Mice belonging to the Mus musculus species complex from the north-eastern Iranian Plateau (Khorasan province) have been genetically characterised for allozymic variation, mitochondrial DNA and Y chromosome type and compared with samples from other geographic regions. The present study shows the existence of a transition zone between pure M. m. musculus in the North and animals related to M. m. castaneus in the South. The origin of this transition (primary or secondary contact) and the various biogeographic scenarios about its origin are discussed in the light of these new data sets. The possible role of the Harirud valley in the geographic connection between Central Asia and the Middle East is discussed.
House mice are believed to be, unlike rats, only reluctant swimmers. If water is a barrier to mouse dispersal water bodies and streams can have a substantial impact on the genetic structure of populations. Previous studies revealed influence of rivers on the position and structure of the European hybrid zone between two house mouse subspecies, Mus musculus musculus and M. m. domesticus. In this study, we used a simple motivation experiment to test the disposition of both wild and inbred mice representing the subspecies to overcome a water barrier. As the more dispersing sex, males were chosen for the experiment. Mice were tested under two air/water temperature regimes, 20 °C and 10 °C. Contrary to a common belief tested animals entered water rather easily, often even engaging in repeated swimming. We found significant differences in scored behavioural parameters between the subspecies. Under the 20 °C regime, both wild and inbred domesticus males entered and crossed the water earlier and more often swam even when satiated. Strikingly, under the 10 °C regime, the results were rather equivocal but with the opposite tendencies, with musculus males being more willing to swim. We discuss implications of these findings for the hybrid zone dynamics.