Biostratinomic alterations of an Edmontosaurus mummy reveal a pathway for soft tissue preservation without invoking exceptional conditions

Removal or protection from biostratinomic agents of decomposition, such as predators and scavengers, is widely seen as a requirement for high-quality preservation of soft tissues in the fossil record. In this context, extremely rapid burial is an oft-cited mechanism for shielding remains from degradation, but not all fossils fit nicely into this paradigm. Dinosaurian mummies in particular seemingly require two mutually exclusive taphonomic processes to preserve under that framework: desiccation and rapid burial. Here we present a recently prepared Edmontosaurus mummy that reveals an alternate fossilization pathway for resistant soft tissues (e.g., skin and nails). While the skin on this specimen is well-preserved in three dimensions and contains biomarkers, it is deflated and marked by the first documented examples of injuries consistent with carnivore activity on dinosaurian soft tissue during the perimortem interval. Incomplete scavenging of the carcass provided a route for the gases, fluids, and microbes associated with decomposition to escape, allowing more durable soft tissues to persist through the weeks to months required for desiccation prior to entombment and fossilization. This pathway is consistent with actualistic observations and explains why dinosaurian skin, while rare, is more commonly preserved than expected if extreme circumstances were required for its preservation. More broadly, our assumptions guide specimen collection and research, and the presence of soft tissues and biomolecules in fossils that demonstrably were not rapidly buried, such as this mummy, suggests that such types of evidence may be substantially more common than previously assumed.

Automated summary

Fast burial is a common mechanism for preserving soft tissues in fossils, but not all fossils fit into this category. This study presents an Edmontosaurus mummy that demonstrates an alternative fossilization pathway for resistant soft tissues. The well-preserved skin on the specimen shows signs of carnivore activity, indicating incomplete scavenging of the carcass. This allowed for gases, fluids, and microbes associated with decomposition to escape, enabling the durable soft tissues to persist before desiccation and fossilization.