The ancestors of modern mammals managed to evolve into one of the most successful animal lineages – the key was to start out small and simple, a new study reveals.
In many vertebrate groups, such as fishes and reptiles, the skull and lower jaw of animals with a backbone are composed of numerous bones. This was also the case in the earliest ancestors of modern mammals over 300 million years ago.
However, during evolution the number of skull bones was successively reduced in early mammals around 150 to 100 million years ago.
Publishing their findings today in Communications Biology, an international team of palaeontologists show how they used computer simulations and stress analyses to investigate the purpose of this skull simplification.
Their research demonstrates that reducing the number of skull bones did not lead to higher bite forces or increased skull strength as hypothesized for many decades. Instead, the team found that the skull shape of these early mammals redirected stresses during feeding in a more efficient way.
Lead-author Dr Stephan Lautenschlager, Senior Lecturer for Palaeobiology at the University of Birmingham commented: “Reducing the number of bones led to a redistribution of stresses in the skull of early mammals. Stress was redirected from the part of the skull housing the brain to the margins of the skull during feeding, which may have allowed for an increase in brain size.
“Changes to skull structure combined with mammals becoming smaller are linked with a dietary switch to consuming insects – allowing the subsequent diversification of mammals which led to development of the wide-range of creatures that we see around us today.”
The study further demonstrated that alongside the reduction of skull bones, early mammals also became a lot smaller, some of which had a skull length of only 10-12 mm. This miniaturization considerably restricted the available food sources and early mammals had adapted to feeding mostly on insects.
This combination of small size, reduced number of skull bones and feeding on new food sources, such as insects, allowed the ancestors of modern mammals to thrive in the shadows of the dinosaurs.
However, it was not until dinosaurs became extinct at the end of the Cretaceous, some 66 million years ago, that mammals had a chance to further diversify and reach the large range of body sizes seen today.
ENDS
Notes to Editors
- The University of Birmingham is ranked amongst the world’s top 100 institutions, its work brings people from across the world to Birmingham, including researchers and teachers and more than 8,000 international students from over 150 countries.
- ‘Functional reorganisation of the cranial skeleton during the cynodont–mammaliaform transition’ – Stephan Lautenschlager, Michael J. Fagan, Zhe-Xi Luo, Charlotte M. Bird, Pamela Gill and Emily J. Rayfield is published in Communications Biology.
- Participating institutions include the Universities of Birmingham, Hull and Bristol, in the UK; the University of Chicago, USA; and The Natural History Museum, London.