3D Construction Provides Bio -Mechanical Insight

An international research team, led by Dr. Veronica Dies Dazz, Museum Furm Natcande Berlin, has used a new digital 3D construction to gain detailed insights about the movement of the Soropod graft, Brankai. The results of this study appeared in the journal Royal Society Open ScienceThe largest dinosaur bio -mechanical capabilities so far, provide insights.

Researchers analyzed a relatively compale of a sample of Gerafton Branchai, analyzing 18 reserved holes and Hemalpatics, which is in the storage of natural. So far, dinosaurs have been often neglected in research – though they play a central role in balance, locomotor, communication and defense.

The specific 3D computer programs were used to test the movements of individual arsena against each other. Which muscle forces played their role? Where did the muscles connected to the bones? As a result, which results of movement and movement led to the result?

“Our analysis shows that Jerafton’s tail was far more mobile and actively complicated than it was previously assumed,” Days explains the Dazz.

Particularly the focus was paid on the so-called Hemalist monks-the Bonnie structures below the Cadal vertebury-who often did not care for any previous studies. The results showed that these elements had a significant impact on the movement of the tail.

These detailed models of movement confirm what the Berlin Natural History Museum has already realized in the exhibition: Soropads did not drag his tail behind them. Instead, they lifted their tail and managed to move them in a flexible manner in many directions.

These results are important for currency, movements and possibly even the social interaction of these herbs. This research not only offers a new approach to the anatomy of soropods, but also provides valuable valuable impressions of future reconstruction and yellow biological interpretations.