Mobility of the forearm skeleton in the Asiatic black (Ursus thibetanus), brown (U. arctos) and polar (U. maritimus) bears

• Published in: Journal of Veterinary Medical Science Vol. 83; no. 8; pp. 1284 - 1289
• Main Authors: AMAIKE, Hayato, SASAKI, Motoki, TSUZUKI, Nao, KAYANO, Mitsunori, OISHI, Motoharu, YAMADA, Kazutaka, ENDO, Hideki, ANEZAKI, Tomoko, MATSUMOTO, Naoya, NAKASHITA, Rumiko, KUROE, Misako, TARU, Hajime, BANDO, Gen, IKETANI, Yuko, NAKAMURA, Ryohei, SATO, Nobutaka, FUKUI, Daisuke, KITAMURA, Nobuo
• Format: Journal Article
• Language: English
• Published: Japan JAPANESE SOCIETY OF VETERINARY SCIENCE 2021; Japan Science and Technology Agency; The Japanese Society of Veterinary Science
• Subjects: Anatomy; Animals; Asiatic black bear; Bears; brown bear; Carnivores; Feeding behavior; Forearm; Forelimb - anatomy & histology; Functional morphology; polar bear; rotation; Skeleton; Ursidae - anatomy & histology; Ursus arctos; Ursus maritimus; Ursus thibetanus; brown bear; forearm; Asiatic black bear; polar bear; rotation
• ISSN: 0916-7250; 1347-7439; 1347-7439
• DOI: 10.1292/jvms.21-0198

In several primates and carnivores, pronation/supination angles of the forearm skeleton were examined, and it is thought that a larger angle is useful to acquire dexterous behaviors in feeding and/or life style, including climbing. In this study, the pronation/supination angles in Asiatic black, brown and polar bears were nondestructively examined. These specimens were classified as adult or non-adult. Three or four carcasses of each group of Asiatic black and brown bears were used for CT analysis, whereas only one adult polar bear was used. The forearms were positioned within the gantry of a CT scanner in both maximally supinated and pronated states. Extracted cross-sectional CT images of two positions were superimposed by overlapping the outlines of each ulna. The centroids of the radii were detected, and then the centroid of each radius and the midpoint of a line which connects between both ends of the surface of each radius facing the ulna, were connected by lines to measure the angle of rotation as an index of pronation/supination. In adult brown and polar bears, the angles were smaller as compared with the other groups (Asiatic black and non-adult brown bears). Asiatic black and non-adult brown bears can climb trees, whereas adult brown bears and polar bears cannot. This suggests that the pronation/supination angle is related to arboreal activity in Ursidae.