Big gulp? Neck ribs may have given aquatic beast unique feeding style.The fossilized fos·sil·ize v. fos·sil·ized, fos·sil·iz·ing, fos·sil·iz·es v.tr. 1. To convert into a fossil. 2. To make outmoded or inflexible with time; antiquate. v.intr. neck bones of a 230-million-year-old sea creature have features suggesting that the animal's snakelike throat could flare open and create suction that would pull in prey. Such a feeding strategy has never before been proposed for an ancient aquatic reptile. Paleontologists working in southern China recently unearthed Unearthed is the name of a Triple J project to find and "dig up" (hence the name) hidden talent in regional Australia. Unearthed has had three incarnations - they first visited each region of Australia where Triple J had a transmitter - 41 regions in all. the partial remains of Dinocephalosaurus orientalis Dinocephalosaurus orientalis is a fanged reptile that inhabited the Triassic seas. Its name means "terrible headed lizard from the Orient". It is known from a single specimen found in 2002 from Southeastern China and described in Science in September 2004. , which translates as "terrible-headed lizard from the Orient." The trunk of the creature's body was less than 1 meter long, but its neck had 25 vertebrae Vertebrae Bones in the cervical, thoracic, and lumbar regions of the body that make up the vertebral column. Vertebrae have a central foramen (hole), and their superposition makes up the vertebral canal that encloses the spinal cord. and measured 1.7 m, says Olivier Rieppel, a paleontologist at the Field Museum in Chicago. Like other members of the reptile group called protorosaurs, Dinocephalosaurus had thin bones, or cervical fibs, attached to and extending alongside its neck vertebrae. "At first glance, those ribs would seem to make the neck stiff and inflexible," says Michael C. LaBarbera of the University of Chicago. The presence of certain protrusions on the cervical ribs, however, suggest to LaBarbera and his coworkers that the bones served in hunting. When Dinocephalosaurus thrust forward its head to capture prey, muscles that connected the cervical ribs to the neck vertebrae contracted, splaying the ribs and increasing the internal diameter of the animal's esophagus, says Rieppel. That created suction that pulled water and prey into Dinocephalosaurus' maw. Rieppel, LaBarbera, and Chun Li of the Institute of Vertebrate Paleontology and Paleoanthropology The Institute of Vertebrate Paleontology and Paleoanthropology (abbreviated to IVPP) is a prominent research institution and collections repository for Chinese fossils, including many dinosaur and pterosaur specimens (many from the Yixian Formation). in Beijing describe their analysis of the fossil in the Sept. 24 Science. Most modern fish and some aquatic reptiles, such as snapping turtles, take their prey via mouth suction. The suction results when muscles in the animals' mouths rapidly pull down the tongue and floor of the oral cavity oral cavity n. The part of the mouth behind the teeth and gums that is bounded above by the hard and soft palates and below by the tongue and the mucous membrane connecting it with the inner part of the mandible. . Expansion of the entire throat, as proposed for Dinocephalosaurus, could have created a much stronger suction, according to P. Martin Sander, a paleontologist at the University of Bonn The University of Bonn (German: Rheinische Friedrich-Wilhelms-Universität Bonn) is a public research university located in Bonn, Germany. Founded in 1818 the University of Bonn is nowadays one of the largest universities in Germany. in Germany. In other protorosaurs, cervical ribs spanned several vertebrae and probably weren't as mobile as they were in Dinocephalosaurus. "This is an intriguing fossil, says Nicholas C. Fraser, a paleontologist at the Virginia Museum of Natural History in Martinsville. The feeding style proposed for Dinocephalosaurus is a "plausible solution for why this animal had such a strange neck," Fraser says. He adds that the proposal remains speculative because the fossils don't indicate where muscles attached to the neck vertebrae or the cervical ribs. The bones in the fossil's skull and spine were fully ossified os·si·fy v. os·si·fied, os·si·fy·ing, os·si·fies v.intr. 1. To change into bone; become bony. 2. , but the bones in the creature's feet were only partially ossified, says Rieppel. Moreover, the protrusions where foot muscles would have attached were relatively small. The fossil's bone-ossification pattern and unusually small foot-muscle attachment sites match those characteristics in modern aquatic reptiles, such as sea turtles, and therefore suggest that the Dinocephalosaurus led a fully aquatic lifestyle. The newly described specimen of Dinocephalosaurus was found in limestone laid down as sediments in an ancient subtropical sub·trop·i·cal adj. Of, relating to, or being the geographic areas adjacent to the Tropics. subtropical Adjective of the region lying between the tropics and temperate lands ocean. Although the predator probably inhabited shallow waters near the shoreline, the researchers conclude that its remains came to rest at an offshore site at least 200 m deep. Waters of that depth would have protected the carcass from wave action that might otherwise have torn it apart. Long-necked aquatic creatures such as Dinocephalosaurus presumably pre·sum·a·ble adj. That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. were well camouflaged because, in dim or murky waters, the true bulk of an approaching predator could be hidden from the view of prey. Several independent lineages of sea beasts evolved long necks, either by attaining additional vertebrae in the neck, as Dinocephalosaurus did, or by growing longer neck bones. |
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