references |
Abaturov, Y. D., A. V. Abaturiv, A. V. Bykov, [et al.]. 1996. Imact of ionizing radiation on pine tree forests in the closest area of Chernobyl NPP. Nauka, Moscow, 1–240. [Russian]
Akimov, I. A. 1999. Main directions of research, protection and reintroduction of Przewalski’s horse into nature. Vestnik Zoologii, 33 (6): 123–124. [Ukrainian]
Akimov, I. A., G. M. Dvoinos, V. I. Kryzhanivskyi. 1999. About prospects of recovery of hystorical faunistic complexes of Polissia, and possibilities of introduction and reintroduction of some animal species into the exclusion zone and zone of unconditional (compulsory) resettlement (as discussion). Bulletin of Ecological State of the Exclusion Zone and Zone of Unconditional Resettlement, 14: 40–41. [Ukrainian]
Akimov, I. A. (ed.). 1999. Przewalski’s horse (Equus przewalskii Poll., 1881). Problems of conservation and reintroduction in nature: Proceedings of 6th International symposium. Vestnik zoologii. Suppl. 11: 1–240. [Russian] http://mail.izan.kiev.ua/vz-pdf/suppl/Supplement%201999-11.pdf
Antwis, R. E., N. A. Beresford, J. A. Jackson, [et al.]. 2021. Impacts of radiation exposure on the bacterial and fungal microbiome of small mammals in the Chernobyl Exclusion Zone. Journal of Animal Ecology, 90: 2172–2187. https://doi.org/10.1111/1365-2656.13507
Baker, R. J., M. J. Hamilton, R. Bussche, [et al.]. 1996. Small mammals from the most radioactive sites near the Chornobyl nuclear power plant. Journal of Mammalogy, 77 (1), 155–170. https://doi.org/10.2307/1382717
Baker, R. J., A. M. Bickham, M. Bondarkov, [et al.]. 2001. Consequences of polluted environments on population structure: The bank vole (Clethrionomys glareolus) at Chornobyl. EcoToxicology, 10 (4): 211–216. https://doi.org/10.1023/A:1016665226716
Baker, R. J., B. Dickins, J. Wickliffe, [et al.]. 2017. Elevated mitochondrial genome variation after 50 generations of radiation exposure in a wild rodent. Evolutionary Applications, 10 (8): 1–8. https://doi.org/10.1111/eva.12475
Balashov, L. S., L. I. Frantsevich, Y. I. Sherstiuk. 1996. State of objects of natural-reserved fund in the exclusion zone. Problems of the Chornobyl exclusion zone, 4: 3–12. [Russian]
Balashov, L. S., V. A. Gaichenko, L. I. Frantsevich, S. M. Kolomiets. 1999. ‘The Red book of Ukraine’ in the exclusion zone. Bulletin of Ecological State of the Exclusion Zone and Zone of Unconditional Resettlement, 14: 35–37. [Ukrainian]
Balashov, L., V. Gaichenko, V. Kryzhanivskii, L. Frantsevich. 1992. Secondary ecological changes on the depopulated territories. Oikumena, 2: 31–43. [Ukrainian]
Boiarchuk, V. P., V. I. Kryzhanovskii, A. D. Kolesnik, [et al.]. 1990. Game resources of the 30-km zone and the strategy of use of them. Reports of 2nd All-Union scientific and technical meeting on results of elimination of the accident consequences on the Chernobyl NPP. Chernobyl, 6 (3): 435–438. [Russian]
Bondarkov, M. D., S. P. Gaschak, B. Y. Oskolkov, [et al.]. 2011. Overview of the cooperation between the Chernobyl Center's International Radioecology Laboratory in Slavutych, Ukraine, and U.S. Research Centers between 2000 and 2010. Health Physics, 101 (4): 338–348. https://doi.org/10.1097/HP.0b013e318220784a
Burdo, О. О., А. I. Lypska, N. M. Riabchenko, O. A. Sovа. 2020. Peculiarities of hematopoiesis in small rodents from the Chornobyl Exclusion Zone on the background of extreme environment. Journal of Environmental Radioactivity, 211: 105758. https://doi.org/10.1016/j.jenvrad.2018.06.023
Byrne, M. E., S. C. Webster, S. L. Lance, [et al.]. 2018. Evidence of long-distance dispersal of a gray wolf from the Chernobyl Exclusion Zone. European Journal Wildlife Research, 64: 39. https://doi.org/10.1007/s10344-018-1201-2
Deryabina, T. G. 2008. Distribution and number of the large mammals (bison, bear, lynx, badger) included into the Red Book of Belarus Republic in the territory of Paliessie State Radiation and Ecology Reserve. In: Antsipov, G. V. (ed.). Faunal Studies in Paliessie State Radiation and Ecology Reserve. Homel: Institute of Radiology, 19–35. [Russian]
Deryabina, T. G. 2013. Przewalski’s horse (Equus przewalskiiPoljakov): observation results of an invasive species. In: Bondar, Y. I. (ed.) Ecosystems and Radiation: Aspects of Being and Development. Institute of Radiology, Minsk, 301–308. [Russian]
Deryabina, T. G., S. V. Kuchmel, L. L. Nagorskaya, [et al.]. 2015. Long-term census data reveal abundant wildlife populations at Chernobyl. Current Biology, 25 (19): PR824–R826. https://doi.org/10.1016/j.cub.2015.08.017
Dykyy, І. V., M. H. Shkvyria, P. B. Khoyetskyy. 2015. Current status of the brown bear population in Ukraine: spatial structure and environmental features, quantity and research methods. In: I. V. Dykyy, M. H. Shkvyria (eds). The Brown Bear (Ursus arctos): Problems of Preservation and Investigation of Its Population in Ukraine. Sik Group Ukraine, Kyiv, 36–72. [Ukrainian]
Dombrovsky, V. Ch. 2017. Results of bat (Chiroptera) survey in Polessky state radiation and ecological reserve in 2016–2017. Actual Problems of Zoological Science in Belarus. Volume 1. Proceedings of XI zoological conference (Belarus, Minsk, 1–3 November 2017), Minsk, 105–112. [Russian]
Dombrovski, V. C., D. I. Shamovich, J. Beasley, [et al.]. 2017a. If not shoot: number, territorial structure and predation of wolf in winter period 2016–2017 in the exclusion zone of the Chernobyl NPP. In: Actual Aspects of Theriological Studies: Problems and Prospects. Proceedings of International Conference. Minsk, 93–97. [Russian]
Dombrovski, V. C., J. Beasley, P. Schlichting, [et al.]. 2017b. Phenology of reproduction, distribution of breeding dens and reproductive behavior of alone she-wolf Canis lupus on data of satellite tracking and camera traps in the Chernobyl zone (Belarus). In: Actual Aspects of Theriological Studies: Problems and Prospects. Proceedings of International Conference. Minsk, 37–46. [Russian]
Dombrovski, V. C. 2018. Maternity colonies of Myotis brandtii in the Polesie State Radiation-Ecological Reserve. Theriologia Ukrainica, 16: 91–94. https://doi.org/10.15407/pts2018.16.091
Dunin, V. F., N. N. Voronetski, V. E. Tyshkevich, [et al.]. 1999. Nature of Polesski Reserve: Elk and Roe Deer. Ed. by M. M. Pikulik. Bely Veter, Mozyr, 1–80. [Russian]
Dunin, V. F., O. A. Pareiko, T. M. Odintsova. 1998. Assessment of changes of wild ungulates state in Polessky radiation and ecological reserve. In: T. M. Odintsova, K. M. Kirejenko (eds). 10 years of Polesskii State Radiation and Ecological Reserve. Publ. House N. B. Kirejev, Minsk, 123–130. [Russian]
Eriksson, O., M. Petrov. 1995. Wild boars (Sus scrofa scrofa L.) around Chernobyl, Ukraine. Seasonal feed choice in an environment under transition — a baseline study. Ebex Journal of Mountain Ecology, 3: 171–173.
Eriksson, O., V. Gaichenko, S. Gaschak, [et al.]. 1996. Evolution of the contamination rate in game. In: The Radiological Consequences of the Chernobyl Accident. Proceedings of international conference (Minsk, Belarus, 18–22 March 1996). Luxemburg, 147–157.
Frantsevich, L. I., V. A. Gaichenko, V. I. Kryzhanovskii. 1991. AnimalsintheRadioactiveZone. Naukova dumka, Kyiv, 1–128. [Russian]
Frantsevich, L. I., L. S. Balashov. 1997. If worthy to proclaim the Exclusion Zone and Zone of Unconditional (Compulsory) Resettlement by a reserve? Bulletin of Ecological State of the Exclusion Zone and Zone of Unconditional Resettlement, 10: 21–26. [Ukrainian]
Gaichenko, V. A., V. I. Kryzhzhanovskii, V. N. Stovbchatyi, [et al.]. 1990. Ecological state in 30-km zone of ChNPP and changes of its over 3 post-eccidental years. Reports of 2nd All-Union scientific and technical meeting on results of ECA on the Chernobyl NPP. Chernobyl, 6 (1): 4–11. [Russian] [те саме]
Gaichenko, V. A., I. V. Zhezherin, I. V. Nebogatkin. 1993. Changes of species composition and population number of small mammals in 30-km zone of ChNPP in the post-accidental period. MammalsofUkraine. Naukova Dumka, Kyiv, 153–164. [Russian]
Gaichenko, V. A., V. I. Kryzhanovsky, V. N. Stovbchaty. 1994 (a?). Post-accident state of the Chernobyl nuclear power plant alienated zone faunal complexes. Biological diversity dynamics in areas contaminated by radionuclides released during Chernobyl accident. Radiation Biology & Ecology, Special Issue, 27–32.
Gaichenko, V. A., V. I. Kryzhzhanovskii, V. N. Stovbchatyi. 1994 (b?). State of faunistic complexes of the ChNPP’s exclusion zone in the post-accidental period. Ecological and faunistic researches in the Chernobyl NPP’s zone. Kyiv, 4–18. (Preprint. I. I. Schmalhausen Institute of Zoology. NAS of Ukraine; 94.5, Iss. 1). [Russian]
Gaichenko, V. A., V. M. Tytar. 2009. Variability of craniometrical features of murine rodents in conditions of the exclusion zone of Chornobyl NPP. Naukovyi visnyk of National University of Biological Resources and Nature Use of Ukraine, 134 (3): 328–337. [Ukrainian]
Gaschak, S. P., E. G. Buntova, G. A. Rudenska, I. V. Chizhevsky. 2000. Peculiarities of species structure of Insectivores (Insectivora) and Rodents (Rodentia) of the Chornobyl exclusion zone (Ukraine). Vestnik Zoologii, 34 (6): 51–56. [Russian]
Gaschak, S. P. 2006. Reserve problems of Chornobyl zone. Zapovidna sprava v Ukraini, 12 (2): 83–90. [Russian]
Gashchak, S. P., D. O. Vyshnevskii, O. O. Zalіsskii. 2006a. Vertebrate Fauna of the Chornobyl Exclusion Zone (Ukraine). Publishing House of ChTsPYaBRVR, Slavutych, 1–100. [Ukrainian]
Gashchak, S. P., D. O. Vyshnevskii, O. O. Zalisskii. 2006b. Fauna of Vertebrates of Chornobyl zone as a presupposition for establishment of reserve objects on its territory. Bulletin of Ecological state of the Chornobyl Exclusion Zone, 27 (1): 57–65. [Ukrainian]
Gaschak, S. P. 2008. About an experience of automatic photography of wild animals in Chornobyl zone. In: Zagorodniuk, I. (ed.). Rare Theriofauna and Its Conservation. Luhansk, 28–36. (Series: Proceedings of the Theriological School; Vol. 9). [Ukrainian]
Gashchak, S. P. 2009. Main points of radioecology of big mammals in the Chernobyl zone. Problems of the Chernobyl Exclusion Zone, 9: 125–140. [Russian]
Gashchak, S. P., A. S. Vlaschenko, A. V. Naglov. 2009. Study results of bats fauna and its radioactive contamination in Chernobyl exclusion zone in 2007–2009. Problems of the Chornobyl Exclusion Zone. Slavutych, 9: 102–124. [Russian]
Gashchak, S. P., N. A. Beresford, A. M. Maksimenko, A. S. Vlaschenko. 2010. Strontium-90 and caesium-137 activity concentrations in bats in the Chernobyl exclusion zone. Radiation and Environmental Biophysics, 49 (4): 635–644. https://doi.org/10.1007/s00411-010-0322-0
Gaschak, S. P., Y. A. Maklyuk, A. M. Maksimenko, [et al.]. 2011. Radiation ecology issues associated with murine rodents and shrews in the Chernobyl exclusion zone. Health Physics, 101 (4): 416–430. https://doi.org/10.1097/HP.0b013e31821e123f
Gashchak, S. P., A. S. Vlaschenko, A. V. Naglov, [et al.]. 2013. Bats fauna of the exclusion zone in concern of assessment of environmental value of its areas. Problems of the Chornobyl Exclusion Zone, 11: 56–79. [Russian]
Gashchak, S., A. Vlaschenko, P. Estok, K. Kravchenko. 2015. New long-distance recapture of a Noctule (Nyctallus noctula) from Eastern Europe. Hystrix, 26 (1): 59–60.
Gashchak, S. P., Y. O. Gulyaichenko, N. A. Beresford, M. D. Wood. 2016. Brown bear (Ursus arctos L.) in Chernobyl exclusion zone. Proceedings of Theriological School, 14: 71–84. https://doi.org/10.15407/ptt2016.14.071
Gashchak, S. P., Y. O. Gulyaichenko, N. A. Beresford, M. D. Wood. 2017. European bison (Bison bonasus) in the Chornobyl exclusion zone (Ukraine) and prospects for its revival. Proceedings of Theriological School, 15: 58–66. https://doi.org/10.15407/ptt2017.15.058
Gashchak, S. P. 2018. Vertebrates of Chornobyl zone (Chornobyl radiation and ecological biosphere reserve) included into Red list of Ukraine (2009). Problems of the Chornobyl Exclusion Zone, 18: 5–54. [Russian]
Gashchak, S., S. Paskevich. 2019. Przewalski’s horse (Equus ferus przewalskii, Poljakov, 1881) in Chornobyl exclusion zone 20 years after introduction: number, population structure and distribution. Theriologia Ukrainica, 19: 80–100. https://doi.org/10.15407/pts2019.18.080
Gulakov, A. V., K. F. Sajevich. 2006. Radioecology of Game Animals and Freshwater Fish after the Accident on the Chernobyl NPP. Vedy, Minsk, 1–168. [Russian]
Hoofer, S. R., S. Gaschak, Y. Dunina-Barkovskaya, [et al.]. 2007. New information for systematics, taxonomy, and phylogeography of the rodent genus Apodemus (Sylvaemus) in Ukraine. Journal of Mammalogy, 88 (2): 330–342. https://doi.org/10.1644/06-MAMM-A-218R1.1
Kheidorova, E. E., K. V. Homel, M. E. Nikiforov, [et al.]. 2020. Genetic diversity of the free-living population of Przewalski's horses in the Chernobyl Exclusion Zone. Theriologia Ukrainica, 20: 58–66. https://doi.org/10.15407/TU2008
Kirijenko, K. M., E. I. Anisimova, A. G. Labetskaia, I. V. Chikilevskaia. 1995. Parasitocenosis of small mammals. In: Suschenia, L. M. [et al.] (ed.). Wildlife in the Accidental Area of Chernobyl NPP. Navuka i tekhnika, Minsk, 220–228. [Russian]
Klich, D., K. Slivinska, N. Yasynetska. 2017. The use of abandoned buildings by Przewalski's horses in the Chornobyl Exclusion Zone, Ukraine. Journal of Veterinary Behavior, 22: 13–16. https://doi.org/10.1016/j.jveb.2017.09.001
Kozlo, P. G., V. F. Dunin, S. V. Kuchmel, T. G. Deriabina. 1995. Description of population state of terrestrial game mammals. In: Suschenia, L. M. [et al.] (ed.). Wildlife in the Accidental Area of Chernobyl NPP. Navuka i tekhnika, Minsk, 198–203. [Russian]
Kozlo, P. G., L. G. Yemelianova, S. V. Kuchmel, O. A. Pareiko. 1998. Ecological features of wild boar population inhabiting Polessky radioecological reserve. In: Odintsova T. M., K. M. Kirejenko (ed.) 10 years of Polesskii State Radiation and Ecological Reserve. Publ. House N. B. Kirejev, Minsk, 130–135. [Russian]
Kryzhanivskii, V. I. 1999. State of populations of game mammals. Development of Ecoweb of Ukraine. UNDP, Project of Ecoweb, Kyiv, 89–91. [Ukrainian]
Kuchmel, S. V. 2008. Species composition of mammals of Orders Insectivora, Lagomorphs, Carnivorans, Rodents and Oddtoed Ungulate in Paliessie State Radiation and Ecology Reserve. In: G. V. Antsipov (Ed.) Faunal studies in Paliessie State Radiation and Ecology Reserve. RNIUP Institute of Radiology, Homel, 38–64. [Russian]
Kuchmel, S. V., I. S. Yurchenko. 2013. Polymorphism of craniological features of murine rodents of PSRER. In: Y. I. Bondar (ed.) Ecosystems and Radiation: Aspects of Being and Development. Proceedings dedicated to 25th anniversary of Polessky state radiation and ecological reserve. Institute of radiology, Minsk, 235–245. [Russian]
Kudrenko, S. 2021. Responses of large carnivores and their prey to landscape heterogeneity in Polesie: ongoing research and preliminary results. Proceedings: The First International scientific and practical conference ‘Chornobyl: Open Air Lab’ (24 April 2021, Kyiv), 121–122.
Legeida, I. S., G. M. Panov. 1993. Some features of biology of wild boar in the area of ChNPP. In: Proceedings of Radiobiological Congress (Kiev, 20–25 September 1993). Puschino, 587–588. [Russian]
Lypska, A. I., N. K. Rodionova, N. M. Riabchenko, [et al.]. 2020. Assesment of state of natural poipulations of small mammals in transformed ecosystems of the exclusion zone of ChNPP by complex of biological indices. Nuclear physics and energy, 4: 328–337. [Ukrainian]
Materii, L. D., O. V. Yermakova, A. I. Taskayev. 2003. Morphofunctional Assessment of Organism State of Small Mammals in Radioecological Studies (on an example of tundra vole). Syktyvkar, 1–164. [Russian]
Matson, C. W., B. E. Rodgers, R. K. Chesser, R. J. Baker. 2000. Genetic diversity of Clethrionomys glareolus populations from highly contaminated sites in the Chornobyl region, Ukraine. Environmental Toxicology and Chemistry, 19: 2130–2135. https://doi.org/10.1002/etc.5620190824
Meeks, H. N., J. K. Wickliffe, S. R. Hoofer, [et al.]. 2007. Mitochondrial control region variation in bank voles (Clethrionomys glareolus) is not related to Chernobyl radiation exposure. Environmental Toxicology and Chemistry, 26: 361–369. https://doi.org/10.1897/06-346R.1
Meeks, H. N., R. K. Chesser, B. E. Rodgers, [et al.]. 2009. Understanding the genetic consequences of environmental toxicant exposure: Chernobyl as a model system. Environmental Toxicology and Chemistry, 28 (9): 1982–1994. https://doi.org/10.1897/08-578.1
Mikhalusiov, V. I., A. V. Gulakov, V. S. Averin, [et al.]. 1997. Botanic composition of stomach and rumen content, and analysis of calculated daily ration of wild ungulates. Problems of Forest Management and Forest Studies. Proceedings of Institute of forest National Academy of Science of Belarus. Homel, 45: 247–253. [Russian]
Oleksyk, T. K., M. H. Smith, S. P. Gaschak, [et al.]. 2002. Problems with developmental stability in two rodent species from Chornobyl.Radioprotection — Colloques, 37 (C1): 859–864. (Proceedings Volume 2 of the International Congress “ECORAD 2001”, Aix-en-Provence (France), 3-7 September, 2001). https://doi.org/10.1051/radiopro/2002215
Oleksyk, T. K., J. M. Novak, J. R. Perdue, [et al.]. 2004. High levels of fluctuating asymmetry in populations of Apodemus flavicollis from the most contaminated areas in Chornobyl. Journal of Environmental Radioactivity, 73: 1–20. https://doi.org/10.1016/j.jenvrad.2003.07.001
Paskevych, S. 2021. Behaviour features of Przewalski’s horses in conditions of abandoned urbo-landscapes of Chornobyl exclusion zone. Chornobylsky naukovyi hub, 1–2 (2–3): 16–23. [Ukrainian]
Petrov, M. F. 1996a. Wild boar (Sus scrofa L.) diet in the Exclusion zone of Chernobyl catastrophe on the territory of Ukraine. Problems of the Chernobyl Exclusion Zone, 3: 69–81. [Russian]
Petrov, M. F. 1996b. Roe deer (Capreolus capreolus L.) diet in the Exclusion zone of Chernobyl catastrophe on the territory of Ukraine. Problems of the Chernobyl exclusion zone. 3. 69–81. [Ukrainian]
Program ‘Fauna’: Program to recover the original faunistic complex and biodiversity of Ukrainian Polissia in the exclusion zone and zone ofzone of unconditional (compulsory) resettlement. Approved by D. D. Durdinets, Minister of Emergency Ministry of Ukraine, on 13.04.2000.
Rozhdestvenskaia, A. S. 1995. State of small mammals populations in biogeocenosises contaminated by radionuclide: structural and functional description of small mammals. In: Suschenia, L. M. [et al.] (ed.). Wildlife in the Accidental Area of Chernobyl NPP. Navuka i tekhnika, Minsk, 183–193. [Russian]
Rozhdestvenskaia, A. S., E. G. Samusenko, R. I. Goncharova, [et al.]. 1990. Description of small mammals from the area of accident on ChNPP. In:Biological and Radioecological Aspects of Consequences of the Accident on Chernobyl NPP. Reports of the First international conference. Chernobyl-90. Zelenyi Mys, 1 (2): 233–246. [Russian]
Rozhdestvenskaia, A. S. 1999. Reproduction of bank vole in environment contaminated by radiocesium in Byelorussia. Bioindication of Radioactive Pollutions. Nauka, Moscow, 226–231.
Schlichting, P. E., C. N. Love, S. C. Webster, J. C. Beasley. 2019. Efficiency and composition of vertebrate scavengers at the land-water interface in the Chernobyl Exclusion Zone. Food Webs, 18: e00107. https://doi.org/10.1016/j.fooweb.2018.e00107
Schlichting, P. E., V. Dombrovski, J. C. Beasley. 2020. Use of abandoned structures by Przewalski’s wild horses and other wildlife in the Chernobyl Exclusion Zone. Mammal Research, 65: 161–165. https://doi.org/10.1007/s13364-019-00451-4
Shkvyrya, M., D. Vishnevskiy. 2012. Large carnivores of the Chernobyl nuclear power plant exclusion zone. Вестник зоологии. 46 (3): 239–246. https://doi.org/10.2478/v10058-012-0020-2
Shkvyria, M., D. Vyshnevskiy, Y. Yakovlev. 2018. Exclusion zone as unique site for wolf ecology research in Ukraine. Beiträge zur Jagd- und Wildforschung, 43: 289–300.
Skorobogatov, I., A. Atemasov, S. Gashchak. 2019. Preliminary results of first-ever otter survey in Chornobyl exclusion zone, northern Ukraine. Otter(Journal of the International Otter Survival Fund), 5: 30–38.
Sidorovych, V. E. 1995. State of species of family Mustelidae in the Chernobyl zone. In: Suschenia, L. M. [et al.] (ed.). Wildlife in the Accidental Area of Chernobyl NPP. Navuka i tekhnika, Minsk, 193–198. [Russian]
Slyvinska, K. A. 2005. Przewalski’s horse (Equus przewalskii Pljakov, 1881) in conditions of the Chornobyl exclusion zone. Bulletin of Ecological State of the Exclusion Zone and Zone of Unconditional Resettlement, 25 (1): 37–41. [Ukrainian]
Slyvinska, K. A., L. S. Balashov. 2006. Phytocenotic composition of forage habitats of Przewalski’s horse (Equus przewalskii Poljakov, 1881) in conditions of Chornobyl exclusion zone. Ukraine Botanical Journal, 63 (1): 22–30. [Ukrainian]
Slyvinska, Y. A., T. L. Zharkikh. 2012. Census results of Przewalski’s horse population in the exclusion zone of Chernobyl NPP in 2011. Topical Questions of Natural Sciences and Methods of Teaching (to 70th anniversary of a researcher and teacher I. I. Kocherga). Publishing house of M. Gogol Nizhyn State University, Nizhyn, 114–115. [Russian]
Slyvinska, K. 2020. Przewalsi’s horse population in the Chornobyl exclusion zone: monitoring of the state and reasons of the animal number changes. Chornobylsky naukovyi hub (Scientific and practical journal), 1: 19–24. [Ukrainian]
Slyvinska, K., N. Yasinetska, D. Klich. 2021. Przewalski`s wild horses and their 23-years management in the Chornobyl exclusion zone, Ukraine. Chornobyl: Open Air Lab (Procedings of Conference, April 24, 2021), Kyiv, 113–116.
Taskaiev, A. I., B. V. Testov. 1999. Number and reproduction of murine rodents in the zone of Chernobyl accident. Bioindication of Radioactive Pollution, Nauka, Moscow, 200–205. [Russian]
Taskaiev, A. I., L. A. Bashlykova, V. G. Zainullin. 2010. Ecologic and genetic monitoring of murine rodents from populations affected by chronic irradiation. Radiation Biology. Radioecology, 50 (5): 560–571. [Russian]
Tovstuha, I., O. Timofieieva, V. Kovalov, A. Vlaschenko. 2021. Effect of 90Sr and 137Cs concentration on hematological parameters of bats in Chernobyl Exclusion Zone (Ukraine). Acta Chiropterologica, 23 (2): 371–376. https://doi.org/10.3161/15081109ACC2021.23.2.006
Shkvyria, M. 2005. Monitoring studies of large carnivorous mammals of Ukrainian Polissia. Scientific Bulletin of the Uzhhorod University. Series Biology, 17: 100–104. [Ukrainian]
Vlaschenko, A., S. Gashchak, A. Gukasova, A. Naglov. 2010. New record and current status of Nyctalus lasiopterus in Ukraine (Chiroptera: Vespertilionidae). Lynx, n. s. (Praha), 41: 209–216.
Vorobiov, Eu. O., S. A. Paskevych. 2019. Biotopic connection of the Chornobyl population of Przewalski’s horse Equus ferus przewalskii Poljakov, 1881. News of Biosphere reserve Askania-Nova, 21: 166–175. [Ukrainian]
Vorobiov, E. O., S. A. Paskevych, S. M. Zhyla. 2020. Biotopic potential of ecosystems of Chornobyl radiation and ecological biosphere reserve for rewilding of large herbivorous (tarpan, European bison, aurochs). Monitoring and Protection of Biodiversity in Ukraine: Practical Aspects of Monitoring and Protection of Biodiversity. DrukArt, Kyiv, Chernivtsi, 217–240. [Ukrainian]
Voronetskii, N. N., V. E. Tyshkevich. 1998. Ungulates (European bison, wild boar, roe deer, red deer, elk) and carnivores (grey wolf, Eurasian lynx, red fox) of Polesskii SRER. In: Odintsova, T. M., K. M. Kirejenko (eds). 10 years of Polesskii State Radiation and Ecological Reserve. Publ. House N. B. Kirejev, Minsk, 151–159. [Russian]
Voronetskii, N. N., V. F. Dunin, T. M. Odintsova, O. A. Pereiko. 1998. Wolf in the Polesskii radiation and ecological reserve. In: Odintsova T. M., K. M. Kirejenko (eds). 10 years of Polesskii State Radiation and Ecological Reserve. Publ. House N. B. Kirejev, Minsk, 142–150. [Russian]
Voronetskii, N. N., V. F. Dunin, V. S. Piskunov, K. M. Kirejenko. 1999. Number and biotopic distribution of wild animals in Polesskii radiation and ecological reserve. Biological Diversity of National Park ‘Pripyatskii’ and Other Special Protected Natural Territories: Reports of National park ‘Pripyatskii’. Bely Veter, Turov, Mozyr, 312–315. [Russian]
Vyshnevskii, D. 2004. Peculiarities of zoocenosises in the ChNPP exclusion zone in the post-accidental period. Scientific Bulletin of the Uzhhorod University. Series Biology, 15: 20–23. [Ukrainian]
Vyshnevskii, D. 2005. Results of introduction of Przewalski’s horse (Equus przewaslskii) into the ChNPP Exclusion zone. Scientific Bulletin of the Uzhhorod University. Series Biology, 17: 39–41. [Ukrainian]
Vyshnevskii, D. 2006. Sexual structure of small mammals populations in the Chernobyl NPP exclusion zone. In: Zagorodniuk, I. (ed.). Fauna in Anthropogenic Environment. Luhansk, 56–58. (Series: Proceedings of Theriological School; Vol. 8). [Russian]
Vyshnevskii, D., O. Kotliarov. 2008. Assessment of number of mammal macrofauna in the exclusion zone of the Chornobyl NPP: analysis of different data sources. In: Zagorodniuk, I. (ed.). Rare Theriofauna and its conservation. Luhansk, 21–27. (Series: Proceedings of the Theriological School; Vol 9). [Ukrainian]
Webster, S. C., M. E. Byrne, S. L. Lance, [et al.]. 2016. Where the wild things are: influence of radiation on the distribution of four mammalian species within the Chernobyl Exclusion Zone. Frontiers in Ecology and the Environment, 14: 185–190. https://doi.org/10.1002/fee.1227
Yasinetska, N. I., N. S. Zvegintsova. 2013. Structure and modern state of Przewalski’s horse population in the zone of ChNPP. Visti of Biosphere Reserve Askania-Nova, 5: 203–211. [Russian]
Yasinetska, N. I., D. Klikh, K. A. Slivintska. 2019. Population of the Przewalski’s horse (Equus ferrus przewalskiiPol., 1881) in the Chornobyl exclusion zone: monitoring on the number of animals and level of the intestinal parasites infection during 2015–2018. News of Biosphere Reserve Askania-Nova, 20: 269–275. [Ukrainian]
Zharkikh, T. N., N. I. Yasinetska, A. N. Borovsky, N. S. Zvegintsova. 2002. Study of Przewalski’s horse population in the zone of the Chernobyl NPP. Bulletin of Moscow Society of Nature Investigators. Division of Biology, 107 (5): 9–16. [Russian]
Zharkhikh, T., N. Yasinetska. 2008. Route censuses of ungulates in the Chornobyl Exclusion Zone. Proceedings of the Theriological School, 9: 219–222. [Russian]
Zvegintsova, N. S., T. L. Zharkikh, N. I. Yasynetska. 2008. Dynamics of infection with Strongylidae of the Przewalski horse (Equus przewalskii) population in the Chernobyl exclusion zone. Vestnik of Zoology, 42 (5): 455–460. https://doi.org/10.2478/v10058-008-0011-5
Zharkikh [Petrova], T. L., N. I. Yasynetska. 2009. Ten years of development of the Przewalski horse population in the Chernobyl Exclusive Zone. Equus(Zoo Praha), 139–156. https://www.researchgate.net/publication/332523892
Zhyla, S. M. 1997. The brown bear (Ursus arctos L.) in Ukrainian Polissia. Vestnik Zoologii, 31 (3): 77. [Ukrainian]
Zhyla, S. M. 1999. Present state of wolf population in Ukrainian Polissia. Vestnik Zoologii, 33 (4–5): 115–117. [Ukrainian]
Zhyla, S. M. 2002. Features of spatial structure of wolf (Canis lupus) population in Ukraine. Visnyk of T. Shevchenko Luhansk University. Series Biological Sciences, 1 (45): 175–177. [Ukrainian]
Zhyla, S. M. 2002. Bobcat in the Ukrainian Polissia: Population status and distribution. Visnyk of Lviv University. Series Biology, 30: 61–64. [Ukrainian]
Zhyla, S. 2012. Polissian population of Lynx lynx in Ukraine and action plan on its conservation. Proceedings of the Theriological School, 11: 98–112. [Ukrainian] https://doi.org/10.15407/ptt2012.11.098
Zhyla, S. 2021a. Roe deer in Polissia and in Chornobyl radiation and ecological biosphere reserve: ecology, behavior, number. Chornobylsky naukovyi hub, 1–2 (2–3): 42–51. [Ukrainian]
Zhyla, S. M. 2021b. Behaviour and social structure of feral cattle (Bos taurus) in Chornobyl radiation and ecological biosphere reserve. Proceedings of 1st International Conference ‘Chornobyl: Open Air Lab’, Kyiv, 43–49. [Ukrainian]
Zhyla, S. 2021c. The Eurasian lynx (Lynx lynx) in the Ukrainian Polissia: state of population and conservation issues. Theriologia Ukrainica, 21: 91–108. [Ukrainian] https://doi.org/10.15407/TU2108 |
