Search Results

1 - 10 of 193 items :

  • "small mammals" x
Clear All

lizards with a special reference to Pseudopus apodus . – The Anatomical Record, 302(2): 232–257. https://doi.org/10.1002/ar.23944 Doukas, C. S., Papayianni, K. (2016): Small Mammals in the Plio/Pleistocene Sediments of Greece. – In: Harvati, K., Roksandic, M. (eds), Paleoanthropology of the Balkans and Anatolia (Vertebrate Paleobiology and Paleoanthropology Series). Springer, Dordrecht, pp. 291–302. https://doi.org/10.1007/978-94-024-0874-4_17 Erdal, O., Erturaç, M. K., Dalfes, N., Sen, S. (2018): Rodents from the Middle Pleistocene of Niksar Basin (Tokat

References Agadjanian, A. K. (1976): Die Entwicklung der Lemminge der zentralen und östlichen Paläarktis im Pleistozän. – Mitteilungen der Bayerischen Staatssammlung für Paläontologie und historische Geologie, 18: 53–64. Agadjanian, A. K. (1992): Etapy razvitia melkikh mlekopitayushchikh pleystotsena tsentralnykh rayonov Russkoy ravniny [The development stages of Pleistocene small mammals of the central regions of the Russian Plain]. – In: Velichko, A. A., Shik, S. M. (eds), Sratigraphiya i paleogeographiya chetvertichnogo perioda Vostochnoy Evropy [Stratigraphy

when dead animals are sampled (e.g. in national parks) and the carcasses (along with their intestinal parasites) are in some stage of decay. Furthermore, a variety of other hymenolepidid species, morphologically similar to H. microstoma , can potentially infest free-living small mammals ( Riebold et al., 2019 ). Thus, the use of molecular tools, especially in cases when identification via morphology is ambiguous, is essential for identifying and classifying species ( Peniche et al., 2017 ). The study was designed to survey the occurrence of H. microstoma in free

, G., Barbier, O., Cougnon, M., Tanc, M., Namorado, M C., Martin, D et al. 2006. Zinc protects renal function during cadmium intoxication in the rat. Am J Physiol Renal Physiol, 290, 127-137. DOI: 10.1016/j.fct.2008.08.037 Jihen, E .H., Imed, M., Fatima, H., Kerkeni, A. 2008. Protective effects of selenium (Se) of and zinc (Zn) on cadmium (Cd) toxicity in the liver and kidney of the rat: histology and Cd accumulation. Food Chem Toxicol, 46, 3522-3527. Ivanter, E. V., Ivanter, T. V., Tumanov, I. L. 1985. Adaptive features of small mammals. Science, L. 1-317 [In

References Arlettaz, R., Krähenbühl, M., Almasi, B., Roulin, A. & Schaub, M. 2010. Wildflower areas within revitalized agricultural matrices boost small mammal populations but not breeding Barn Owls. – Journal of Ornithology 151: 553–564. DOI: 10.1007/s10336-009-0485-0 Askew, N. P., Searle, J. B. & Moore, N. P. 2007. Prey selection in a Barn Owl Tyto alba . – Bird Study 54: 130–132. DOI: 10.1080/00063650709461465 Bihari, Z., Csorba, G. & Heltai, M. (eds.) 2007. Magyarország emlőseinek atlasza [Atlas of mammals in Hungary]. – Kossuth Kiadó, Budapest (in Hungarian

. 2003. Response of the small mammal community to changes in western French agricultural landscapes. – Landscape Ecology 18(3): 265–278. Dövényi, Z., Ambrózy, P., Juhász, Á., Marosi, S., Mezősi, G., Michalkó, G., Somogyi, S., Szalai, Z. & Tiner, T. 2010. Magyarország kistájainak katasztere [Inventory of microregions in Hungary]. − HAS Geographical Research Institute, Budapest (in Hungarian) Estók, P., Bihari, Z., & Gombkötő, P. 2007. Fehértorkú denevér Vespertilio murinus [Parti-coloured Bat]. − In: Bihari, Z., Csorba, G. & Heltai, M. (eds.) 2007. Magyarország

: https://en.climate-data.org/location/710944/ M ikkola H. (1983): Owls of Europe. – T. & AD Poyser, London. O buch J., B enda P. (2009): Food of the Barn Owl ( Tyto alba ) in the Eastern Mediterranean. – Slovak Raptor Journal 3: 41–50. P aspali G., O ruci S., K oni M., W ilson I. F., K rystufek B., B ego F. (2013): Seasonal variation of small mammals in the diet of the barn owl ( Tyto alba ) in the Drinos River valley southern Albania. – Turkish Journal of Zoology 37: 97–105. T aylor I. (1994): Barn owls: Predator-prey relationship and conservation

) Roulin, A. & Christe, P. 2013. Geographic and temporal variation in the consumption of bats by European Barn Owls. – Bird Study 60(4): 561–569. DOI: 10.1080/00063657.2013.847051 Saucy, F. 1994. Density dependence in time series of the fossorial form of the Water Vole, Arvicola terrestris . – Oikos 74: 381–392. Schneider, W. 1964. Die Schteiereule [The Barn Owl]. – Neue Brehm Bücherel. Helt 340, Wittenberg, pp. 104 (in German) Shehab, A., Daoud, A., Kock, D. & Amr, Z. 2004. Small mammals recovered from owl pellets from Syria (Mammalia: Chiroptera, Rodentia). – Zoology

References Andrzejewski R., Babińska-Werka J., Gliwicz J. 1978. Synurbization processes in population of Apodemus agrarius. I. Characteristics of populations in an urbanization gradient. Acta Theriologica, 23, 341-358. Babińska-Werka J., Gliwicz J., Goszczyński J. 1979. Synurbization processes in population of Apode mus agrarius. II. Habitats of the striped-field mouse in town. Acta Theriologica, 24, 405-415. Baker P.J., Ansell R.J., Dodds P.A., Webber C.E., Harris S. 2003. Factors affecting the distribution of small mammals in an urban area. Mammal Review, 33

References Aulak W. 1970. Small mammal communities of the Białowieża National Park. Acta Theriol. 15: 465-515. Boström U., Hansson L. 1981. Small rodent communities on mires: implications for population performance in other habitats. Oikos 37: 216-224. Buchalcz yk T., Markowski J. 1979. Ssaki Bieszczadów Zachodnich [Mammals of the Western Bieszczady Mts]. Ochrona Przyrody 42: 119-150 (in Polish). Butterfield J., Coulson J. C., Wanless S. 1981. Studies on the distribution, food, breeding biology and relative abundance of the Pygmy and Common shrews ( Sorex minutus