A team of international researchers have named a new species of Permian archosauromorph based on a single neck bone.  The animal has been named Manistropheus kulicki.  It provides new insights into the early evolution of archosauromorphs, a clade that includes the crocodiles, birds, pterosaurs and dinosaurs.  The cervical vertebra was discovered last century, but it has only just been scientifically described.  It was found at the famous Korbacher Spalte site in central Germany.  A fissure preserves the fragmentary and isolated remains of many Late Permian vertebrates.  The sediments are believed to around 255 million years old.

The Korbacher Spalte locality is important because it preserves evidence of tetrapods prior to the mass extinction event at the Permian-Triassic boundary.

The holotype of Manistropheus kulicki (SMNK-PAL 76022) shown in left lateral view. Picture credit: Carola Radke.

Picture credit: Carola Radke

Korbacher Spalte

The Korbacher locality is particularly well known for its many finds of the early mammal ancestor, a cynodont called Procynosuchus.  This synapsis is also jokingly referred to as the “Korbach dachshund” because of its appearance. However, scientists have now described a previously unknown species of archosauromorph reptile based on a single, well-preserved cervical vertebra. Distinctive characteristics of the fossil bone enabled the team to erect a new genus and species – Manistropheus kulicki.

Manistropheus kulicki Cervical Vertebra

The vertebra is characterised by an elongated, diamond-shaped centre and a crescent-shaped indentation on the side of the front edge of the vertebra. This gives the new genus its name – from the Old Norse Máni, the personification of the moon in Germanic mythology, and the Greek “stropheus,” meaning vertebra. Overall, the specimen shows similarities to early archosauromorphs but also shows features that are absent in other reptiles of that time. A comprehensive study of the phylogenetic relationships suggests that M. kulicki stands at the base of this important reptile lineage.  It is thought to be a basal archosauromorph.

The study also used an analysis of morphological diversity to investigate how cervical vertebrae have changed over the course of Earth’s history. The results suggest that archosauromorphs were already morphologically diverse before their extinction and that their cervical anatomy diversified rapidly in the Early Triassic.  Cervical vertebrae anatomy changed faster than other parts of the skeleton.

Lead author of the study, Dr Martín Ezcurra (CONICET) stated:

“This discovery is particularly significant because Permian archosauromorphs are extremely rare, with only five fossil species from this period known to date. Thanks to Manistropheus kulicki, we can see how diverse this group already was before the mass extinction.”

Co-author Professor Hans-Dieter Sues (Smithsonian Institute), added:

“This fossil not only proves the existence of a new species, but also supports the assumption that there was already a previously hidden diversity of archosauromorphs in the Permian period.”

Diverse Archosauromorphs Present in Equatorial Regions During the Late Permian

Professor Jörg Fröbisch (Museum für Naturkunde Berlin), another co-author of the study, highlighted the significance of the Korbach Spalte site.

He commented:

“The Korbach fissure site is proving to be a key location for better understanding life on land in the tropical regions of the supercontinent Pangaea shortly before the largest mass extinction in Earth’s history. “

The naming of this basal archosauromorph from Germany highlights the importance of continuing to explore lesser-known fossil sites.  It is especially important to explore fossil sites that provide insights into ancient ecosystems threatened with extinction.

Everything Dinosaur acknowledges the assistance of a media release from the Museum für Naturkunde Berlin in the compilation of this article.

The scientific paper: “A new late Permian archosauromorph reptile from Germany enhances our understanding of the early diversity of the clade” by Martín D. Ezcurra, Hans-Dieter Sues and Jörg Fröbisch published in the Journal of Systematic Palaeontology.

The Everything Dinosaur website: Prehistoric Animal Models.