Functional Differentiation of Long Bones in Lorises (original) (raw)
Online Publication Date:
14 Feb 1989
The external dimensions of the limb bones and the geometry of their midshaft cross-sections were determined for Loris tardigradus and Nycticebus coucang. Relative cortical thickness, cortical area, and second moment of area were calculated and contrasted with locomotor stresses. The difference in shape-related strength of the bones between the smaller- and the larger-bodied species is more pronounced than can be expected from stresses acting during normal locomotion. The Nycticebus skeleton has a much higher safety margin overall and seems to be dimensioned for infrequent but critical stresses of high magnitude. Lorisine gaits in general are characterized by low ground reaction forces, great mobility in all joints, and a nearly equal share in propulsion and weight-bearing by the fore- and hindlimb. Accordingly, the long bones of lorises (especially those of L. tardigradus) tend to be less rigid than those of other mammalian species (including other primates), they lack a preferential plane of higher bending strength, and femur and humerus do not differ markedly in their capacity to withstand mechanical stresses. External dimensions of the humerus and femur of the two African lorisine species parallel and corroborate these results. Some more general implications for the relationships between bone shape and locomotor stresses are also discussed.
Access options
Get access to the full article by using one of the access options below.
Buy instant access (PDF download and unlimited online access):
| All Time | Past Year | Past 30 Days | |
|---|---|---|---|
| Abstract Views | 142 | 79 | 7 |
| Full Text Views | 2 | 2 | 0 |
| PDF Views & Downloads | 5 | 5 | 0 |
Online Publication Date:
14 Feb 1989
Download Citation Get Permissions
Access options
Get access to the full article by using one of the access options below.
Institutional Login
Log in with Open Athens, Shibboleth, or your institutional credentials
Buy instant access (PDF download and unlimited online access):
The external dimensions of the limb bones and the geometry of their midshaft cross-sections were determined for Loris tardigradus and Nycticebus coucang. Relative cortical thickness, cortical area, and second moment of area were calculated and contrasted with locomotor stresses. The difference in shape-related strength of the bones between the smaller- and the larger-bodied species is more pronounced than can be expected from stresses acting during normal locomotion. The Nycticebus skeleton has a much higher safety margin overall and seems to be dimensioned for infrequent but critical stresses of high magnitude. Lorisine gaits in general are characterized by low ground reaction forces, great mobility in all joints, and a nearly equal share in propulsion and weight-bearing by the fore- and hindlimb. Accordingly, the long bones of lorises (especially those of L. tardigradus) tend to be less rigid than those of other mammalian species (including other primates), they lack a preferential plane of higher bending strength, and femur and humerus do not differ markedly in their capacity to withstand mechanical stresses. External dimensions of the humerus and femur of the two African lorisine species parallel and corroborate these results. Some more general implications for the relationships between bone shape and locomotor stresses are also discussed.
Content Metrics
| All Time | Past Year | Past 30 Days | |
|---|---|---|---|
| Abstract Views | 142 | 79 | 7 |
| Full Text Views | 2 | 2 | 0 |
| PDF Views & Downloads | 5 | 5 | 0 |