A member of Galeaspida belonging to the group Hanyangaspidida and to the family Xiushuiaspidae. The type species is "Nanjiangaspis" zhangi Lu et al. (2007). The generic name is preoccupied by Xiyuaspis Zhang (1985); Shan et al. (2023) coined a replacement name Xiyuichthys.[5]
A cartilaginous fish of uncertain phylogenetic placement, related to Pucapampella and assigned to the new family Pucapampellidae. The type species is G. oosthuizeni.
A requiem shark. The type species is "Galeocerdo" recticonus Winkler (1874); genus also includes "Galeorhinus recticonus" claibornensis White (1956) (raised to the rank of a separate species Pseudabdounia claibornensis).
A member of the family Chlamydoselachidae. The type species is R. ludvigseni; genus also includes "Chlamydoselachus" bracheri Pfeil (1983), "Chlamydoselachus" fiedleri Pfeil (1983), "Chlamydoselachus" thomsoni Richter & Ward (1990), "Chlamydoselachus" goliath Antunes & Cappetta (2002), "Chlamydoselachus" keyesi Mannering & Hiller (2008), "Chlamydoselachus" tatere Consoli (2008) and "Chlamydoselachus" landinii Carrillo-Briceño, Aguilera & Rodriguez (2014).
A southern sandfish. The type species is "Leptoscopus" progressus Schwarzhans (1980); genus also includes "Leptoscopus" iocosus Schwarzhans (1980) and a new species A. kaawa.
A member of the family Pomacentridae. Genus includes new species C. gonzalezorum. Announced in 2019; the final version of the article naming it was published in 2020.
A member of Clupeomorpha belonging to the group Ellimmichthyiformes and to the family Paraclupeidae. Announced in 2019; the final version of the article naming it was published in 2020.
A member of Redfieldiiformes. Genus includes new species H. boryeongensis. Announced in 2019; the final version of the article naming it was published in 2020.
A member of Crossognathiformes. Genus includes new species K. asflaensis. Announced in 2019; the final version of the article naming it was published in 2020.
A member of Ginglymodi assigned to the group Kyphosichthyiformes and to the new family Lashanichthyidae. The type species is "Sangiorgioichthys" sui López-Arbarello et al. (2011); genus also includes "Sangiorgioichthys" yangjuanensis Chen et al. (2014).
A member of Percopsiformes. Genus includes new species L. albertensis. Announced in 2019; the final version of the article naming it was published in 2020.
A member of the family Cottidae. The type species is "Cottidarum" impolitus Schwarzhans (1980); genus also includes new species M. calidophilus and M. ovatus.
A member of Anguilloidei of uncertain phylogenetic placement. The type species is Otolithus (Trachini)" thevenini Priem (1906); genus also includes new species M. balegemensis and M. lacinata.
A member of the family Gobiidae. The type species is R. varidens; genus also includes "Gobius" doppleri Reichenbacher (1993), "Gobius" gregori Reichenbacher (1993) and "Gobius" helvetiae Salis (1967).
An early ray-finned fish. The type species is "Rhadinichthys" planti Traquair (1888); genus also includes "Mesopoma" carricki Coates (1993) and "Mesopoma" pancheni Coates (1993).
A southern sandfish. The type species is "Trachinoideorum" sagittiformis Schwarzhans (1980); genus also includes "Citharus" latisulcatus Frost (1924) and "Trachinoideorum" ultimus Schwarzhans (1980).
A study on the locomotion of psammosteids, focusing on the influence of the shape of the psammosteid body form on hydrodynamic performance, is published by Dec (2019).[102]
A study on the anatomy of dermal plates of Astraspis is published by Lemierre & Germain (2019), who report possible evidence of presence of proliferative cartilage in this taxon.[103]
A study on the anatomy of the circulatory system of the head of Shuyu is published by Gai, Zhu & Donoghue (2019).[104]
A specimen of Dunkleosteus terrelli preserving vertebrae fused into a structure known as the synarcual is described from the Devonian Cleveland Shale Member of the Ohio Shale Formation (Ohio, United States) by Johanson et al. (2019).[109]
A redescription and a study on the phylogenetic relationships of a putative antiarchSilurolepis platydorsalis is published by Zhu, Lu & Zhu (2019), who reinterpret this species as a maxillate placoderm close to Qilinyu.[110]
A study on the anatomy of the skeletal elements of the pharynx of Ptomacanthus anglicus, and on its implications for the knowledge of the evolution of the pharynx of jawed vertebrates, is published by Dearden, Stockey & Brazeau (2019).[112]
Description of fossils of Carboniferous (Mississippian) cartilaginous fishes from the area of Krzeszowice (Poland) is published by Ginter & Złotnik (2019).[113]
A study on microwear on teeth of Edestus minor, and on its implications for the knowledge of function of teeth of this fish, is published by Itano (2019).[114]
A revision of species belonging to the genus Edestus is published by Tapanila & Pruitt (2019).[115]
Restudy of a putative bill of an ibis-like bird from the EoceneLa Meseta Formation (Antarctica) described by Jadwiszczak, Gaździcki & Tatur (2008)[117] is published by Agnolin, Bogan & Rozadilla (2019), who consider this specimen to be more likely to be a dorsal spine of a chimaeroidcartilaginous fish.[118]
A study on the anatomy of the skull of Tristychius arcuatus, providing evidence of adaptations for suction feeding, is published by Coates et al. (2019).[119]
Teeth of a hybodont shark belonging to the genus Asteracanthus, with anatomy indicative of a crushing feeding behaviour, are described from the Upper Jurassic deposits of the Monte Nerone Pelagic Carbonate Platform, in the Umbria-Marche-Sabina Palaeogeographic Domain (Italy) by Citton et al. (2019).[120]
Description of new associated skeletal remains of Ischyrhiza mira from the Upper Cretaceous of Tennessee and Alabama and a study on the paleobiology of this species is published by Sternes & Shimada (2019).[122]
A study on the anatomy and phylogenetic relationships of Promyliobatis gazolai is published by Marramà et al. (2019).[123]
Fossils of members of the genus Aetomylaeus are described from localities in Peru and Chile by Villafaña et al. (2019), representing the first unambiguous fossil record of this genus from the Neogene of the southeastern Pacific.[124]
A study on the taxonomic status and geological age of large shark remains from the Upper Cretaceous of the Castellavazzo locality (Italy) discovered in the 19th century is published by Conte et al. (2019).[127]
15 partial skeletons of lamniform sharks, including the largest specimen of Cretoxyrhina mantelli known to date, are described from the Upper Cretaceous Scaglia Rossa Formation (Italy) by Amalfitano et al. (2019), who also review the taxonomic history of C. mantelli.[128]
A study on teeth histology and mineralization pattern in lamniform sharks, based on data from extant and fossil taxa (including enigmatic galeomorph shark Palaeocarcharias stromeri), is published by Jambura et al. (2019).[129]
A study on changes of diversity of lamniform sharks throughout their evolutionary history, aiming to determine the causes of their decline in the last 20 million years, is published by Condamine, Romieu & Guinot (2019).[130]
A study on changes in the presence or absence of lateral cusplets on teeth of members of the genus Carcharocles from the Calvert, Choptank, and St. Marys formations, and on their implications for the transition of shark populations from these formations from a Carcharocles chubutensis-dominated population to one dominated by C. megalodon, is published by Perez et al. (2019).[131]
A revision and a reevaluation of the reliability of all post-Messinian occurrences of Otodus megalodon in marine strata from western North America, and a study on the timing of extinction of this species, is published by Boessenecker et al. (2019).[132]
A study on the body size of Otodus megalodon, as inferred from the relationship between the ontogenetic development of teeth and total body length in the great white shark, is published by Shimada (2019).[133]
A study on the anatomy of the holotype specimen of a putative Paleocene shark Platyacrodus unicus is published by Bogan, Agnolin & Ezcurra (2019), who reinterpret this specimen as a carapace of a small retroplumidcrab belonging to the genus Costacopluma.[135]
An assemblage of well-preserved isolated teeth of elasmobranchs is described from the late Oligocene of the North Alpine Foreland Basin (Austria) by Feichtinger et al. (2019).[136]
Description of the deep-sea elasmobranch fauna from the Miocene Yatsuo Group in central Japan, including the first fossil occurrences of the genera Arhynchobatis and Pseudoraja, will be published by Nishimatsu & Ujihara (2019).[137]
Description of the deep-sea elasmobranch fossils from the Miocene Makino Formation in southwest Japan, including the first fossil occurrences of the genera Springeria and Narke, is published by Nishimatsu (2019).[138]
A study on Paleocene cartilaginous fish fossils from the Lower Clayton Limestone Unit of the Midway Group near Malvern, Arkansas, evaluating the implications of these fossils for the knowledge of cartilaginous fish diversity across the Cretaceous-Paleogene boundary in the Malvern region and Gulf Coastal Plain of southwestern Arkansas, is published online by Maisch, Becker & Griffiths (2019).[139]
A study on the morphology of scales and squamation pattern in Guiyu oneiros is published by Cui, Qiao & Zhu (2019).[140]
A study on the anatomy and phylogenetic relationships of Brazilichthys macrognathus is published by Figueroa, Friedman & Gallo (2019).[141]
Permian species Palaeothrissum inaequilobum Blainville (1818) and P. parvum Blainville (1818) are found to be senior synonyms of the widely used species name Aeduella blainvillei (Agassiz, 1833) by Brignon (2019). Conditions exist for reversal of precedence and Aeduella blainvillei is declared nomen protectum.[142]
A study on the anatomy of the jaws, palate and teeth of Eurynotus crenatus is published by Friedman et al. (2019).[143]
New specimen of Birgeria liui, representing the most complete and articulated postcranial skeleton of an adult specimen of Birgeria reported so far, is described from the Ladinian of South China by Ni et al. (2019).[144]
Teeth of members of the genus Pycnodus are described from the Upper Cretaceous Cap de Naze marine formation (Senegal) by Capasso (2019).[146]
Description of a partial skeleton of Micropycnodon kansasensis from the Smoky Hill Chalk Member of the Niobrara Chalk (Kansas, United States), providing new information on the anatomy of this species, is published by Cronin & Shimada (2019).[147]
A study on the paleobiology of specimens of Nursallia gutturosum from the Cenomanian-Turonian platy limestone deposit of Vallecillo (north-eastern Mexico) is published by Stinnesbeck, Rust & Herder (2019).[148]
A study on the anatomy and phylogenetic relationships of Robustichthys luopingensis is published by Xu (2019).[149]
Fossil teeth representing the first evidence of Late Jurassic ginglymodians from Mt. Nerone in the Umbria-Marche-Sabina Domain (Italy) are described by Romano et al. (2019).[150]
A study on the anatomy and phylogenetic relationships of "Lepidotes" bernissartensis is published online by Cavin, Deesri & Olive (2019), who transfer this species to the genus Scheenstia.[151]
A study on the internal anatomy of a left jaw of a member of the genus Scheenstia from the KimmeridgianReuchenette Formation (Switzerland) is published online by Leuzinger et al. (2019), who describe a peculiar tooth replacement mode in this specimen.[152]
A study on the stomach contents of two specimens of Lepidotes from the Lower Jurassic of Germany is published online by Thies, Stevens & Stumpf (2019).[153]
Six new occurrences of Belonostomus, documenting the biogeographic and biostratigraphic range of this genus in North America, are reported from the Upper Cretaceous of Texas, Alabama and Mississippi by Van Vranken, Fielitz & Ebersole (2019).[154]
A study on the anatomy of the skull of Martillichthys renwickae is published online by Dobson et al. (2019).[156]
Fossil remains of a member or a relative of the genus Asthenocormus are described from the Upper Jurassic of the Ameghino (= Nordenskjöld) Formation of the Antarctic Peninsula by Gouiric-Cavalli et al. (2019), representing the first record of a suspension-feeding pachycormid from the Upper Jurassic of the Antarctic Peninsula and the oldest pachycormid yet recovered from Antarctica.[157]
A study on the anatomy of Pleuropholis decastroi from the Lower Cretaceous (Albian) limestones of Pietraroja (Province of Benevento, Italy) and on the phylogenetic relationships of the family Pleuropholidae is published by Taverne & Capasso (2019).[159]
A study on the anatomy, jaw mechanics and phylogenetic relationships of Dugaldia emmilta is published by Cavin & Berrell (2019).[161]
A juvenile specimen of Xiphactinus audax, representing the smallest specimen of this species reported so far, will be described from the Cretaceous Niobrara Chalk (Kansas, United States) by King & Super (2019).[162]
A study on the internal structure of a fossil specimen of Notelops brama, investigated by neutron tomography, is published by Pugliesi et al. (2019).[163]
A study on the anatomy and phylogenetic relationships of Cavenderichthys talbragarensis and Waldmanichthys koonwarri is published online by Bean & Arratia (2019).[164]
A study on fossils of members of the genus Capoeta from the Pliocene locality Çevirme (Turkey) and on the evolutionary history of this genus is published by Ayvazyan, Vasilyan & Böhme (2019).[165]
Evidence of presence of managed aquaculture of the common carp by around 6000 BC is reported from the Early NeolithicJiahu site (China) by Nakajima et al. (2019).[166]
A study on positions, heading directions and possible behavioural rules used in a group of fossil specimens of Erismatopterus levatus from the Eocene Green River Formation is published by Mizumoto, Miyata & Pratt (2019).[168]
Description of gadiform fossils from the Eocene sediments of the Sverdlovsk and Tyumen regions (Ural and Western Siberia, Russia), including fossils of members of the family Merlucciidae, is published by Marramà et al. (2019).[169]
Description of an incomplete percomorph specimen from the MioceneIxtapa Formation (Mexico), representing the oldest primary freshwater percomorph fish from Mexico reported so far, is published by Cantalice & Alvarado-Ortega (2019).[170]
A study on the evolutionary history of the fish clade Pelagiaria is published by Friedman et al. (2019).[171]
A revision of the nomenclature of extant and fossil barracudas is published by Ballen (2019).[172]
A review of the published fossil record of the family Labridae is published by Bellwood et al. (2019).[173]
A study on the phylogenetic relationships of "psarolepid" bony fishes, evaluating which characters cause their different placements in analyses utilizing different methods for reconstructing the tree of life, is published by King (2019).[175]
A study on the ontogeny of the neurocranium and brain in the West Indian Ocean coelacanth, and on its implications for the knowledge of the evolution of the head of lobe-finned fishes, is published by Dutel et al. (2019).[176]
Redescription of Axelrodichthys araripensis and a comparative study of several other members of Mawsoniidae is published by Fragoso, Brito & Yabumoto (2019), who transfer the species Mawsonia lavocati to the genus Axelrodichthys.[177]
A study on the phylogenetic relationships and evolutionary history of mawsoniid coelacanths is published by Cavin et al. (2019).[178]
A study on the skull anatomy of Arquatichthys porosus, focusing on a newly-discovered postparietal shield, is published by Lu & Zhu (2019).[179]
Description of the posterior part of the skull of Tungsenia paradoxa is published by Lu et al. (2019).[180]
Description of new fossil material of Edenopteron from the Devonian (Famennian) Worange Point Formation (Australia) and a study on the phylogenetic relationships of this taxon is published online by Young et al. (2019).[183]
A historical review of the fossil record of Devoniantetrapods and basal tetrapodomorphs from East Gondwana (Australasia, Antarctica) is published by Long, Clement & Choo (2019), who also present preliminary findings on the anatomy of the canowindridKoharalepis jarviki based on synchrotron scan data.[185]
A study on the anatomy of fossil coelacanth lungs, on accessory air-breathing structures in fossil fishes and stem-tetrapods, and on the evolution of air breathing is published by Cupello, Clément & Brito (2019).[186]
A study on changes of the skeletal anatomy of the pelvic and pectoral appendages during the transition from fins to limbs in vertebrate evolution, as indicated by data from fossil lobe-finned fishes and early tetrapods, is published by Esteve-Altava et al. (2019).[188]
A study on the anatomy of dermal rays in pectoral fins of Sauripterus taylori, Eusthenopteron foordi and Tiktaalik roseae, evaluating its implications for the knowledge of the evolution of dermal rays in early members of Tetrapodomorpha prior to the origin of digits, is published online by Stewart et al. (2019).[189]
A study on the evolution of the branchiostegal ray series in the skull of bony fishes, as indicated by data from extant and fossil taxa, is published by Ascarrunz et al. (2019).[190]
A study on the origin and evolution of acellular bone (bone without osteocytes) in fossil and extant actinopterygian fishes is published by Davesne et al. (2019).[191]
Description of a freshwater fish assemblage from the Cretaceous (Albian-Cenomanian) Açu Formation (Brazil) is published by Veiga, Bergqvist & Brito (2019).[195]
Description of Eocene (Bartonian) fish fauna from the Luna de Sus locality (Romania) is published by Trif, Codrea & Arghiuș (2019).[196]
A study on the composition of the otolith assemblage from the Santa Barbara Basin near the coast of California over the preceding two millennia is published by Jones & Checkley (2019).[197]
A study on the evolution of the herbivorous coral reef fishes, as indicated by data from extant and fossil species, is published by Siqueira, Bellwood & Cowman (2019).[198]
^ abYu-Hai Liu; Min Zhu; Xiang-Hong Lin; Li-Wu Lu; Zhi-Kun Gai (2019). "A reappraisal of the Silurian galeaspids (stem-Gnathostomata) from Tarim Basin, Xinjiang". Vertebrata PalAsiatica. 57 (4): 253–273. doi:10.19615/j.cnki.1000-3118.190524.
^ abSébastien Olive; Alan Pradel; Carlos Martinez-Pérez; Philippe Janvier; James C. Lamsdell; Pierre Gueriau; Nicolas Rabet; Philippe Duranleau-Gagnon; Andres L. Cardenas-Rozo; Paula A. Zapata Ramirez; Héctor Botella (2019). "New insights into Late Devonian vertebrates and associated fauna from the Cuche Formation (Floresta Massif, Colombia)". Journal of Vertebrate Paleontology. 39 (3): e1620247. Bibcode:2019JVPal..39E0247O. doi:10.1080/02724634.2019.1620247. hdl:10784/26749. S2CID198237241.
^Jan L. den Blaauwen; Michael J. Newman; Carole J. Burrow (2019). "A new cheiracanthid acanthodian from the Middle Devonian (Givetian) Orcadian Basin of Scotland and its biostratigraphic and biogeographical significance". Scottish Journal of Geology. 55 (2): 166–177. Bibcode:2019ScJG...55..166D. doi:10.1144/sjg2018-023. S2CID189990496.
^ abcdefghijklmnopqrHenri Cappetta; Kurt Morrison; Sylvain Adnet (2019). "A shark fauna from the Campanian of Hornby Island, British Columbia, Canada: an insight into the diversity of Cretaceous deep-water assemblages". Historical Biology: An International Journal of Paleobiology. 33 (8): 1121–1182. doi:10.1080/08912963.2019.1681421. S2CID212878837.
^Kenshu Shimada; Michael J. Everhart (2019). "A New Large Late Cretaceous Lamniform Shark from North America, with Comments on the Taxonomy, Paleoecology, and Evolution of the Genus Cretodus". Journal of Vertebrate Paleontology. 39 (4): e1673399. Bibcode:2019JVPal..39E3399S. doi:10.1080/02724634.2019.1673399. S2CID209439997.
^John G. Maisey; Philippe Janvier; Alan Pradel; John S. S. Denton; Allison Bronson; Randall Miller; Carole J. Burrow (2019). "Doliodus and pucapampellids. Contrasting perspectives on stem chondrichthyan morphology". In Zerina Johanson; Charlie Underwood; Martha Richter (eds.). Evolution and development of fishes. Cambridge University Press. pp. 87–109. doi:10.1017/9781316832172.006. ISBN978-1-107-17944-8. S2CID92398530.
^Harry M. Maisch (2019). "A new species of Hypolophites (Chondrichthyes, Myliobatiformes) from the Lower Clayton Limestone Unit of the Midway Group (Paleocene), near Malvern, Arkansas, USA". Journal of Paleontology. 94 (3): 548–556. doi:10.1017/jpa.2019.99. S2CID214211012.
^Rodrigo A. Otero (2019). "Myledaphus araucanus sp. nov. (Batomorphi, Rajiformes incertae sedis), a new Late Cretaceous ray from the austral Pacific, and first occurrence of the genus in the Southern Hemisphere". Cretaceous Research. 100: 82–90. Bibcode:2019CrRes.100...82O. doi:10.1016/j.cretres.2019.03.025. S2CID134755626.
^Evgeny V. Popov; Dominique Delsate; Roland Felten (2019). "A new callorhinchid genus (Holocephali, Chimaeroidei) from the early Bajocian of Ottange-Rumelange, on the Luxembourg-French border". Paleontological Research. 23 (3): 220–230. doi:10.2517/2018PR021. S2CID198423356.
^Jaime A. Villafaña; Sven N. Nielsen; Stefanie Klug; Jürgen Kriwet (2019). "Early Miocene cartilaginous fishes (Chondrichthyes: Holocephali, Elasmobranchii) from Chile: Diversity and paleobiogeographic implications". Journal of South American Earth Sciences. 96: Article 102317. Bibcode:2019JSAES..9602317V. doi:10.1016/j.jsames.2019.102317. S2CID202190340.
^Kouki Nishimatsu; Atsushi Ujihara (2019). "A new deep-sea shark Scymnodalatias kazenobon (Squaliformes, Somniosidae) from the Miocene Yatsuo Group in Central Japan". Paleontological Research. 23 (1): 23–29. doi:10.2517/2018PR006. S2CID135131261.
^Paulo M. Brito; Eduardo Villalobos-Segura; Jésus Alvarado-Ortega (2019). "A new Early Cretaceous guitarfish (Chondrichthyes, Batoidea) from the Tlayúa Formation, Puebla, Mexico". Journal of South American Earth Sciences. 90: 155–161. Bibcode:2019JSAES..90..155B. doi:10.1016/j.jsames.2018.12.005. S2CID135426155.
^ abGerald R. Smith; Jay Van Tassell (2019). "Fishes of the Mio-Pliocene Western Snake River Plain and vicinity. V. Keating, Always Welcome Inn, and Imbler Fish paleofaunas, NE Oregon: Tests of Miocene-Pliocene drainage connections". Miscellaneous Publications. Museum of Zoology, University of Michigan. 204 (5): 1–33. hdl:2027.42/150494.
^ abcCarlo Romano; Adriana López-Arbarello; David Ware; James F. Jenks; Winand Brinkmann (2019). "Marine Early Triassic Actinopterygii from the Candelaria Hills (Esmeralda County, Nevada, USA)". Journal of Paleontology. 93 (5): 971–1000. Bibcode:2019JPal...93..971R. doi:10.1017/jpa.2019.18. S2CID155564297.
^Giorgio Carnevale; Francesc Farrés; Zain Belaústegui; Patricia Cabello; Ferran Colombo; Albert Vidal; Jordi Martinell (2019). "Fish-bearing deposits from the Upper Eocene Terminal Complex of the Plana de Vic (Catalonia, NE Spain): Sedimentary context and taphonomy". Geological Journal. 54 (3): 1638–1652. Bibcode:2019GeolJ..54.1638C. doi:10.1002/gj.3257. S2CID134087904.
^Lazaro W. Viñola Lopez; Richard Carr; Logel Lorenzo (2019). "First occurrence of fossil Balistes (Tetradontiformes: Balistidae) from the Miocene of Cuba with the description of a new species and a revision of fossil Balistes". Historical Biology: An International Journal of Paleobiology. 32 (9): 1290–1299. doi:10.1080/08912963.2019.1580278. S2CID92003143.
^Sebastien Olive; Louis Taverne; Adriana López-Arbarello (2019). "A new genus of coccolepidid actinopterygian from the Cretaceous Iguanodon-bearing locality of Bernissart, Belgium". Cretaceous Research. 95: 318–335. Bibcode:2019CrRes..95..318O. doi:10.1016/j.cretres.2018.11.020. S2CID134207366.
^Aleksandr Bakaev; Ilja Kogan (2019). "A new species of Burguklia (Pisces, Actinopterygii) from the Middle Permian of the Volga Region (European Russia)". PalZ. 94 (1): 93–106. doi:10.1007/s12542-019-00487-6. S2CID201966465.
^Louis Taverne; Luigi Capasso (2019). "Osteology of Cavinichthys pachylepis gen. and sp. nov. (Teleostei, Crossognathiformes, Pachyrhizodontidae) from Pietraroja (Lower Cretaceous, Campania, south Italy)". Thalassia Salentina. 41: 53–70. doi:10.1285/i15910725v41p53.
^Kleyton Magno Cantalice Severiano; Jesús Alvarado Ortega; David Bellwood (2019). "†Chaychanus gonzalezorum gen. et sp. nov.: A damselfish fossil (Pomacentridae; Percomorphaceae), from the Early Paleocene outcrop of Chiapas, Southeastern Mexico". Journal of South American Earth Sciences. 98: Article 102322. doi:10.1016/j.jsames.2019.102322. S2CID202910177.
^ abcdefghWerner Schwarzhans; Fumio Ohe (2019). "Lanternfish otoliths (Teleostei, Myctophidae) from the Pliocene and Pleistocene of Japan". Rivista Italiana di Paleontologia e Stratigrafia. 125 (2): 355–400. doi:10.13130/2039-4942/11670.
^Márcia Aparecida dos Reis Polck; Valéria Gallo; Francisco J. de Figueiredo; Samuel Magalhães Viana; Viviane Sampaio Santiago dos Santos; João Villar de Queiroz Neto; Ricardo Jorge Jahnert (2019). "†Ellimma longipectoralis sp. nov. (Teleostei: Clupeomorpha: †Ellimmichthyiformes) from the Aptian of the Santos Basin, southeastern Brazil". Journal of South American Earth Sciences. 98: Article 102318. doi:10.1016/j.jsames.2019.102318. S2CID202181577.
^Yuri Modesto Alves; Jesús Alvarado-Ortega; Paulo M. Brito (2019). "†Epaelops martinezi gen. and sp. nov. from the Albian limestone deposits of the Tlayúa quarry, Mexico – a new late Mesozoic record of Elopiformes of the western Tethys". Cretaceous Research. 110: Article 104260. doi:10.1016/j.cretres.2019.104260. S2CID210779794.
^Su-Hwan Kim; Yuong-Nam Lee; Jin-Young Park; Sungjin Lee; Hang-Jae Lee (2019). "The first record of redfieldiiform fish (Actinopterygii) from the Upper Triassic of Korea: Implications for paleobiology and paleobiogeography of Redfieldiiformes". Gondwana Research. 80: 275–284. doi:10.1016/j.gr.2019.11.008. S2CID213571269.
^Alexander J. Veysey; Paulo M. Brito; David M. Martill (2019). "A new crossognathiform fish (Actinopterygii, Teleostei) from the Upper Cretaceous (Turonian) of Southern Morocco with hypertrophied fins". Cretaceous Research. 114: Article 104207. doi:10.1016/j.cretres.2019.104207. S2CID202200253.
^ abGuang-Hui Xu; Xin-Ying Ma; Fei-xiang Wu; Yi Ren (2019). "A Middle Triassic kyphosichthyiform from Yunnan, China, and phylogenetic reassessment of early ginglymodians". Vertebrata PalAsiatica. 57 (3): 181–204. doi:10.19615/j.cnki.1000-3118.190319.
^Alison M. Murray; Donald B. Brinkman; Michael G. Newbrey; Andrew G. Neuman (2019). "Earliest North American articulated freshwater acanthomorph fish (Teleostei: Percopsiformes) from Upper Cretaceous deposits of Alberta, Canada". Geological Magazine. 157 (7): 1087–1096. doi:10.1017/S0016756819001328. S2CID212927875.
^Joan Cartanyà; Josep Fortuny; Arnau Bolet; Ruben Garcia-Artigas (2019). "Moradebrichthys vilasecae gen. et sp. nov., a new perleidid (Actinopterygii: Osteichthyes) from the Middle Triassic of Catalonia (NE Iberian Peninsula)". Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 292 (2): 171–190. doi:10.1127/njgpa/2019/0816. hdl:2445/168813. S2CID182534499.
^ abAlison M. Murray (2019). "Redescription of Barbus megacephalus Günther, 1876 and Thynnichthys amblyostoma von der Marck, 1876 (Cypriniformes: Cyprinidae) from probable Eocene deposits of Southeast Asia, and an assessment of their taxonomic positions". Journal of Systematic Palaeontology. 17 (17): 1433–1455. Bibcode:2019JSPal..17.1433M. doi:10.1080/14772019.2018.1533897. S2CID91781094.
^Victor W.M. van Hinsbergh; Renate A. Helwerda (2019). "Fish otoliths from the Cabarruyan Piacenzian-Gelasian fauna found in the Philippines". Zootaxa. 4563 (3): 401–443. doi:10.11646/zootaxa.4563.3.1. PMID31716527. S2CID92241298.
^Charalampos Kevrekidis; Martina Valtl; Stefanie B. R. Penk; Melanie Altner; Bettina Reichenbacher (2019). "Rebekkachromis nov. gen. from the middle–upper Miocene (11 MYA) of Central Kenya: the oldest record of a haplotilapiine cichlid fish". Hydrobiologia. 832 (1): 39–64. doi:10.1007/s10750-018-3715-8. S2CID51890176.
^Jiang-Yong Zhang (2019). "A new species of Scleropages (Osteoglossidae, Osteoglossomorpha) from the Eocene of Guangdong, China". Vertebrata PalAsiatica. 58 (2): 100–119. doi:10.19615/j.cnki.1000-3118.191213.
^Michael I. Coates; Kristen Tietjen (2019). "'This strange little palaeoniscid': a new early actinopterygian genus, and commentary on pectoral fin conditions and function". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 15–31. doi:10.1017/S1755691018000403. S2CID135105137.
^Kamel Boukhalfa; Feixiang Wu; Walid Ben Ali; Gengyu Fang (2019). "A new paraclupeid fish (Clupeomorpha: Ellimmichthyiformes) from the Lower Cretaceous Sidi Aich Formation of southern Tunisia: phylogenetic and paleobiogeographic implications". Journal of Vertebrate Paleontology. 38 (5): e1529675. doi:10.1080/02724634.2018.1529675. S2CID91457179.
^Jesús Alberto Díaz-Cruz; Jesús Alvarado-Ortega; Gerardo Carbot-Chanona (2019). "Dagon avendanoi gen. and sp. nov., an Early Cenomanian Enchodontidae (Aulopiformes) fish from the El Chango quarry, Chiapas, southeastern Mexico". Journal of South American Earth Sciences. 91: 272–284. Bibcode:2019JSAES..91..272D. doi:10.1016/j.jsames.2019.01.014. S2CID135281435.
^Jesús Alberto Díaz-Cruz; Jesús Alvarado-Ortega; Gerardo Carbot-Chanona (2019). "Corrigendum to "Dagon avendanoi gen. and sp. nov., an Early Cenomanian Enchodontidae (Aulopiformes) fish from the El Chango quarry, Chiapas, southeastern Mexico" [J. South Am. Earth Sci. 91 (2019) 272–284]". Journal of South American Earth Sciences. 95: Article 102314. Bibcode:2019JSAES..9502314D. doi:10.1016/j.jsames.2019.102314. S2CID202178570.
^Kye-Soo Nam; Ju-Yeong Ko; Mikhail V. Nazarkin (2019). "A new lightfish, †Vinciguerria orientalis, sp. nov. (Teleostei, Stomiiformes, Phosichthyidae), from the middle Miocene of South Korea". Journal of Vertebrate Paleontology. 39 (3): e1625911. Bibcode:2019JVPal..39E5911N. doi:10.1080/02724634.2019.1625911. S2CID199637854.
^Oleg A. Lebedev; Gaël Clément (2019). "New tetrapodomorph vertebrates from the Yam-Tesovo locality (Amata Regional Stage, Middle–Upper Devonian) of Leningrad Region, northwestern Russia". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 61–73. doi:10.1017/S1755691018000907. S2CID181895602.
^Carole J. Burrow; Susan Turner; Kate Trinajstic; Gavin C. Young (2019). "Late Silurian vertebrate microfossils from the Carnarvon Basin, Western Australia". Alcheringa: An Australasian Journal of Palaeontology. 43 (2): 204–219. Bibcode:2019Alch...43..204B. doi:10.1080/03115518.2019.1566496. S2CID134883695.
^Piotr Jadwiszczak; Andrzej Gaździcki; Andrzej Tatur (2008). "An ibis-like bird from the Upper La Meseta Formation (Late Eocene) of Seymour Island, Antarctica". Antarctic Science. 20 (4): 413–414. doi:10.1017/S0954102008000977. S2CID128551334.
^Shawn A. Hamm (2019). "First associated tooth set of Ptychodus anonymus (Elasmobranchii: Ptychodontidae) in North America from the Jetmore Chalk in Kansas". Transactions of the Kansas Academy of Science. 122 (1–2): 1–18. doi:10.1660/062.122.0101. S2CID164524395.
^Phillip C. Sternes; Kenshu Shimada (2019). "Paleobiology of the Late Cretaceous sclerorhynchid sawfish, Ischyrhiza mira (Elasmobranchii: Rajiformes), from North America based on new anatomical data". Historical Biology: An International Journal of Paleobiology. 31 (10): 1323–1340. doi:10.1080/08912963.2018.1452205. S2CID90291295.
^Gabriele Larocca Conte; Federico Fanti; Enrico Trevisani; Paolo Guaschi; Roberto Barbieri; Mohamad Bazzi (2019). "Reassessment of a large lamniform shark from the Upper Cretaceous (Santonian) of Italy". Cretaceous Research. 99: 156–168. Bibcode:2019CrRes..99..156L. doi:10.1016/j.cretres.2019.02.011. S2CID135220712.
^Kenshu Shimada (2019). "The size of the megatooth shark, Otodus megalodon (Lamniformes: Otodontidae), revisited". Historical Biology: An International Journal of Paleobiology. 33 (7): 904–911. doi:10.1080/08912963.2019.1666840. S2CID208570844.
^Sergio Bogan; Federico Agnolin; Martín D. Ezcurra (2019). "Review of the enigmatic 'shark', Platyacrodus unicus Ameghino, 1935, from the Paleocene of Patagonia, Argentina: a history of palaeontologists, sharks and crabs". Zootaxa. 4646 (2): 293–300. doi:10.11646/zootaxa.4646.2.5. PMID31717016. S2CID199629925.
^Iris Feichtinger; Matthias Kranner; Christian Rupp; Mathias Harzhauser (2019). "A new outer neritic elasmobranch assemblage from the Egerian (late Oligocene) of the North Alpine Foreland Basin (Austria)". Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 293 (1): 19–35. doi:10.1127/njgpa/2019/0828. S2CID199091907.
^Kouki Nishimatsu; Atsushi Ujihara (2019). "Deep-sea elasmobranch fauna with the first descriptions of genera Arynchobatis and Pseudoraja from the Miocene Yatsuo group in Toyama, central Japan". Historical Biology: An International Journal of Paleobiology. 32 (8): 1120–1142. doi:10.1080/08912963.2019.1566325. S2CID92429706.
^Harry M. Maisch IV; Martin A. Becker; Michael L. Griffiths (2019). "Chondrichthyans from the Lower Clayton Limestone Unit of the Midway Group (Paleocene) near Malvern, Arkansas, USA, with comments on the K/Pg boundary". PalZ. 94 (3): 561–593. doi:10.1007/s12542-019-00494-7. S2CID208302039.
^Rodrigo T. Figueroa; Matt Friedman; Valéria Gallo (2019). "Cranial anatomy of the predatory actinopterygian Brazilichthys macrognathus from the Permian (Cisuralian) Pedra de Fogo Formation, Parnaíba Basin, Brazil". Journal of Vertebrate Paleontology. 39 (3): e1639722. Bibcode:2019JVPal..39E9722F. doi:10.1080/02724634.2019.1639722. S2CID202030046.
^Timothy J. Cronin; Kenshu Shimada (2019). "New anatomical information on the Late Cretaceous bony fish, Micropycnodon kansasensis (Actinopterygii: Pycnodontiformes), from the Niobrara Chalk of western Kansas, U.S.A.". Transactions of the Kansas Academy of Science. 122 (1–2): 19–28. doi:10.1660/062.122.0102. S2CID164914313.
^Eva Susanne Stinnesbeck; Jes Rust; Fabian Herder (2019). "Paleobiology and taphonomy of the pycnodont fish Nursallia gutturosum, based on material from the Latest-Cenomanian-middle Turonian Vallecillo platy limestone, Mexico". PalZ. 93 (4): 659–668. Bibcode:2019PalZ...93..659S. doi:10.1007/s12542-019-00461-2. S2CID197575750.
^Marco Romano; Angelo Cipriani; Simone Fabbi; Paolo Citton (2019). "First remains of neoginglymodian actinopterygians from the Jurassic of Monte Nerone area (Umbria-Marche Apennine, Italy)". Italian Journal of Geosciences. 138 (1): 88–102. doi:10.3301/IJG.2018.28. hdl:11336/125811. S2CID133831748.
^Lionel Cavin; Uthumporn Deesri; Sébastien Olive (2019). "Scheenstia bernissartensis (Actinopterygii: Ginglymodi) from the Early Cretaceous of Bernissart, Belgium, with an appraisal of ginglymodian evolutionary history". Journal of Systematic Palaeontology. 18 (6): 513–527. doi:10.1080/14772019.2019.1634649. S2CID199631685.
^Detlev Thies; Kevin Stevens; Sebastian Stumpf (2019). "Stomach contents of the Early Jurassic fish †Lepidotes Agassiz, 1832 (Actinopterygii, Lepisosteiformes) and their palaeoecological implications". Historical Biology: An International Journal of Paleobiology. 33 (6): 868–879. doi:10.1080/08912963.2019.1665040. S2CID203892069.
^Lionel Cavin; Rodney W. Berrell (2019). "Revision of Dugaldia emmilta (Teleostei, Ichthyodectiformes) from the Toolebuc Formation, Albian of Australia, with comments on the jaw mechanics". Journal of Vertebrate Paleontology. 39 (1): e1576049. Bibcode:2019JVPal..39E6049C. doi:10.1080/02724634.2019.1576049. S2CID190880286.
^James L. King; Kristopher J. Super (2019). "The smallest recorded specimen of Xiphactinus audax from the Niobrara Chalk of Kansas and its implications for juvenile ichthyodectid ecology". Historical Biology: An International Journal of Paleobiology. 33 (4): 441–445. doi:10.1080/08912963.2019.1623212. S2CID191146942.
^Reynaldo Pugliesi; Marco A. Stanojev Pereira; Marcos L.G. Andrade; Juliana M.L. Basso; Cibele G. Voltani; Ivone C. Gonzales (2019). "Study of the fish fossil Notelops brama from Araripe-Basin Brazil by Neutron Tomography". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 919: 68–72. Bibcode:2019NIMPA.919...68P. doi:10.1016/j.nima.2018.12.001. S2CID125618029.
^Lynne B. Bean; Gloria Arratia (2019). "Anatomical revision of the Australian teleosts Cavenderichthys talbragarensis and Waldmanichthys koonwarri impacting on previous phylogenetic interpretations of teleostean relationships". Alcheringa: An Australasian Journal of Palaeontology. 44 (1): 121–159. doi:10.1080/03115518.2019.1666921. S2CID210298837.
^Y.M. Alves; L.P. Bergqvist; P.M. Brito (2019). "The dorsal and pectoral fin spines of catfishes (Ostariophysi: Siluriformes) from the Bauru Group (Late Cretaceous), Brazil: A comparative and critical analysis". Journal of South American Earth Sciences. 92: 32–40. Bibcode:2019JSAES..92...32A. doi:10.1016/j.jsames.2019.02.016. S2CID133688402.
^Gustavo A. Ballen (2019). "Nomenclature of the Sphyraenidae (Teleostei: Carangaria): A synthesis of fossil- and extant-based classification systems". Zootaxa. 4686 (3): 397–408. doi:10.11646/zootaxa.4686.3.5. PMID31719480. S2CID207936606.
^Lionel Cavin; Camila Cupello; Yoshitaka Yabumoto; Léo Fragoso; Uthumporn Deesri; Paulo M. Brito (2019). "Phylogeny and evolutionary history of mawsoniid coelacanths". Bulletin of the Kitakyushu Museum of Natural History and Human History Series A (Natural History). 17: 3–13.
^Jing Lu; Min Zhu (2019). "The postparietal shield of the Pragian dipnomorph Arquatichthys and its implications for the rhipidistian cranial anatomy". Palaeoworld. 28 (4): 543–549. doi:10.1016/j.palwor.2019.07.004. S2CID199108003.
^Edward B. Daeschler; Jason P. Downs; Chelsea Matzko (2019). "New material supports a description and taxonomic revision of Holoptychius ? radiatus (Sarcopterygii, Tristichopteridae) from the Upper Devonian Catskill Formation in Pennsylvania, USA". Proceedings of the Academy of Natural Sciences of Philadelphia. 167 (1): 11–25. doi:10.1635/053.167.0102. S2CID164596190.
^Viktoriia Kamska; Edward B. Daeschler; Jason P. Downs; Per E. Ahlberg; Paul Tafforeau; Sophie Sanchez (2019). "Long-bone development and life-history traits of the Devonian tristichopterid Hyneria lindae". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 75–86. doi:10.1017/S175569101800083X. S2CID134090370.
^G. C. Young; R. L. Dunstone; P. J. Ollerenshaw; J. Lu; B. Crook (2019). "New information on the giant Devonian lobe-finned fish Edenopteron from the New South Wales south coast". Australian Journal of Earth Sciences. 67 (2): 221–242. doi:10.1080/08120099.2019.1651769. S2CID204251345.
^Yuzhi Hu; Gavin C. Young; Jing Lu (2019). "The Upper Devonian tetrapodomorph Gogonasus andrewsae from Western Australia: reconstruction of the shoulder girdle and opercular series using X-ray Micro-Computed Tomography". Palaeoworld. 28 (4): 535–542. doi:10.1016/j.palwor.2019.07.008. S2CID200076100.
^John A. Long; Alice M. Clement; Brian Choo (2019). "New insights into the origins and radiation of the mid-Palaeozoic Gondwanan stem tetrapods". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 139–155. doi:10.1017/S1755691018000750. S2CID135325133.
^Camilla Cupello; Gäel Clément; Paulo M. Brito (2019). "Evolution of air breathing and lung distribution among fossil fishes". In Zerina Johanson; Charlie Underwood; Martha Richter (eds.). Evolution and development of fishes. Cambridge University Press. pp. 252–262. doi:10.1017/9781316832172.016. ISBN978-1-107-17944-8. S2CID91583226.
^Donald Davesne; François J. Meunier; Armin D. Schmitt; Matt Friedman; Olga Otero; Roger B. J. Benson (2019). "The phylogenetic origin and evolution of acellular bone in teleost fishes: insights into osteocyte function in bone metabolism". Biological Reviews. 94 (4): 1338–1363. doi:10.1111/brv.12505. hdl:2027.42/150563. PMID30924235. S2CID85565690.
^Yu He Teng; Masatoshi Sone; Ren Hirayama; Masataka Yoshida; Toshifumi Komatsu; Suchada Khamha; Gilles Cuny (2019). "First Cretaceous fish fauna from Malaysia". Journal of Vertebrate Paleontology. 39 (1): e1573735. Bibcode:2019JVPal..39E3735T. doi:10.1080/02724634.2019.1573735. S2CID155143419.
^Ingrid Martins Machado Garcia Veiga; Lilian Paglarelli Bergqvist; Paulo M. Brito (2019). "The fish assemblage of the Cretaceous (?Albian-Cenomanian) Açu formation, Potiguar basin, northeastern Brazil". Journal of South American Earth Sciences. 93: 162–173. Bibcode:2019JSAES..93..162V. doi:10.1016/j.jsames.2019.04.015. S2CID150301906.
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