Jurassic fossil juvenile reveals prolonged life history in early mammals

Article

Panciroli, Elsa; Benson, Roger B. J.; Fernandez, Vincent; Fraser, Nicholas C.; Humpage, Matt; Luo, Zhe-Xi; Newham, Elis; Walsh, Stig

University of Oxford; American Museum of Natural History (AMNH); European Synchrotron Radiation Facility (ESRF); University of Chicago; University of London; Queen Mary University London; University of Bonn

Nature

0028-5040

10.1038/s41586-024-07733-1

2024-08-22

Living mammal groups exhibit rapid juvenile growth with a cessation of growth in adulthood1. Understanding the emergence of this pattern in the earliest mammaliaforms (mammals and their closest extinct relatives) is hindered by a paucity of fossils representing juvenile individuals. We report exceptionally complete juvenile and adult specimens of the Middle Jurassic docodontan Krusatodon, providing anatomical data and insights into the life history of early diverging mammaliaforms. We used synchrotron X-ray micro-computed tomography imaging of cementum growth increments in the teeth2-4 to provide evidence of pace of life in a Mesozoic mammaliaform. The adult was about 7 years and the juvenile 7 to 24 months of age at death and in the process of replacing its deciduous dentition with its final, adult generation. When analysed against a dataset of life history parameters for extant mammals5, the relative sequence of adult tooth eruption was already established in Krusatodon and in the range observed in extant mammals but this development was prolonged, taking place during a longer period as part of a significantly longer maximum lifespan than extant mammals of comparable adult body mass (156 g or less). Our findings suggest that early diverging mammaliaforms did not experience the same life histories as extant small-bodied mammals and the fundamental shift to faster growth over a shorter lifespan may not have taken place in mammaliaforms until during or after the Middle Jurassic. Juvenile and adult skeletons of Middle Jurassic Krusatodon from the Isle of Skye, Scotland, show that this mouse-sized mammaliaform had longer development and lifespan than modern mammals of similar mass.