Abstract
The Red-tailed Hawk and Great Horned Owl are two species of raptor that are similar in body size, diet, and habitat. Both species use their hindlimbs during hunting, but differ in foot morphology, how they approach and immobilize prey, and the average size of prey captured. They also differ in primary flight style: the Red-tailed Hawk uses static soaring and the Great Horned Owl uses flap-gliding. The objectives of this study were to characterize the microstructure and cross-sectional shape of limb bones of these species and examine the relationship with flight and hunting behaviors. The mid-shaft of six limb bones from six individuals of each species was sampled. The degree of bone laminarity (proportion of circular primary vascular canals) and cross-sectional geometric parameters were calculated. In both species, the humerus and femur exhibited features that suggest high resistance to torsional loading, whereas the tibiotarsus and phalanges had a shape more likely to resist compression and bending in a specific plane. The femur of the Red-tailed Hawk exhibited higher laminarity and larger polar moment of area than that of the Great Horned Owl. The tibiotarsus was more elliptical than that of the Great Horned Owl. The hawk approaches prey from a more horizontal axis, takes prey of greater mass, and is more likely to pursue prey on the ground, which could potentially be causing more torsional loads on the femur and bending loads on the tibiotarsus. In addition, differences in polar moment of area of the phalanges between the species could relate to differences in foot morphology or digit length. The humerus and ulna of the flap-gliding Great Horned Owl are more elliptical than the static soaring Red-tailed Hawk, a shape that may better resist the bending loads associated with a larger amount of flapping.
Highlights
The Red-tailed Hawk (RTH, Buteo jamaicensis) and Great Horned Owl (GHO, Bubo virginianus) are two widespread species of raptor from distinct distantly related avian groups (Accipitridae and Strigiformes) found within the well-supported land bird clade [1,2]
The results indicated significant differences in laminarity between the flight modes as expected based on the different mechanical loading placed on the wing bones due to wing shape and usage
Results from bone microstructure studies generally concur with those of crosssectional geometry and find that the femur, humerus, and ulna exhibit a highly laminar structure and that laminarity is especially high in wing bones of birds with broad wing shapes [31,33,34]. Based on these previous findings and the documented differences in hunting style, foot morphology, and primary flight mode between the Red-tailed Hawk and Great Horned Owl, we have developed two specific aims for this study: (1) To characterize the cross-sectional geometry and bone microstructure of limb bones and identify patterns that may be common to these two species, and (2) To investigate whether or not there are differences in these parameters between species
Summary
The Red-tailed Hawk (RTH, Buteo jamaicensis) and Great Horned Owl (GHO, Bubo virginianus) are two widespread species of raptor from distinct distantly related avian groups (Accipitridae and Strigiformes) found within the well-supported land bird clade [1,2]. Often referred to as diurnalnocturnal ecological counterparts, studies have shown that the two species specialize on different types of prey [5,6] The Redtailed Hawk has more dietary diversity, which includes reptiles, and takes prey of significantly greater mass [6]. Red-tailed Hawks hunt from both soaring and perched positions They approach prey from a horizontal axis with hindlimbs extended, use their large hallux to grip prey and often bend their body forward to assist in pinning the prey to the ground [12,13,14]. Hawks are more likely to pursue escaped prey on the ground or use their large talons on digits one and two to drag prey to a new location [10,15]
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