Your search keyword '"Gong, Enpu"' showing total 3 results

1. Model tests of gliding with different hindwing configurations in the four-winged dromaeosaurid Microraptor gui

Author

Alexander, David E., Gong, Enpu, Martin, Larry D., Burnham, David A., and Falk, Amanda R.

Subjects

Dromaeosaurids -- Physiological aspects, Dromaeosaurids -- Natural history, Dromaeosaurids -- Research, Biomechanics -- Models, Biomechanics -- Research, Wings (Animal) -- Physiological aspects, Wings (Animal) -- Natural history, Wings (Animal) -- Research, Birds -- Flight, Birds -- Physiological aspects, Birds -- Research, Science and technology

Abstract

Fossils of the remarkable dromaeosaurid Microraptor gui and relatives clearly show well-developed flight feathers on the hind limbs as well as the front limbs. No modern vertebrate has hind limbs functioning as independent, fully developed wings; so, lacking a living example, little agreement exists on the functional morphology or likely flight configuration of the hindwing. Using a detailed reconstruction based on the actual skeleton of one individual, cast in the round, we developed light-weight, three-dimensional physical models and performed glide tests with anatomically reasonable hindwing configurations. Models were tested with hindwings abducted and extended laterally, as well as with a previously described biplane configuration. Although the hip joint requires the hindwing to have at least 20[degrees] of negative dihedral (anhedral), all configurations were quite stable gliders. Glide angles ranged from 3[degrees] to 21[degrees] with a mean estimated equilibrium angle of 13.7[degrees], giving a lift to drag ratio of 4.1:1 and a lift coefficient of 0.64. The abducted hindwing model's equilibrium glide speed corresponds to a glide speed in the living animal of 10.6 m x [s.sup.-1]. Although the biplane model glided almost as well as the other models, it was structurally deficient and required an unlikely weight distribution (very heavy head) for stable gliding. Our model with laterally abducted hindwings represents a biologically and aerodynamically reasonable configuration for this four-winged gliding animal. M. gui's feathered hindwings, although effective for gliding, would have seriously hampered terrestrial locomotion. biomechanics | bird flight evolution | feathered dinosaurs | model tests | tetrapteryx www.pnas.org/cgi/doi/10.1073/pnas.0911852107

Published

2010

2. The birdlike raptor Sinornithosaurus was venomous

Author

Gong, Enpu, Martin, Larry D., Burnham, David A., and Falk, Amanda R.

Subjects

Dromaeosaurids -- Research, Glands -- Research, Science and technology

Abstract

We suggest that some of the most avian dromaeosaurs, such as Sinornithosaurus, were venomous, and propose an ecological model for that taxon based on its unusual dentition and other cranial features including grooved teeth, a possible pocket for venom glands, and a groove leading from that pocket to the exposed bases of the teeth. These features are all analogous to the venomous morphology of lizards. Sinornithosaurus and related dromaeosaurs probably fed on the abundant birds of the Jehol forests during the Early Cretaceous in northeastern China. dromaeosaur | Jehol | grooved fangs | venomous delivery system www.pnas.org/cgi/doi/10.1073/pnas.0912360107

Published

2010

3. Model tests of gliding with different hindwing configurations in the four-winged dromaeosaurid Microraptor gui.

Author

AIexander, David E., Gong, Enpu, Martin, Larry D., Burnham, David A., and FaIk, Amanda R.

Subjects

*DROMAEOSAURIDAE, *FOSSIL vertebrates, *HINDLIMB, *HIP joint, *THREE-dimensional imaging

Abstract

Fossils of the remarkable dromaeosaurid Microraptor gui and relatives clearly show well-developed flight feathers on the hind limbs as well as the front limbs. No modern vertebrate has hind limbs functioning as independent, fully developed wings; so, lacking a living example, little agreement exists on the functional morphology or likely flight configuration of the hindwing. Using a detailed reconstruction based on the actual skeleton of one individual, cast in the round, we developed light-weight, three-dimensional physical models and performed glide tests with anatomically reasonable hindwing configurations. Models were tested with hindwings abducted and extended laterally, as well as with a previously described biplane configuration. Although the hip joint requires the hindwing to have at least 200 of negative dihedral (anhedral), all configurations were quite stable gliders. Glide angles ranged from 3° to 21° with a mean estimated equilibrium angle of 13.7°, giving a lift to drag ratio of 4.1:1 and a lift coefficient of 0.64. The abducted hindwing model's equilibrium glide speed corresponds to a glide speed in the living animal of 10.6 m∙s-1. Although the biplane model glided almost as well as the other models, it was structurally deficient and required an unlikely weight distribution (very heavy head) for stable gliding. Our model with laterally abducted hindwings represents a biologically and aerodynamically reasonable configuration for this four-winged gliding animal. M. gui's feathered hindwings, although effective for gliding, would have seriously hampered terrestrial locomotion. [ABSTRACT FROM AUTHOR]

Published

2010