Muscle function during swimming and running in aquatic, semi-aquatic and cursorial birds.

摘要

The function of large hindlimb muscles with long fascicles and complicated architecture has been studied in many organisms specialized for terrestrial locomotion. Studies of muscle function, energetics and blood flow have allowed a to more accurate determination of which muscles play an important roles during running. One muscle that has been hypothesized to play such a role in birds is the Iliotibialis Lateralis pars Post Acetabularis (ILPO). The ILPO is a large muscle in the hindlimb of cursorial birds, receives a large proportion of the blood flow during running at high speeds, and tends to be reduced or lost in birds that do not employ walking or running as their primary form of locomotion.; One of the goals of this study was to comprehensively characterize the function of the ILPO, taking into account the ILPO's long fascicles that vary in length, the muscle's complex origin and insertion, and its anatomical variations seen across different bird orders. In order to characterize the ILPO's function during running, length changes and electrical activity were measured along the posterior fascicle of the ILPO and between the anterior and posterior fascicle of the ILPO in the Helmeted Guinea Fowl (Numida meleagris ). To determine how the ILPO functions during other types of locomotion in species that are not specialized for cursorial locomotion, the function of the ILPO was measured during swimming and running in the Common Moorhen (Gallinula chloropus), a bird that employs both swimming and terrestrial forms of locomotion, and the Mallard (Anas platyrhynchus ), a bird that -- while capable of terrestrial locomotion - locomotes primarily via surface swimming. Finally, the function of another muscle was measured in the mallard that, based on blood flow and anatomical studies, appears to play an important role during swimming, the Flexor Cruris Lateralis (FCL).; Our results demonstrate that, when active, the ILPO in the guinea fowl experiences similar amounts of length change and has the same average velocity during active lengthening and active shortening between fascicles. It is hypothesized that the varying moment arm at the hip as well as the tendinous aponeurosis play a role in maintaining a uniform amount of active strain among fascicles of different lengths.; In the common moorhen and mallard, the ILPO's function during terrestrial locomotion appears to be relatively conserved and a similar strain pattern during cursorial locomotion is observed in all three species. Although the ILPO is active during swimming in both the mallard and the common moorhen, our results suggest that the ILPO does not play a large functional role during swimming in either species.; Based on our results, the FCL of the mallard appears to function in both terrestrial locomotion and during swimming. During running, the FCL actively shortens during the stance phase, producing positive work which likely counteracts cocontracting knee extensors and driving knee flexion. During swimming the FCL is actively lengthened, and later isometric, for a large portion of the swim cycle.; This research demonstrates how muscles can function in different types of locomotion and in different species during the same type of locomotion. The variations observed within the ILPO and the FCL in terms of both structure and function demonstrates the importance of muscles functioning to produce positive work and demonstrates how muscles play an important role in stability during both swimming and running either by remaining isometric or by being lengthened while active. (Abstract shortened by UMI.)