DIGITALNA ARHIVA ŠUMARSKOG LISTA
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ŠUMARSKI LIST 9-10/2016 str. 37     <-- 37 -->        PDF

Belgrade virus (DOBV) in yellow-necked mice in northern Italy. Epidemiol Infect. 143(10):2241-4.
Ropac, D., V. Popović, J. Baltić, T. Kopbetić, G. Komatina, A. Gligić, 1991: Epidemiološki i klinički podaci o epidemiji hemoragijske groznice s bubrežnim sindromom. Med Jad. 21: 107-14.
Rose, A.M.C., O. Vapalahti, O. Lyytikäinen, P. Nuorti, 2003. Patterns of Puumala virus infection in Finland. Eurosurv Monthly. 8:9-13.
Rudolf, P.O., W.B. Leak, 1974: Fagus L. Beech- in Schopmeyer C. S. (ed.). Seeds of woody plants in the Unated States. U.S. Dept. Agric. Forest service, Washington. pp. 401-405.
Schmaljohn, C., B. Hjelle, 1997: Hantaviruses. A global disease problem. Emerg Infect Dis. 3: 95-104.
Schmaljohn, C.S., J.W. Hooper, 2001: Bunyaviridae: the viruses and their replication, p. 1581-1602. In: Knipe, D.M., P.M. Howley, D.E. Griffin, R.A. Lamb, M.A. Martin, B. Roizman, S. E. Straus, (ed.), Fields virology, 4th ed., vol. 2. Lippincott Williams & Wilkins, Philadelphia, PA.
Sibold, C., H. Meisel, A. Lundkvist, A. Schulz, F. Cifire, R. Ulrich, O. Kozuch, M. Labuda, D.H. Krüger, 1999: Short report: Simultaneous occurrence of dobrava, puumala, and tula hantaviruses in slovakia. Am. J. Trop. Med. Hyg. 61(3): 409-411.
Sironen,T., A. Vaheri, A. Plyusnin, 2005: Phylogenetic evidence for the distinction of Saaremaa and Dobrava hantaviruses. Virol J. 2:90.
Smyth, M., 1966: Winter breeding in woodland mice, Apodemus sylvaticus and voles, Clethrionomys glareolus and Microtus agrestis, near Oxford. J. Anim. Ecol. 35: 471- 485.
Spitzenberger, F., 1999: Clethrionomys glareolus. In: Mitchell-Jones, A.J., G. Amori, W. Bogdanowicz, B. Kryštufek, P.J.H. Reijnders, F. Spitzenberger, M. Stubbe, J.B.M. Thissen, V. Vohralík, J. Zima, (eds), The Atlas of European Mammals, Academic Press, London, UK.
Spitzenberger, F., 2002: Die Säugetierfauna Österreichs. – Grüne Reihe 13. – Wien: BMLFUW: 895
Stenseth, N.C., H. Leirs, A. Skonhoft, S.A. Davis, R.P. Pech, H.P. Andreassen, G.R. Singleton, M. Lima, R.S. Machang’u, R.H. Makundi, Z. Zhang, P.R. Brown, X. Wan, 2003. Mice, rats, and people: the bio-economics of agricultural rodent pests. Front Ecol Environ. 1:367-375.
Suchomel, J., L. Purchart, L. Cepelka, M. Heroldová, 2014: Structure and diversity of small mammal communities of mountain forests in Western Carpathians. Eur J Forest Res. 133(3):481-490.
Svoboda P., I.C. Kurolt, L. Bjedov, Z. Štritof Majetić, J. Margaletić, A. Markotić. (In prep.) First molecular evidence of shrew-borne Seewis virus in Croatia. Virus Res.
Tadin, A., L. Bjedov, J. Margaletić, B., Zibrat, L. Cvetko Krajinović, P. Svoboda, I.C. Kurolt, Z. Stritof Majetic, N. Turk, O. Đaković Rode, R. Čivljak, I. Kuzman, A. Markotic, 2014: High infection rate of bank voles (Myodes glareolus) with Puumala virus is associated with a winter outbreak of haemorrhagic fever with renal syndrome in Croatia. Epidemiol Infect. 142(9): 1945-51.
Trinajstić, I. 2003: Taksonomija, morfologija i rasprostranjenost obične bukve. U: Obična bukva (Fagus sylvatica L.) u Hrvatskoj. Akademija šumarskih znanosti, 393 – 405, Zagreb.
Vapalahti, O., J. Mustonen, A. Lundkvist, H. Henttonen, A. Plyusnin, A. Vaheri, 2003: Hantavirus infections in Europe. Lancet Infect Dis. 3: 653-61.
Verhagen R., H. Leirs, W. Verheyen, 2000: Demography of Clethrionomys glareolus in Belgium. Pol.J.Ecol. 48: 113-123.
Vidaković, M., J. Franjić, 2003: Razmnožavanje obične bukve. U: Obična bukva (Fagus sylvatica L.) u Hrvatskoj. Akademija šumarskih znanosti, 264- 272, Zagreb.
Watt, A.S., 1923: On the ecology of British beechwoods with special reference to their regeneration. J. Ecol. 11: 1-48
Wolff, J.O., 1996: Population fluctuations of mast-eating rodents are correlated with production of acorns. J Mammal. 77: 850-856.
Yates, T.L., J.N. Mills, C.A. Parmenter, T.G. Ksiazek, R.R. Parmenter, J.R. Vandecastle, 2002: The ecology and evolutionary history of an emergent disease: hantavirus pulmonary syndrome. BioScience. 52: 989-998.
Young, H.S., R. Dirzob, K.M. Helgenc, D.J. McCauleya, S.A, Billeterd, M.Y. Kosoyd, L.M. Osikowiczd, D.J. Salkelde, T.P. Youngg, K. Dittmarh, 2014: Declines in large wildlife increase landscape-level prevalence of rodent-borne disease in Africa. PNAS. 111 (19): 7036-7041.
Zejda, J., 1962: Winter breeding in the bank vole (Clethrionomys glareolus Schreb.). Zool. Listy, 11:309-321.
Summary
The European beech (Fagus sylvatica L.) is at present considered to be the most common economically important and widespread tree species in Europe. In contrast to other tree species and economically important species in Croatia European beech has the largest areal and can be found in variety of plant communities. As the most specious and widely distributed mammalian group, rodents are the wildlife reservoir for many zoonoses which can infect humans and other wildlife. Rodent outbreaks tend to follow years with increased seed production of oak and beech. Many authors have linked fluctuations in abundance of rodent reservoirs with increase of human zoonotic infections. Aim of this research is monitoring of rodent populations and hantaviruses in beech forests. At two locations (National park Plitvice lakes and Nature park Medvednica) seven trapping plots were set, each containing 1 or 2 grids size 100m x 100m (100 traps). Rodent capturing was done from year 2011 until 2014 in summer and autumn. Beech mast was recorded in NP Plitvice lakes each year in autumn. Trapped rodents were screened for hantaviruses. Results show two dominant rodent species, yellow-necked mouse (Apodemus flavicollis) and bank vole (Myodes glareolus) in beech forests of NP Plitvice and NP Medvednica. Both species make 99 % of total captures. Rodent abundance showed increase in year 2012 and outbreak in year 2014 measuring on one grid max abundance of 45 animals/ha, whereas year 2011