Climate drivers and palaeobiogeography of lagerpetids and early pterosaurs

The origin of pterosaurs, the first vertebrates to achieve powered flight, is poorly understood, due to the temporal and morphological gaps that separate them from their closest non-flying relatives, the lagerpetids. Although both groups coexisted during the Late Triassic, their limited sympatry is currently unexplained, implying that ecological partitioning, potentially linked to palaeoclimate, influenced their early evolution. Here we analysed pterosauromorph (pterosaur + lagerpetid) palaeobiogeography using phylogeny-based probabilistic methods and integrating fossil occurrences with palaeoclimate data. Our results reveal distinct climatic preferences and dispersal histories: lagerpetids tolerated a broader range of conditions, including arid belts, enabling a widespread distribution from the Middle to early Late Triassic. Conversely, pterosaurs preferred wetter environments resulting in a patchier geographical distribution that only expanded as humidity increased in the Late Triassic, likely following the Climate Pluvial Event. This major environmental disturbance, potentially driven by changes in CO₂ -related thermal constraints and/or palaeogeography, appears to have played a key role in shaping early pterosauromorph evolution by promoting spatial segregation and distinct climatic niche occupation.