Navarro Lorbés, PabloRuiz Pérez, JavierDíaz Martínez, IgnacioIsasmendi, ErikSáez Benito, PatxiViera, LuisPereda Suberbiola, XabierTorices Hernández, Angélica2023-06-172023-06-1720212045-232210.1038/s41598-021-02557-9https://hdl.handle.net/20.500.14352/8623Theropod behaviour and biodynamics are intriguing questions that paleontology has been trying to resolve for a long time. The lack of extant groups with similar bipedalism has made it hard to answer some of the questions on the matter, yet theoretical biomechanical models have shed some light on the question of how fast theropods could run and what kind of movement they showed. The study of dinosaur tracks can help answer some of these questions due to the very nature of tracks as a product of the interaction of these animals with the environment. Two trackways belonging to fast-running theropods from the Lower Cretaceous Enciso Group of Igea (La Rioja) are presented here and compared with other fast-running theropod trackways published to date. The Lower Cretaceous Iberian fossil record and some features present in these footprints and trackways suggest a basal tetanuran, probably a carcharodontosaurid or spinosaurid, as a plausible trackmaker. Speed analysis shows that these trackways, with speed ranges of 6.5–10.3 and 8.8–12.4 ms−1, testify to some of the top speeds ever calculated for theropod tracks, shedding light on the question of dinosaur biodynamics and how these animals moved.engAtribución 3.0 Españajournal articlehttps://doi.org/10.1038/s41598-021-02557-9open access568.19“6153”(460.21)Paleontología2416 Paleontología