Dinosaur mummy provides new insight into soft tissue fossilization
October 14th, 2022
In 2008, an Edmontosaurus "mummy" arrived at the North Dakota Geological Survey where lab technicians began the process of removing sediment and preparing the specimen for paleontologists to investigate. Nicknamed "Dakota," the mummy revealed several unexpected features, such as extensive areas of fossilized skin and the presence of a broad fingernail on the end of dinosaur's 'mitten-like' hand.
A paper published in PLOS One reveals that these bite and potential claw marks in its beautifully preserved skin defied paleontological conventions on how such fossils formed.
"Conventional wisdom was telling us that 'Dakota' shouldn't exist," said Stephanie Drumheller, lead author and paleontologist at the University of Tennessee, Knoxville. "We needed to figure out how dinosaur skin, which had clearly been partially eaten, still managed to survive long enough to be buried and fossilized."
Traditional understanding was that very rapid burial after death was necessary for soft tissue to end up in the fossil record. Burial is a great way to slow down many of the processes that break down remains, including predation and scavenging.
"Dinosaur mummies, however, never fit very well in this model," Drumheller said. "They often appeared dried out, as if they had been baking under the sun for some time."
In addition, long-term exposure would also leave the remains vulnerable to scavenging, which was thought to destroy any chance for the soft tissues to fossilize.
Fortunately, the field of forensic anthropology provided an alternate explanation. Modern research into patterns of decomposition suggests that partial scavenging of a carcass can, somewhat unintuitively, help dry and preserve skin over longer periods of time, even when the other soft tissues have decayed.
Researchers took digital images of the inside of "Dakota" that revealed the skeleton was preserved with the empty skin deflated around and appressed to the bones. All of the other internal organs were missing, which meant the dinosaur's carcass could have laid on the landscape for weeks to months before burial—plenty of time for the organs and muscles to be eaten or decompose and for the skin to dry out and deflate before it was buried in sand.
"Not only has 'Dakota' taught us that durable soft tissues like skin can be preserved on partially scavenged carcasses, but these soft tissues can also provide a unique source of information about the other animals that interacted with a carcass after death, said Clint Boyd, Senior Paleontologist at the North Dakota Geological Survey.
More information:
Stephanie K. Drumheller et al, Biostratinomic alterations of an Edmontosaurus "mummy" reveal a pathway for soft tissue preservation without invoking "exceptional conditions", PLOS ONE (2022). DOI: 10.1371/journal.pone.0275240
Provided by University of Tennessee at Knoxville