Newswise — More mammals were living on the ground several million years before the mass extinction event that wiped out the dinosaurs, new research led by the University of Bristol has revealed.

The study, published today [2 April] in the journal Palaeontology, provides fresh evidence that many mammals were already shifting toward a more ground-based lifestyle leading up to the asteroid’s impact.

By analysing small-fossilised bone fragments, specifically end of limb bones, from marsupial and placental mammals found in Western North America - the only place with a well-preserved terrestrial fossil record from this time – the team discovered signs that these mammals were adapting to life on the ground. End of limb bones were analysed as they bear signatures of locomotory habit that can be statistically compared with modern mammals.

Lead author from the said: “It was already known that plant life changed toward the end of the Cretaceous, with flowering plants, known as angiosperms, creating more diverse habitats on the ground. We also knew that tree dwelling mammals struggled after the asteroid impact. What had not been documented, was whether mammals were becoming more terrestrial, in line with the habitat changes.”

While previous studies used complete skeletons to study ancient mammal movement, this research is one of the first to use small bone elements to track changes within an entire community. The team have used statistical data from museum collections in New York, California, and Calgary to analyse these tiny fossils.

Professor Janis added: “The vegetational habitat was more important for the course of Cretaceous mammalian evolution than any influence from dinosaurs.”

The evidence was gathered from bone articular fragments of therian mammals, which includes marsupials and placentals. The team’s methods were not applied to more basal mammals such as multiberculates, which were common at the time, because their bones were different.

Professor Janis said: “We've known for a long time that mammalian long bone articular surfaces can carry good information about their mode of locomotion, but I think this is the first study to use such small bone elements to study change within a community, rather than just individual species.”

While this research marks the end of the project, the findings offer new insights into how prehistoric mammals responded to changing environments – a few million years before the asteroid impact reshaped life on Earth.

Paper

by C.M. Janis, A. Martín-Serra, J.M. Theodor and C.S. Scott in Palaeontology