Newly discovered Triassic lizard could float underwater to pick off prey

The skeletons of a lizard-like species, Brevicaudosaurus jiyangshanensis, have been discovered by scientists in southwest China.

(CNN)Scientists have discovered a new lizard-like species that lurked in shallow water to pick off its prey -- with the help of a short, flat tail used as a float.

Some 240 million years ago, the Triassic predator Brevicaudosaurus jiyangshanensis skulked, nearly motionless, in the sea -- and researchers found clues in its skeleton that could explain its unusual hunting methods.
Scientists at the Chinese Academy of Scientists in Beijing and Canadian Museum of Nature in Ottawa studied two skeletons discovered in a thin layer of limestone in two quarries in southwest China. The most complete skeleton, measuring just under 60 centimeters long, was found in a quarry in Jiangshan.
    The remains revealed a previously unknown species of nothosaur, with different features.
    Experts identified the 240 million-year-old remains as a previously unknown species of nothosaurs: small-headed marine reptiles with fangs, flipper-like limbs and a long neck. Usually, nothosaurs had a longer tail, which experts think was used for propulsion -- but the newly discovered reptile had a short and flat tail.
    The reptile's forelimbs were more developed than its hind limbs, and could have played a role in helping the animal to swim, the researchers noted. With its thick and dense bones -- including vertebrae and ribs -- it was likely stocky and stout in appearance.
    What's more, Brevicaudosaurus jiyangshanensis was not necessarily a speedy swimmer, experts believe, based on the evidence. However, its dense bones may have afforded it an advantage: stability. Its thick, high-mass bones could have made it neutrally buoyant in shallow water, and with the help of its flat tail, the predator could float motionless underwater while using little energy.

    Stealth hunter

    The creature, researchers also believe, could have used its neutral buoyancy to stalk the seabed in search of its next meal.
    "Our analysis of two well-preserved skeletons reveals a reptil