November 9, 2011
Researchers Track Half-billion Year Old Predator
Researchers from the University of Saskatchewan and Royal Ontario Museum (ROM) have followed fossilized footprints to a multi-legged predator that ruled the seas of the Cambrian period about half a billion years ago.
"Short of finding an animal at the end of its trackway, it's really very rare to be able to identify the producer so confidently," said Nicholas Minter, lead author of the article on the study, which appears in the latest issue of the Proceedings of the Royal Society B. Minter is a postdoctoral research fellow in the U of S department of geological sciences.
Fossils from the Burgess Shale record not only the animals themselves — exceedingly rare because most of them had soft bodies — but also the trackways they left behind while hunting on the sea floor.
"Most researchers have focused on the body fossils of the Burgess Shale," said study co-author Gabriela MÃ¡ngano, who co-leads the ichnology research group in the U of S geological sciences department with colleague Luis Buatois. "By studying its trackways, trails and burrows, we may dramatically impact our understanding of these ancient ecosystems."
Key to the research were trackways collected during a field expedition in 2008 led by ROM curator Jean-Bernard Caron.
"I spotted a portion of the largest trackway, which is over three meters in length, in 2000," he said. "At that time we left most of it behind us. We could not carry the pieces safely down slope from this remote site without helicopter support."
The 2008 expedition included this support, so fragments of the trackway were collected by carefully separating them from the associated rock layers. These delicate pieces were then packed, air lifted from the mountain, and shipped to the ROM.
Fossil trackways and other fossilized evidence of animal activities such as burrows, bite marks and feces are known as trace fossils. These provide evidence of where animals were living and what they were doing, but the full identity of the producers is rarely known.
In this case, size of the tracks and the number of legs needed to make them left only one suspect: Tegopelte gigas. This caterpillar-like animal sported a smooth, soft shell on its back and 33 pairs of legs beneath. One of the largest arthropods of its time, it could reach up to 30 cm in length.
By analyzing both the fossilized remains of Tegopelte and the trackways, the researchers were able to reconstruct how this animal would have moved. The creature was capable of skimming rapidly across the seafloor, with legs touching the sediment only briefly, supporting the view that Tegopelte was a large and active top carnivore. Such lifestyles would have been important in shaping early marine communities and evolution during the Cambrian explosion.
The trackways were collected under Parks Canada Research and Collecting permits and are now located at the ROM. Managed by Parks Canada, the Burgess Shale was recognized in 1981 as one of Canada's first UNESCO World Heritage Sites. Now protected under the larger Rocky Mountain Parks UNESCO World Heritage Site, the Burgess Shale attracts visitors to Yoho each year for guided hikes to the restricted fossil beds from July to September.
The full article, "Skimming the surface with Burgess Shale arthropod locomotion," is published in the Proceedings of the Royal Society B.
Funding for this research was provided through grants from the Natural Sciences and Engineering Research Council, the Canadian Commonwealth Scholarship Program, the U of S and ROM.
Image 1: This is Burgess Shale on Mount Field where fossil trackways were collected by the ROM in 2008. Credit: Copyright Royal Ontario Museum photo: Jean-Bernard Caron
Image 2: This shows Burgess Shale arthropod trackways. (a-b) Detail of the beginning of ROM 61454 and line drawing. (c) ROM 61455, showing a gradual turn. (d) ROM 61456, showing a sharp turn with outer splaying of tracks. Scale bars, 100 mm. Credit: Photo: Royal Ontario Museum
Image 3: This is an illustration of the reconstruction of Tegopelte gigas producing a trackway. Credit: Copyright 2011 Marianne Collins
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