Scientists discover 280-million-year-old fossil tracks in remote area of the Grand Canyon


Scientists discover 280-million-year-old fossil tracks in remote area of the Grand Canyon

An international group of palaeontologists has united together to investigate significant fossil footprints found in a remote location of Grand Canyon National Park, Arizona.

A massive sandstone boulder contains many remarkably well-preserved trackways of ancient desert tetrapods (four-footed animals) which inhabited an ancient desert environment.

Close-up view of the Ichniotherium trackway from Grand Canyon National Park.

The 280-million-year-old fossil tracks date to almost the beginning of the Permian Period, prior to the appearance of the earliest dinosaurs.

The first scientific article reporting fossil tracks from the Grand Canyon was published in 1918, just a year before the park was established as a unit of the National Park Service.

One hundred years later, during the Centennial Celebration for Grand Canyon National Park, new research on ancient footprints from the park is being presented in a scientific publication released this week.

Map of Arizona (southwestern USA), indicating the main localities mentioned in the text. The Grand Canyon National Park area is shaded dark brown (left). Stratigraphic section of the Pennsylvanian and Permian rocks exposed in the Grand Canyon area (right).

Brazilian palaeontologist Dr. Heitor Francischini, from the Laboratory of Vertebrate Paleontology, Federal University of Rio Grande do Sul, is the lead author of the new publication, working with scientists from Germany and the United States.

Francischini and Dr. Spencer Lucas, Curator of Paleontology at the New Mexico Museum of Natural History and Science in Albuquerque, New Mexico, first visited the Grand Canyon fossil track locality in 2017.

The paleontologists immediately recognized the fossil tracks were produced by a long-extinct relative of very early reptiles and were similar to tracks known from Europe referred to as Ichniotherium (ICK-nee-oh-thay-ree-um).

The track-bearing boulder (Coconino Sandstone), Grand Canyon National Park, Arizona. General view of the boulder and the tracks (top). False color depth map (depth in mm) (bottom). Scale: 50 cm.

This new discovery at Grand Canyon is the first occurrence of Ichniotherium from the Coconino Sandstone and from a desert environment. In addition, these tracks represent the geologically youngest record of this fossil track type from anywhere in the world.

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Ichniotherium is a kind of footprint believed to have been made by an enigmatic group of extinct tetrapods known as the diadectomorphs. The diadectomorphs were a primitive group of tetrapods that possessed characteristics of both amphibians and reptiles.

The evolutionary relationships and paleobiology of diadectomorphs have long been important and unresolved questions in the science of vertebrate paleontology.

Although the actual track maker for the Grand Canyon footprints may never be known for certain, the Grand Canyon trackways preserve the travel of a very early terrestrial vertebrate.

The measurable characteristics of the tracks and trackways indicate a primitive animal with short legs and a massive body. The creature walked on all four legs and each foot possessed five clawless digits.

Another interesting aspect of the new Grand Canyon fossil tracks is the geologic formation in which they are preserved. The Coconino Sandstone is an eolian (wind-deposited) rock formation that exhibits cross-bedding and other sedimentary features indicating a desert / dune environment of deposition.

Therefore, the presence of Ichniotherium in the Coconino Sandstone is the earliest evidence of diadectomorphs occupying an arid desert environment.

Artwork depicting the Coconino desert environment and two primitive tetrapods, based on the occurrence of Ichniotherium from Grand Canyon National Park.

According to Francischini, “These new fossil tracks discovered in Grand Canyon National Park provide important information about the paleobiology of the diadectomorphs.

The diadectomorphs were not expected to live in an arid desert environment, because they supposedly did not have the classic adaptations for being completely independent of water. The group of animals that have such adaptations is named Amniota (extant reptiles, birds and mammals) and diadectomorphs are not one of them.”

Lucas also notes that “paleontologists have long thought that only amniotes could live in the dry and harsh Permian deserts. This discovery shows that tetrapods other than reptiles were living in those deserts, and, surprisingly, were already adapted to life in an environment of limited water.”

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During 2019, in recognition of the Grand Canyon National Park Centennial #GrandCanyon100, the National Park Service is undertaking a comprehensive paleontological resource inventory for the park.

According to National Park Service Senior Paleontologist Vincent Santucci, “A distinguished team of specialists in geology and palaeontology will participate in fieldwork and research to help expand our understanding of the rich fossil record preserved at Grand Canyon National Park.”


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