Anderson, Jason ScottHeusinkveld, Holly Tegan2024-05-292024-05-292024-05-28Heusinkveld, H. T. (2024). The rhizodonts of Blue Beach, Nova Scotia, Canada (Horton Bluff Formation, Tournaisian Age): new data on Letognathus hardingi, other genera occurrences, and their phylogenetic implications within the Devonian-Carboniferous faunal transition (Master's thesis, University of Calgary, Calgary, Canada). Retrieved from https://prism.ucalgary.ca.https://hdl.handle.net/1880/118859https://doi.org/10.11575/PRISM/46456Twenty-three Tournaisian-aged fossils from the Horton Bluff Formation of Blue Beach, Nova Scotia, Canada, were identified as consisting mainly of rhizodont material. Collected from the stratigraphic fossil hiatus “Romer’s Gap”, rhizodont specimens in the sample include humeri, skull bones, shoulder bones, a dermopalatine, and a portion of a braincase. The rhizodont genera identified were Letognathus, Strepsodus, and Rhizodus, which demonstrates a greater rhizodont diversity at Blue Beach than previously known. New morphological characters now identifiable to Letognathus from the sample include postparietals with an interdigitated interpostparietal suture, an ossified braincase, and a compact, semicircular humerus. Unlike the highly derived Strepsodus and Rhizodus, Letognathus displays a more equal mix of rhizodont characters that first appeared in Devonian genera and characters typical of derived Carboniferous genera. Letognathus shares the most in common with the Carboniferous genus Barameda, and is placed phylogenetically as a possible sister taxon to Barameda within the Rhizodontidae. The Strepsodus material from the sample consists of two examples of postparietals and a single humerus. The Rhizodus material consists of a scapulocoracoid. The possible cohabitation of Letognathus, Strepsodus, and Rhizodus at Blue Beach parallels the patterns of overlap previously found among Blue Beach actinopterygians and tetrapods, where related taxa with a greater number of ancestral Devonian characters overlapped taxa with more derived Carboniferous morphologies. This trend across families of closely related taxa with unique combinations of typical Devonian and Carboniferous morphologies overlapping in the Early Carboniferous argues against Romer’s initial proposal that the fossils of the layers composing Romer’s Gap would consist largely of intermediate forms between Devonian and Carboniferous morphologies.enUniversity of Calgary graduate students retain copyright ownership and moral rights for their thesis. You may use this material in any way that is permitted by the Copyright Act or through licensing that has been assigned to the document. For uses that are not allowable under copyright legislation or licensing, you are required to seek permission.RhizodontSarcopterygiantetrapodomorphLetognathusRhizodusStrepsodusBlue BeachtetrapodDevonianCarboniferousBaramedaphylogenyevolutionD-C boundaryRomer's Gapfaunal transitionNova Scotia geologyRhizodontidaehardingiEarly CarboniferoussarcopterygiifossilfishNova Scotia fossilsHorton BluffTournaisianEducation--SciencesHistory--AncientHistory--CanadianZoologyGeologyPaleontologyPaleozoologymaster thesis