التفاصيل البيبلوغرافية
| العنوان: |
Myology of the pelvic limb of the brown‐throated three‐toed sloth (Bradypus variegatus). |
| المؤلفون: |
Butcher, Michael T., Morgan, Dakota M., Spainhower, Kyle B., Thomas, Dylan R., Chadwell, Brad A., Avey‐Arroyo, Judy A., Kennedy, Sarah P., Cliffe, Rebecca N. |
| المصدر: |
Journal of Anatomy; Jun2022, Vol. 240 Issue 6, p1048-1074, 27p |
| مصطلحات موضوعية: |
KNEE, LAZINESS, RANGE of motion of joints, FLEXOR muscles, FLEXOR tendons, MUSCLE mass |
| مستخلص: |
Tree sloths rely on their limb flexors for bodyweight support and joint stability during suspensory locomotion and posture. This study aims to describe the myology of three‐toed sloths and identify limb muscle traits that indicate modification for suspensorial habit. The pelvic limbs of the brown‐throated three‐toed sloth (Bradypus variegatus) were dissected, muscle belly mass was recorded, and the structural arrangements of the muscles were documented and compared with the available myological accounts for sloths. Overall, the limb musculature is simplified by containing muscles with generally long and parallel fascicles. A number of specific and informative muscle traits are additionally observed in the pelvic limb of B. variegatus: well‐developed hip flexors and hip extensors each displaying several fused bellies; massive knee flexors; two heads of the m. adductor longus and m. gracilis; robust digital flexors and flexor tendons; m. tibialis cranialis muscle complex originating from the tibia and fibula and containing a modified m. extensor digitorum I longus; appreciable muscle mass devoted to ankle flexion and hindfoot supination; only m. extensor digitorum brevis acts to extend the digits. Collectively, the findings for tree sloths emphasize muscle mass and organization for suspensory support namely by the hip flexors, knee flexors, and limb adductors, for which the latter two groups may stabilize suspensory postures by exerting appreciable medially‐directed force on the substrate. Specializations in the distal limb are also apparent for sustained purchase of the substrate by forceful digital flexion coupled with strong ankle flexion and supination of the hind feet, which is permitted by the reorganization of several digital extensors. Moreover, the reduction or loss of other digital flexor and ab‐adductor muscles marks a dramatic simplification of the intrinsic foot musculature in B. variegatus, the extent to which varies across extant species of two‐ and three‐toed tree sloths and likely is related to substrate preference/use. [ABSTRACT FROM AUTHOR] |
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