The research study was focused on evaluation of morphological distinct features of the crossbred sable young animals produced through crossing between wild and farmed animal populations to create a new breed type. Overall, 70 animals including 6-month-old purebred and crossbred young animals and wild sables above 3 years old were examined. They were divided into the groups for purebred females (n = 17) and males (n = 11), crossbred females (n = 9) and males (n = 11), and wild females (n = 11) and males (n = 11). The conformation parameters were recorded during the periods of appraising (the animal body weight, body length, and chest girth) and scheduled slaughtering (the animal palm, foot, and tail lengths, craniometric parameters, and hair height) in October 2024. The craniometric parameters for the scull facial and cranial lengths and widths and the external auditory meatus were recorded. The hair height was measured with the use of pelts after primary processing. The heaviest body weight among females was recorded in the purebred (1096.2 g) and crossbred (1090.0 g) animals, which was heavier than the wild animal weight by 72.6–78.8 g (p ≥ 0.99). The weight of males from the distinct groups was not statistically different (p ≥ 0.95). The crossbred female length (41.2 cm) was 3 cm longer (p ≥ 0.95) than that for the wild females (43.8 cm), while the length of the wild males was 2.6 cm longer than that for the purebred males. The length of the body-side guard hairs was not significantly different between the animal groups. In the purebred sables, insignificant variability in backbone hair length was observed between males ana females (males—3.9 cm, females—3.8 cm). In addition, statistically significant differences between the groups were absent. The hair length on the rump in the wild females (4.0 cm) was significantly greater than that for the crossbred females by 0.6 cm (p ≥ 0.99), while it was at the same level in males of all the groups (3.9 cm). The conformation traits variability observed in the crossbred sable young stock produced through crossing the wild and farmed animal populations can prove the opportunity to create a new sable breed type with the desired conformation characteristics.
Balakirev et al. (Mon,) studied this question.