New view: fossil offers novel look at an ancient bird.A newly described specimen of an ancient creature that most scientists consider the oldest known bird is posed in a way that provides new viewing angles for several body features. Analyses of those traits bolster the notion that the 150-million-year-old creature, Archaeopteryx Archaeopteryx (är'kēŏp`tərĭks) [Gr.,=primitive wing], most primitive known bird, a 150 million-year-old fossil of which was first discovered in 1860 and described the following year in the late Jurassic limestone of Solnhofen, , as well as other birds, evolved from theropod theropod Any species of bipedal, carnivorous saurischian in the suborder Theropoda. The chicken-sized Compsognathus,the smallest known adult dinosaur, probably weighed 2–4 lb (1–2 kg); the tyrannosaurs weighed tons. dinosaurs, a team of scientists suggests. Many studies of previously described Archaeopteryx fossils, especially cranial cranial /cra·ni·al/ (-al) 1. pertaining to the cranium. 2. toward the head end of the body; a synonym of superior in humans and other bipeds. cra·ni·al adj. scans that depict the creature's braincase brain·case n. The part of the skull that encloses the brain; the cranium. and inner ear (SN: 8/7/04, p. 86), indicate that the creature could fly. The new fossil, only the 10th example of Archaeopteryx and its close relatives, is one of the best preserved, says Gerald Mayr, an ornithologist at the Senckenberg Research Institute in Frankfurt, Germany. It's also the only specimen whose skull and body are seen not in profile but from above, he notes. This viewpoint reveals characteristics unseen or unpreserved in other fossils. For instance, one palate component--a bone that's broken, missing, or obscured in other Archaeopteryx specimens, says Mayr--has a shape that's characteristic of the same bone in theropods. This long-lived group of bipedal bipedal adjective Capable of locomotion on 2 feet , meat-eating dinosaurs in later ages included Tyrannosaurus Tyrannosaurus (tīrăn'ōsôr`əs, tĭr–) [Gr.,=tyrant lizard], member of a family, Tyrannosauridae, of bipedal carnivorous saurischian dinosaurs characterized by having strong hind limbs, a muscular tail, and short rex. The new specimen's feet show resemblances to feet found in a subgroup of theropods called deinonychosaurs. For instance, each of the second toes had joints with a large range of motion and could be hyperextended, says Mayr. However, the deinonychosaur toes, but not those of Archaeopteryx, were probably useful for killing prey because they were large and had a large claw. Furthermore, rather than pointing forward as in a theropod or backward as in a perching bird, the Archaeopteryx first toe pointed sideways as a human thumb does, says Mayr. That configuration is seen on both feet, so it probably isn't simply related to the position in which the carcass was preserved. The thumblike position suggests that Archaeopteryx had limited perching capability and probably didn't spend much time in trees, Mayr notes. He and his colleagues report their findings in the Dec. 2 Science. This is a "very interesting" specimen because it reveals features of Archaeopteryx that are hard to see on the other nine fossils, says Larry D. Martin, a paleontologist at the University of Kansas The University of Kansas (often referred to as KU or just Kansas) is an institution of higher learning in Lawrence, Kansas. The main campus resides atop Mount Oread. in Lawrence. Most striking is the fossil's apparently sprawling posture, he notes, a feature that Mayr and his colleagues didn't remark upon in their report. Such a limb articulation, Martin adds, mirrors the one suggested for Microraptor gui. That 130-million-year-old creature from China had long feathers on its hind legs and may have splayed all four of its limbs to form an aerodynamic gliding surface (SN: 1/25/03, p. 51). Archaeopteryx had feathered hind limbs as well, Martin notes. However, Martin disagrees with Mayr and his colleagues' interpretation of how the living Archaeopteryx held its first toe. Rather than extending sideways, "it's reversed [pointing backward] in this specimen, and it's reversed in other specimens as well," Martin contends. Alan Feduccia Alan Feduccia is a paleornithologist, specializing in the origins and phylogeny of birds. He is the S. K. Henniger Professor at the University of North Carolina. Feduccia's authored works include The Age of Birds and The Origin and Evolution of Birds. , a paleobiologist at the University of North Carolina at Chapel Hill The University of North Carolina at Chapel Hill is a public, coeducational, research university located in Chapel Hill, North Carolina, United States. Also known as The University of North Carolina, Carolina, North Carolina, or simply UNC , also says that the new specimen's first toe was reversed. That makes Mayr's case against an arboreal arboreal pertaining to trees, treelike, tree-dwelling. lifestyle for Archaeopteryx unconvincing, Feduccia says. Moreover, all the known Archaeopteryx fossils, including the newly described one, have highly curved claws, a trait typical of modern perching birds but uncharacteristic of their ground-dwelling kin. |
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