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Inproceedings Reference A new record of a Paleogene cetacean (Basilosauridae, aff. Basilotritus) from the St. Pietersberg, Maastricht, Southeast Netherlands
Located in Library / RBINS Staff Publications
Inproceedings Reference A new scenario for the diversification and dispersal of the earliest perissodactyls
The first true perissodactyls (the group that includes extant horses, rhinoceroses and tapirs) appear almost simultaneously in the fossil record from the very beginning of the Eocene (56 million years ago) in Western Europe, Asia and North America. However, they already seem to belong to distinct families. This apparent diversity raises questions about the palaeobiogeographical and phylogenetic origins of these groups, which are still the subject of much debate. Indeed, the closest relative of perissodactyls is still uncertain, although two potential sister-groups now seem to be widely accepted: perissodactyls could either be closer to certain North American Phenacodontidae (Halliday et al. 2017), or rather a sister-group of Anthracobunia from the Indian subcontinent (Rose et al. 2019). The first results of the Belspo project PerissOrigin presented here is to gain a better understanding of the first dichotomies of ancient perissodactyls and their palaeobiogeographical origins. Thanks to a revision of the oldest known fossil perissodactyls, a new phylogeny has been carried out. This new phylogeny enables to define some synapomorphies of the major groups of perissodactyls and to propose a palaeobiogeographical scenario. It also shows that the earliest known perissodactyls were much more cosmopolitan than previously thought, and that some genera that were thought to be endemic from Europe were actually also found in North America and Asia. Finally, we discuss the unresolved problems in the phylogeny of Perissodactyla, notably the uncertain position of Palaeotheriidae (a group endemic to Europe) and the absence of postcranial characters in our analysis.
Located in Library / RBINS Staff Publications 2024
Inproceedings Reference A new small crocodylian skull from the early Paleocene of Qianshan, Anhui, China reveals an ancient Asian ghost lineage
The Crocodylia include all modern crocodiles, alligators, caimans and gharials, and their extinct relatives. They are an ancient lineage that originated around 70 million years ago. Recently, the field of crocodylian paleontology has experienced a rise in attention from researchers, however, much is still unknown about the early evolution of this group. Our research describes newly discovered fossil material comprised of a small crocodylian skull and associated partial lower jaw of early Paleocene age. It was discovered during a Belgian-Chinese expedition in Qianshan Basin, Anhui Province, China, as part of a bilateral cooperation project between the Royal Belgian Institute of Natural Sciences and the Institute of Botany of the Chinese Academy of Sciences. In the present study, the fossil material is formally described for the first time. Micro-CT scans are made to visualize internal anatomical structures, as well as characters hidden by the sediment. A comprehensive morphological study is executed, revealing that the specimen is a juvenile. It likely constitutes a new species and genus, as it differs from other crocodyloids by several autapomorphies. A phylogenetic analysis based on morphological characteristics reveal that this specimen is the most basal taxon among Crocodyloidea, a group that comprises all species more closely related to modern crocodiles than to modern alligators, caimans, or gharials. Although it is not the oldest crocodyloid ever reported, it is the earliest crocodyloid in Asia. Moreover, its basal phylogenetic position implies that it is part of an ancient ghost lineage of crocodyloids that had already been around in Asia for a longer time. The presence of crocodyloid remains in the Late Cretaceous of North America and the late Paleocene of Europe suggests that crocodyloids may have migrated there from Asia early on in their evolutionary history.
Located in Library / RBINS Staff Publications 2021
Article Reference A new species of Elpidium (Crustacea, Ostracoda) from phytothelmata in Argentina: description, habitat and geography.
Located in Library / RBINS Staff Publications 2017
Inproceedings Reference A new specimen shows that Jeholornis and Jixianornis are the same species
Located in Library / RBINS Staff Publications
Inproceedings Reference A novel approach to single out Raman scattering spectra from laser induced fluorescence in thermally sensitive materials.
Located in Library / RBINS Staff Publications 2016
Unpublished Reference A novel role for natural science collections in European contaminant monitoring
This poster outlines the role that can be played by natural science collections for monitoring of environmental contaminants in biota.
Located in Library / RBINS Staff Publications 2021
Inproceedings Reference A One Health team to improve Monkeypox virus outbreak response: an example from the Democratic Republic of the Congo
Located in Library / RBINS Staff Publications 2017
Inproceedings Reference A peculiar fish jaw with molariform teeth from the early Eocene of Tadkeshwar Mine, India highlights diversity and evolution of early gymnodont tetraodontiforms
Excavations during 2015 at a channel deposit in the early Eocene Cambay Shale Formation of the Tadkeshwar open cast lignite mine near Vastan in Gujarat Province, western India, have yielded terrestrial mammals, lizards, snakes, frogs, and birds as well as a few marine/brackish-water animals, predominantly teeth of the shark Physogaleus and Myliobatis rays. Among these is a jaw of an unusual teleost. This lower jaw of a gymnodont has fused dentaries, lacks a beak, and shows a remarkable series of teeth that are unique among all known fossil and living Tetraodontiformes. The teeth are molariform with raised “spokes” radiating inward from the emarginated peripheral edge of the crown. Tooth development is intraosseous, with new teeth developing in spongy bone before they erupt and attach to the dentary by pedicels. Although many of the 110 tooth loci in the fossil specimen have lost their teeth, in life the teeth would have grown to fit tightly together to form a broad and continuous crushing surface. The estimated age of the early Eocene Cambay Shale vertebrate fauna is ca. 54.5 Ma, making the jaw the second oldest confirmed gymnodont fossil. Comparisons to extant taxa of gymnodonts with fused dentaries (e.g., Diodon, Chilomycterus, and Mola) offer few clues about evolutionary relationships of the new fossil. Although the fused dentaries suggest affinities to diodontids and molids among living tetraodontiforms, it remains challenging to interpret phylogenetic relationships of the new Indian gymnodont because no living or fossil tetraodontoid has similar tooth morphology. We describe it as a new genus and species, and place it in its own new family of Gymnodontes. Grant Information: National Geographic Society, Leakey Foundation, Belgian Science Policy Office, Tontogany Creek Fund, National Science Foundation, Wadia Institute of Himalayan Geology.
Located in Library / RBINS Staff Publications 2017
Inproceedings Reference A peculiar ornamental stone in the civitas Treverorum used in funeral monuments and the antique theatre of Dalheim (Grand-Duchy of Luxembourg).
Located in Library / RBINS Staff Publications 2022