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| Reconstruction of Protocinctus mansillaensis in life position [Credit: O. Sanisidro] |
The fossil under study is a 'primitive' relative of starfish and sea urchins and belongs to a group of marine animals known as echinoderms. It is thought to lie close to the base of the echinoderm tree of life.
The results of the computer simulations show that the animal fed by actively drawing water into its mouth using internal gill slits, rather than passively waiting for food to come to it. Because the fossil represents one of the earliest ever echinoderms, this also suggests that the ancestor of echinoderms and vertebrates employed the same feeding strategy.
The fossil is named Protocinctus mansillaensis and it belongs to an extinct group of echinoderms called cinctans. It was discovered in rocks from northeast Spain.
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| Computer simulation of water flow around a 3-D model of Protocinctus mansillaensis [Credit: I.A. Rahman] |
Co-author Dr Samuel Zamora, a researcher at the Geological and Mining Institute of Spain, added: "The application of cutting-edge techniques, like CT scanning and computational fluid dynamics, allowed us to reconstruct the feeding mode of this long-extinct animal for the first time."
Computational fluid dynamics is a method for simulating fluid flows that is commonly used in engineering, for example in aircraft design, but this is one of the first applications in palaeontology.
Dr Peter Falkingham, also a co-author on the study and a palaeontologist at Liverpool John Moores University, said: "The advantage of using simulation techniques like this is that you can control all of the variables and test things one by one. We could set up multiple experiments that were identical save for one variable, such as the animal's orientation, to explore the effects on feeding performance."
The study is published today in the journal Proceedings of the Royal Society B.
Source: University of Bristol [October 28, 2015]