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LITERATÚRA A hlén I., 2002: Heterodyne and time-expansions methods for identification of bats in the field and throug sound analysis. Pp.: 1–79. In: B righam R. M., K alko E. K. V., J ones G., P arsons S. & L impens H. J. G. A. (eds.): Bat Echolocation Research. Tools , Techniques & Analysis . Bat Conservation International, Austin, vii+167 pp. B ačkor P., 2015: Monitoring netopierov v koridore pripravovanej diaľnice D1 Hubová–Ivachnová . Nepubl. správa. Banská Bystrica, 16+6 pp. B ačkor P., U hrin M., V išnovská Z., U rban P. & G resch A., 2010

References ÁLVAREZ, F., REY, J., QUINTERIOS, P., IGLESIAS, R., SANTOS, M., SANMARTIN, M.L. (1991): Helminth parasites in some Spanish bats. Ann. Parasitol., 37 (3): 321-329 ARLETTAZ, R. (1996): Feeding behaviour and foraging strategy of free-living mouse-eared bats, Myotis myotis and Myotis blythii. Anim. Behav., 51 (1): 1-11. DOI: 10.1006/anbe.1996.0001 BARUS, V., DANIEL, M. (1972): The occurrence of some helminth species in birds and mammals from Yugoslavia. Folia Parasitol., 19 (2): 111-112 BOTELLA, P., SANCHEZ, L., ESTEBAN, J.G. (1993): Helminthfauna of bats

-188. Bianchi, F.J.J.A., Booij, C.J.H. & Tscharntke, T., (2006). Sustainable pest regulation in agricultural landscapes: a review on landscape composition, biodiversity and natural pest control. Proceedings of the Royal Society Biological Sciences. 273, 1715-1727. Retrieved March 30, 2006, from: http://dx.doi.org/10.1098/rspb.2006.3530. Boughey, K. L., Lake, I. R., Haysom, K. A. & Dolman, P. M. (2011). Improving the biodiversity benefits of hedgerows: How physical characteristics and the proximity of foraging habitat affect the use of linear features by bats. Biological

B, Boongird K, Wanghongsa S, Chanhome L, Rollin P, et al. Bat Nipah virus, Thailand. Emerg Infect Dis. 2005;11: 1949-51. 10.3201/eid1112.050613 11. Wacharapluesadee S, Hemachudha T. Duplex nested RT-PCR for detection of Nipah virus RNA from urine specimens of bats. J Virol Methods. 2007; 141:97-101. 12. Wacharapluesadee S, Boongird K, Wanghongsa S, Ratanasetyuth N, Supavonwong P, Saengsen D, et al. A longitudinal study of the prevalence of Nipah virus in Pteropus lylei bats in Thailand: evidence for seasonal preference in disease transmission. Vector Borne

REFERENCES B enda P. & H oráček I., 1998: Bats (Mammalia: Chiroptera) of the Eastern Mediterranean. Part 1. Review of distribution and taxonomy of bats in Turkey. Acta Societatis Zoologicae Bohemicae , 62 : 255–313. B enda P., K iefer A., H anák V. & V eith M., 2004: Systematic status of African populations of long-eared bats, genus Plecotus (Mammalia: Chiroptera). Folia Zoologica , 53 (Monograph 1): 1–47. B enda P., H anák V., H oráček I., H ulva P., L učan R. & R uedi M., 2007: Bats (Mammalia: Chiroptera) of the Eastern Mediterranean. Part 5

REFERENCES B enda P. & V allo P., 2009: Taxonomic revision of the genus Triaenops (Mammalia: Chiroptera: Hipposideridae) with description of a new species from southern Arabia and definitions of new genus and tribe. Folia Zoologica , 58 (Monograph 1): 1–45. B enda P., A l -J umaily M. M., R eiter A. & N asher A. K., 2011: Noteworthy records of bats from Yemen with description of a new species from Socotra. Hystrix , n . s ., 22 : 23–56. B ernard R. T. F. & H appold M., 2013a: Hipposideros caffer Sundevall’s leaf-nosed bat. Pp.: 375–378. In: H

. Obserwacje nietoperzy w kryjówkach pod odstającą korą drzew. Nietoperze 9: 229–231. Parsons K.N., Jones G., Greenaway F. 2003. Swarming activity of temperate zone microchiropteran bats: effects of season, time of night and weather conditions. Journal of Zoology 261: 257–264. DOI 10.1017/S0952836903004199. Rachwald A., Nowakowski W. 1994. Nowe dane o występowaniu nietoperzy (Chiroptera) w zachodniej (polskiej) części Puszczy Białowieskiej. Przegląd Zoologiczny 38: 117–123. Rudolph B.U., Hammer M., Zahn A. 2003. The Barbastelle ( Barbastella barbastellus ) in Bavaria

REFERENCES 1. Adesiyun, A. A., Stewart-Johnson, A., Thompson, N. N., 2009: Isolation of enteric pathogens from bats in Trinidad. J. Wildl. Dis. , 45 (4), 952—961. DOI: 10.7589/0090-3558-45.4.952. 2. Allocati, N., Petrucci, A. G., Di Giovanni, P., Masulli, M., Di Illio, C., De Laurenzi, V., 2016: Bat-man disease transmission: zoonotic pathogens from wildlife reservoirs to human populations. In Cell Death Discovery 2 , Article No. 16048. https://www.nature.com/articles/cddiscovery201648 . 3. Bartlett, M., 1957: Measles periodicity and community size. J. Roy

Abstract

The medieval mine of Jeroným (Jerome) is one of the most important bat localities known in western Bohemia. Ten bat species have been detected there, including Myotis emarginatus which is very rare in the western part of the Czech Republic. Numbers of wintering bats have been monitored since 1995 and show an upward trend there, even after the opening of a part of the mine to the public during summer (since 2014). The highest numbers of wintering bats correspond to unusually cold winters in 2017 (347 inds.) and 2013 (156 inds.). Mistnetting during the swarming period has been carried out annually since 2009. Numbers of netted bats have been decreasing, probably due to the existence of a new visitor centre built near the entrance to the underground. Species compositions recorded during the hibernation and swarming periods are very similar, but proportions of particular species are different. Myotis daubentonii, M. myotis and M. nattereri were the most abundant bat species during hibernation, while Myotis nattereri, M. daubentonii and Plecotus auritus during the swarming period. Swarming numbers of Myotis mystacinus and M. brandtii have been growing in the last several years. Myotis bechsteinii was detected repeatedly, while Eptesicus nilssonii and Myotis emarginatus (wintering) and Nyctalus noctula (swarming) only once each. The swarming activity of bats was highest 2.5–5.5 hours after sunset. In total, 436 bats were ringed, about 6% of them were recaptured at the site. Some of the ringed bats were recorded at other localities, Myotis myotis at distances up to 39 km, and M. nattereri up to 21 km.

. (2014). Middle East respiratory syndrome coronavirus antibody reactors among camels in Dubai, United Arab Emirates, in 2005. Transbound. Emerg. Dis., 61: 105-108. Annan A., Baldwin H.J., Corman V.M., Klose S.M., Owusu M., Nkrumah E.E., Badu E.K., Anti P., Agbenyega O., Meyer B., Oppong S., Sarkodie Y.A., Kal- ko E.K., Lina P.H., Godlevska E.V., Reusken C., Seebens A., Gloza- Rausch F., Vallo P., Tschapka M., Drosten C., Drexler J.F. (2013). Human betacoronavirus 2c EMC/2012-related viruses in bats, Ghana and Europe. Emerg. Infect. Dis., 19: 456-459. Arabi Y.M., Harthi