November 5, 2024

Tipping the scales — Scales helped reptiles conquer the landwhen did they first evolve? 300 million-year-old tail print shows that scales evolved earlier than expected.

Jeanne Timmons – Jun 27, 2024 1:40 pm UTC Enlarge / Upper left: a reconstruction of Diadcetes. Below: false color images of its foot and tail prints. Right: the section of the tail that left the print.Voigt et. al./Urweltmuseum GEOSKOP. reader comments 1

Their feet left copious traces in muddy Permian floodplains, leaving tracks scattered across ancient sediments. But in one slab of such trackways, scientists uncovered something more: the trace of an animals tail as it dragged across the ground. Strikingly, these tail prints come complete with scale impressionsat 300 million years old, theyre among the earliest scale impressions we have.

This may seem small, but it shows us that some of the hardened skin structures necessary for our ancestors to survive on land had evolved much earlier than previously suspected. A paper published in Biology Letters this past May describes this discovery in detail. A rare find

The particular slab holding these traces was discovered in 2020 at the Piaskowiec Czerwony quarry in Poland. Mining had stopped to enable paleontologists to search the red sandstone rocks for fossils. Gabriela Calbkov described climbing upon a huge pile of rubble only to discover a sizable slab of fossil tracks at the very top. There, among one set of footprints, was something new.

She called to her colleagues to join her at the top of the pile. None of them, she said, had ever encountered that kind of trace fossil before, but they quickly understood that it must be a body impression, she explained to Ars.

Calbkov is a paleontologist at the Moravian Museum. She and her co-authors are part of a joint effort by Polish, Czech, and German scientists studying the Permian in Polanda geologic time period that stretches from 289.9 to 252 million years ago. The Piaskowiec Czerwony quarry is the worlds second-largest producer of one particularly recognizable type of Permian track known as Ichniotherium cottae. (If you were asked to draw hands, you might come up with something that looks like Ichniotherium cottae. The five bulbous imprints of the digits are almost cartoonish.)

Footprints and tail drags are examples of ichnofossils, or trace fossils. As their name suggests, these are the fossilized marks or traces made during the life of an animal. Matching the exact animal to its trace is almost impossible, especially when body fossils are absent, so traces themselves are often given scientific names.

In this case, however, we may have identified the source, which is why the worlds leading site of these same tracks is in nearby Germany, where the spectacular Bromacker site has not only produced abundant Permian tracks, it has also provided the fossils of animals with feet that appear to match the prints. They belong to diadectimorphs, four-legged vertebrates (tetrapods) that were a distant forerunner of mammals.

Bromacker has also provided a helpful verification of the exceedingly rare tail drag found in the Piaskowiec Czerwony quarry. The only two other known tail drags associated with I. cottae trackways were found there. They, too, have similar corn cob-shaped scales. Page: 1 2 Next → reader comments 1 Jeanne Timmons A renewed interest in paleontology later in life propelled Jeanne to start freelance writing. Her Bachelor’s degree from Drew University was not in science, so shes spent over ten years taking online classes and reading paleontological books and scientific papers. She has also attended annual meetings of the Society of Vertebrate Paleontology and the International Conference on Mammoths and Their Relatives, and was a participant in the Valley of the Mastodons conference at Californias Western Science Center. Scientists from all over the globe have been interviewed for her blog (mostlymammoths.wordpress.com). Her work appears in Ars, Gizmodo, and the New York Times. You can find her on Twitter @mostlymammoths. Advertisement Channel Ars Technica ← Previous story Related Stories Today on Ars