Small mammals are just as likely to become extinct as larger species, although the latter receive disproportionate attention with respect to conservation activity and research. We focused on rarity, vulnerability to extinction and conservation status for small terrestrial mammals from the orders Soricomorpha and Rodentia occurring in the Balkans and Anatolia. Although these two regions have fewer mammalian species than Central Europe in very small biota areas (surface areas 4 km2), they accumulate species at a much faster rate with increases in surface area. The distribution ranges of fifteen species from a total of 88 (= 17%) are confined to this studied area, with eight species being endemic to Anatolia and six to the Balkans. High endemism is indicative of small ranges, i.e. of one form of rarity of Rabinowitz’s ‘seven forms of rarity’ model. The ranges of at least three species (Talpa davidiana, Myomimus roachi and Dinaromys bogdanovi) have declined since the Last Glacial Maximum. Although numbers of extinctions correlates strongly with the number of endemics, and species displaying both restricted distribution and low density are those most at risk of extinction, very little conservation activity and research is focused on small-range endemics.
The vertical activity of small mammals was studied in Central Bohemia, the Czech Republic, from 2003 to 2005. In total, 424 individuals were captured by the CMR technique, in live traps placed at ground level or in trees at heights of 1 and 2 m. The most commonly captured was the yellow-necked mouse, Apodemus flavicollis (96.7 %). Other species captured in the trees were: the common dormouse, Muscardinus avellanarius and the pygmy shrew, Sorex minutus</i. Although mice captures on the ground (considered as 100 %) prevailed significantly over those in trees (84.2 % and 77.9 % at 1 and 2 m, respectively), vertical activity was still quite extensive. In the peak abundance year, mice visited trees more frequently than in the year with lower abundance. There was no clear seasonal variation in vertical activity during the May–October period. No significant difference between male and female vertical activity was found. There was a slight but non-significant positive relation between the weight of an individual and the frequency of its arboreal captures. Any preference for climbing a particular tree species was not found. Our results clearly demonstrate that tree climbing by the yellow-necked mouse represents an important component of its movement activities and this fact should be considered in future studies of its ecology.