka,”Kiev) (//www.stopatom.slavutich.kiev.ua/1.htm) (inRussian).Savtsova, Z. D., Kovbasyuk, S. L. & Judyna, O. J.(1991). Biological effects in animals in connectionwith <strong>Chernobyl</strong> accident: Report 9. Morphologicaland functional parameters of some immunocompetentfactors in mice. Radiobiol. 31(5): 679–686 (inRussian).Saxen, R. & Rantavaara, A. (1987). Radioactivity in freshwater fish in Finland after the <strong>Chernobyl</strong> accidentin 1986: Supplement 6 to Annual Report STUK-A55. Report No. STUK-A61 (Finnish Center forRadiation and Nuclear Safety, Helsinki) (cited byRADNET, 2008).Serkiz, Ya. I. (1995). 4.2.6. Remote consequences, morbidityand longevity. In: Bar’yakhtar, V. G. (Ed.),<strong>Chernobyl</strong> Catastrophe: History of Events, Social, Economic,Geochemical, Medical and Biological Consequences(“Naukova Dumka,” Kiev) (//www.stopatom.slavutich.kiev.ua/1.htm) (in Russian).Serkiz, Ya. I., Indyk, V. M., Pinchuk, L. B., Rodionova,N. K., Savtsova, Z. D., et al. (2003). Short-term andlong-term effects of radiation on laboratory animalsand their progeny living in the <strong>Chernobyl</strong> NuclearPower Plant region. Env. Sci. Pollut. Res. Int. 1: 107–116.Sherlock, J., Andrews, D., Dunderdale, J., Lally, A. &Shaw, P. (1988). The in vivo measurement of radiocesiumactivity in lambs. J. Env. Radioact. 7: 215–220(cited by RADNET, 2008).
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