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dormouse (Glis glis L.) in the mountainous part of Croatia. Acta Zoologica Academiae Scientiarum Hungaricae 50 (4):271-282.
Horaček, I., 1986: Fossil records and chorological status of dormice in Czechoslovakia. Part I.: Glis glis, Eliomys quercinus, Folia Musei Rerum Naturalium Bohemiae Occidentalis, Plzeň, Zoologica, 24:49–59.
Hürner, H., B. Kryštufek, S. Maurizio, A. Ribas, T. Ruch, R. Sommer, V. Ivashkina, J.R. Michaux, 2010: Mitochondrial phylogeography of the edible dormouse (Glis glis) in the western Palearctic region, J. Mammal., 91 (1):233–242.
Jurczyszyn, M., 1994: Population density of Myoxus glis (L.) in some forest biotopes, Hystrix It. J. Mamm., 6 (1−2):265–271.
Jurczyszyn, M., 2001: Reintroduction of the edible dormouse (Glis glis) in Sierakowski landscape park (Poland), Preliminary results, Trakya Univ. J. Sc. Res. Series B, 2 (2):111−114.
Jurczyszyn, M., K. Wolk, 1998: The present status of dormice (Myoxidae) in Poland, Nat. Croat., 7 (1):11−18.
Kryštufek, B., B. Flajšman, 2007: Polh in človek. Ekološki forum LDS, Liberalna akademija, 43–84, Ljubljana.
Margaletić, J., M. Grubešić, K. Krapinec, K. Kauzlarić, S. Krajter, 2006: Dynamics and structure of fat dormouse (Glis glis L.) population in Croatia forests in the period from 2002 to 2004, Glas. Šum. Pokuse, posebno izdanje. 5:377−386.
Margaletić, J., M. Moro, M. Vucelja, L. Bjedov, G. Videc, 2011: Morfološki parametri sivog puha (Glis Glis L.) uzorkovanog u šumama Gorskog kotara, CROJFE, 3(1):239−249.
Milazzo, A., W. Faletta, M. Sara, 2003: Habitat selection of fat dormouse (Glis glis italicus) in deciduous woodlands of Sicily, Acta Zool. Acad. Sci. Hung., 49 (1):117–124.
Morris, P. A., 2004: Dormice, Whittet Books Ltd, Suffolk, UK.
Edible dormouse (Glis glis L.) is the largest dormouse species. The edible dormouse is autochthonous game species in Croatia, and arboreal animal that is active at night. During the hunting season 2017./2018. we have collected 32 adult individuals (18 females and 14 males), on the area Dalmatian hinterland. Following sex determination, the following morphological parameters were measured: mass (total mass including tail, total mass without tail , head, tail, liver, kidney, heart, lung, digestive system and radman) and body length measurements (body length including tail, body length without tail, front and back width of the puck and tail length). Statistically significant difference between males and females was found in  the length of the body without the tail (p = 0.049) and tail mass (p = 0.041), with males displaying greater values for both of these features. The other measured parameters did not show significant differences between sexes. Sexual dimorphism in this rodent is not pronounced, though on average males tend to be larger and heavier than females. It was not possible to differentiate adults and juveniles based on the color of the fur and the body size. Measured morphological parameters mostly coincide with results of similar research. Edible part of internal organs constitutes 5.1% of live weight (heart and lungs 1.8%, livers 2.43% and kidneys 0.8%). Non-edible part includes stomach and intestines (12.3%), head (11.78%), tail (4%) and skin and metapodia (11.21%). Sex of an individual Edible dormouse can be safely determined by looking at the external sex organs. Body length and total mass of Edible dormouse in Dalmatian hinterland is similar to the population in the Gorski Kotar region. Although we have established a statistically significant difference in the length of the body without the tail and the mass of the tail of the males compared to the same indicators in females, they are not sufficient for the use in recognizing sex of Edible dormouse.
Key words: Edible dormouse (Glis glis L.), Dalmatian hinterland, morphology, sexual dimorphism