@article {8976, title = {Histological study of the oral teeth and their bony support in the Mexican Jurassic gar {\textdagger}Nhanulepisosteus mexicanus (Ginglymodii, Lepisosteidae)}, year = {2022}, abstract = {The palaeohistology of the teeth and bony skeleton of the Late Jurassic gar {\textdagger}Nhanulepisosteus mexi-canus\ is described in detail from thin sections. The teeth are composed of a cone of orthodentine with a pulp cavity filled with parallel canals of osteodentine as variety of eusthenodont type plicidentine. These conspicu-ous histological features differentiate {\textdagger}Nhanulepisosteus\ from the majority of extant and fossil lepisosteids. The teeth are crowned with a small apical cap of acrodine, and are surrounded by a ridged layer of enamel. The bony tissues contain star-shaped osteocytes and canaliculi of Williamson matching exactly those in living lepisosteids, other holosteans, and some basal teleosts. Although the dental histology is distinct from that of extant gar spe-cies, we consider these differences are related to eco-morphological factors, noting that this pattern of histologi-cal arrangement is also found in other fossil gar species.}, keywords = {Bone, Jurassic, Lepisosteidae, Palaeohistology, plicidentine, Teeth, {\textdagger}Nhanulepisosteus}, doi = {10.26028/CYBIUM/2022-461-002}, url = {https://www.sfi-cybium.fr/fr/histological-study-oral-teeth-and-their-bony-support-mexican-jurassic-gar-{\textdagger}nhanulepisosteus}, author = {Brito, Paulo M. and Alvarado-Ortega, J{\'e}sus and Fran{\c c}ois J Meunier} } @article {8975, title = {Life history and ossification patterns in Miguashaia bureaui reveal the early evolution of osteogenesis in coelacanths}, journal = {PeerJ}, volume = {10}, year = {2022}, month = {Jan-01-2022}, pages = {e13175}, abstract = {The study of development is critical for revealing the evolution of major vertebrate lineages. Coelacanths have one of the longest evolutionary histories among osteichthyans, but despite access to extant representatives, the onset of their weakly ossified endoskeleton is still poorly understood. Here we present the first palaeohistological and skeletochronological study of\ Miguashaia bureaui\ from the Upper Devonian of Canada, pivotal for exploring the palaeobiology and early evolution of osteogenesis in coelacanths. Cross sections of the caudal fin bones show that the cortex is made of layers of primary bone separated by lines of arrested growth, indicative of a cyclical growth. The medullary cavity displays remnants of calcified cartilage associated with bony trabeculae, characteristic of endochondral ossification. A skeletochronological analysis indicates that rapid growth during a short juvenile period was followed by slower growth in adulthood. Our new analysis highlights the life history and palaeoecology of\ Miguashaia bureaui\ and reveals that, despite differences in size and habitat, the poor endoskeletal ossification known in the extant\ Latimeria chalumnae\ can be traced back at least 375 million years ago.}, doi = {10.7717/peerj.1317510.37473/fic/10.7717/peerj.13175}, url = {https://peerj.com/articles/13175}, author = {Mond{\'e}jar Fern{\'a}ndez, Jorge and Fran{\c c}ois J Meunier and Cloutier, Richard and Cl{\'e}ment, Ga{\"e}l and Laurin, Michel} } @article {7294, title = {New histological information on Holoptychius Agassiz, 1839 (Sarcopterygii, Porolepiformes) provides insights into the palaeoecological implications and evolution of the basal plate of the scales of osteichthyans}, journal = {Historical Biology}, year = {2020}, month = {Feb-07-2021}, pages = {1 - 13}, abstract = {The porolepiform\ Holoptychius\ Agassiz, 1839 from the Upper Devonian is one of the most widely found vertebrates in the Palaeozoic fossil record.\ Holoptychius\ is considered to display a more ubiquitous mode of life and a greater potential of dispersion than any other sarcopterygian taxon, consistent with its cosmopolitan distribution and profuse fossil record, mainly represented by scales. Previous studies on the squamation of\ Holoptychius\ have discussed the variable ornamentation of the superficial layer; however, the basal plate has been less explored. Here we furnish new histological data on the scales of\ Holoptychius, focusing on the mineralisation rate and organisation of the lamellar bone. Ground sections show that the basal plate is made of a stacking of thick collagenous layers with a plywood-like structure. Collagenous fibres are parallel within layers, with two successive layers orthogonally arranged and with every second layer rotated by an angle of 36{\textordmasculine}. This condition, known as a double-twisted plywood-like organisation, is similar to that of other sarcopterygians like\ Eusthenopteron\ and extant coelacanths and dipnoans. The new palaeohistological data provide insights into the morphofunctional, palaeoecological and phylogenetical implications of the microstructural characteristics of the scales, adding to our knowledge of the histological diversity of osteichthyans.}, issn = {0891-2963}, doi = {10.1080/08912963.2020.1786552}, url = {https://www.tandfonline.com/doi/full/10.1080/08912963.2020.1786552}, author = {Mond{\'e}jar Fern{\'a}ndez, Jorge and Fran{\c c}ois J Meunier} } @article {7293, title = {A tomographic study of the histological structure of teeth in the gilthead sea bream,}, journal = {Journal of Fish Biology}, volume = {97}, year = {2020}, month = {Jan-07-2020}, pages = {273 - 278}, abstract = {X-ray tomography shows that caniniform and molariform teeth of the gilthead sea bream,\ Sparus aurata, have a simplexodont plicidentine organization. Together with an insertion of the teeth in alveolae, and the presence of bony shafts sustaining the dental plate, the simplexodont plicidentine is linked to the durophagous diet of the fish.}, issn = {0022-1112}, doi = {10.1111/jfb.v97.110.1111/jfb.14373}, url = {https://onlinelibrary.wiley.com/toc/10958649/97/1}, author = {Germain, Damien and Fran{\c c}ois J Meunier} } @inbook {5973, title = {Fish skeletal tissues}, booktitle = {Fish histology (Kirschbaum F \& Formicki K) }, year = {2019}, publisher = {Taylor \& Francis Group}, organization = {Taylor \& Francis Group}, author = {Fran{\c c}ois J Meunier} } @article {5953, title = {Histological data on bone and teeth in two dragonf{\`\i}shes (Stomiidae; Stomiiformes): Borostomiaspanamensis Regan \& Trewavas, 1929 and Stomias boa Reinhardt 1842}, journal = {Cybium}, volume = {43}, year = {2019}, pages = {103-107}, doi = {10.26028/cybium/2019-431-010}, url = {http://sfi-cybium.fr/fr/histological-data-bone-and-teeth-two-dragonfishes-stomiidae-stomiiformes-borostomias-panamensis}, author = {Germain, D and Schnell, NK and Fran{\c c}ois J Meunier} } @article {5957, title = {Histological study of the cutaneous bony scutes in the John dory, Zeus faber Linnaeus, 1758 (Teleostei: Zeiformes: Zeidae)}, journal = {Cahiers de Biologie Marine}, volume = {60}, year = {2019}, pages = {195-199}, doi = {10.21411/cbm.a.260f6487}, url = {http://application.sb-roscoff.fr/cbm/doi/10.21411/CBM.A.260F6487}, author = {Fran{\c c}ois J Meunier and Bearez, Philippe} } @article {5971, title = {The long time adaptation of coelacanths to moderate deep water: reviewing the evidences}, journal = {Bulletin of Kitakyushu Museum of Natural History and Human History. Series A: Natural History}, volume = {17}, year = {2019}, pages = {29-35}, author = {Cupello, C and Cl{\'e}ment, Ga{\"e}l and Fran{\c c}ois J Meunier and Herbin, Marc and Yoshikata Yabumoto and Brito, Paulo M.} } @article {5956, title = {Morphological and histological study of the scales of the grey notothen, Lepidonotothen squamifrons (Gunther 1880) (Nototheniidae; Perciformes; Teleostei)}, journal = {Cybium}, volume = {43}, year = {2019}, pages = {097-101}, doi = {10.26028/cybium/2019-431-009}, url = {http://sfi-cybium.fr/fr/morphological-and-histological-study-scales-grey-notothen-lepidonotothen-squamifrons-g{\"u}nther-1880}, author = {Lecomte, F and Fran{\c c}ois J Meunier and Guy Duhamel} } @article {5954, title = {The phylogenetic origin and evolution of acellular bone in teleost fishes: insights into osteocyte function in bone metabolism}, journal = {Biological Reviews}, year = {2019}, abstract = {

ABSTRACT Vertebrate bone is composed of three main cell types: osteoblasts, osteoclasts and osteocytes, the latter being by far the most numerous. Osteocytes are thought to play a fundamental role in bone physiology and homeostasis, however they are entirely absent in most extant species of teleosts, a group that comprises the vast majority of bony {\textquoteleft}fishes{\textquoteright}, and approximately half of vertebrates. Understanding how this acellular (anosteocytic) bone appeared and was maintained in such an important vertebrate group has important implications for our understanding of the function and evolution of osteocytes. Nevertheless, although it is clear that cellular bone is ancestral for teleosts, it has not been clear in which specific subgroup the osteocytes were lost. This review aims to clarify the phylogenetic distribution of cellular and acellular bone in teleosts, to identify its precise origin, reversals to cellularity, and their implications. We surveyed the bone type for more than 600 fossil and extant ray-finned fish species and optimised the results on recent large-scale molecular phylogenetic trees, estimating ancestral states. We find that acellular bone is a probable synapomorphy of Euteleostei, a group uniting approximately two-thirds of teleost species. We also confirm homoplasy in these traits: acellular bone occurs in some non-euteleosts (although rarely), and cellular bone was reacquired several times independently within euteleosts, in salmons and relatives, tunas and the opah (Lampris sp.). The occurrence of peculiar ecological (e.g. anadromous migration) and physiological (e.g. red-muscle endothermy) strategies in these lineages might explain the reacquisition of osteocytes. Our review supports that the main contribution of osteocytes in teleost bone is to mineral homeostasis (via osteocytic osteolysis) and not to strain detection or bone remodelling, helping to clarify their role in bone physiology.

}, keywords = {acellular bone, Actinopterygii, ancestral state reconstruction, anosteocytic bone, bone remodelling, endothermy, osteocyte, Salmoniformes, Scombridae, teleostei}, doi = {10.1111/brv.12505}, url = {https://onlinelibrary.wiley.com/doi/abs/10.1111/brv.12505}, author = {Davesne, Donald and Fran{\c c}ois J Meunier and Schmitt, Armin D. and Friedman, Matt and Otero, Olga and Benson, Roger B. J.} } @article {5972, title = {The skeleton and the mineralized tissues of the living coelacanths}, journal = {Bulletin of Kitakyushu Museum of Natural History and Human History. Series A: Natural History}, volume = {17}, year = {2019}, pages = {37-48}, author = {Fran{\c c}ois J Meunier and Cupello, C and Cl{\'e}ment, Ga{\"e}l} } @article {5972, title = {The skeleton and the mineralized tissues of the living coelacanths}, journal = {Bulletin of Kitakyushu Museum of Natural History and Human History. Series A: Natural History}, volume = {17}, year = {2019}, pages = {37-48}, author = {Fran{\c c}ois J Meunier and Cupello, C and Cl{\'e}ment, Ga{\"e}l} } @article {5955, title = {Teeth of extant Polypteridae and Amiidae have plicidentine organization}, journal = {Acta Zoologica}, volume = {100}, year = {2019}, pages = {119-125}, abstract = {

Abstract The study of teeth of the lower jaws of Amia calva and Polypterus senegalus, with non -destructive X-ray tomography, has revealed that there are dentine folds in the tooth pulp cavity in both species. These folds are simple and present only in the base of the pulp cavity where they strengthen the fixation of teeth on the jaw. So the teeth of these two basal actinopterygian taxa have a simplexodont type of plicidentine like the extinct {\textdagger}Cheirolepis and various extant teleostean predators, whereas the extant Lepisosteids, the sister group of Amiidae, have polyplocodont plicidentine. The phylogenetic/adaptive significance of this simplexodont plicidentine is discussed.

}, keywords = {3D tomography, Amia, plicidentine, Polypterus, tooth, virtual histology}, doi = {10.1111/azo.12237}, url = {https://onlinelibrary.wiley.com/doi/abs/10.1111/azo.12237}, author = {Germain, D and Fran{\c c}ois J Meunier} } @article {3725, title = {Distocyclus guchereauae a new species of Neotropical electric fish, (Gymnotiformes: Sternopygidae), from French Guiana.}, journal = {Cybium}, volume = {38}, year = {2014}, pages = {223-230}, keywords = {Distocyclus guchereauae, French Guiana, Gymnotiformes, New species, Sternopygidae}, author = {Fran{\c c}ois J Meunier and Philippe Keith and Michel J{\'e}gu} }