2017 in paleoichthyology

This list of fossil fishes described in 2017 is a list of new taxa of jawless vertebrates, placoderms, acanthodians, fossil cartilaginous fishes, bony fishes and other fishes of every kind that are scheduled to be described during the year 2017, as well as other significant discoveries and events related to paleontology of fishes that are scheduled to occur in the year 2017. The list only includes taxa at the level of genus or species.

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Research

• A study on the marine fish extinction rates during background and mass extinctions from the Permian through Early Jurassic, compared with extinction trajectories of marine invertebrates, is published by Vázquez & Clapham (2017).^[1]
• A study on the ecological diversity and lifestyles of thelodonts as indicated by their squamation patterns is published by Ferrón & Botella (2017).^[2]
• A study on the phylogenetic relationships of jawless fish assigned to Cyathaspididae and Pteraspidiformes is published by Randle & Sansom (2017).^[3]
• A study on the phylogenetic relationships of members of the group Pteraspidiformes is published by Randle & Sansom (2017).^[4]
• New material of Cornovichthys blaauweni and Achanarella trewini is described from the Devonian of Scotland by van der Brugghen (2017), who considers both species to represent the same euphaneropid taxon, which he considers to be a member of the genus Euphanerops belonging or related to the species Euphanerops longaevus.^[5]
• A study on the phylogenetic relationships of early jawed vertebrates, indicating that placoderms are a monophyletic group, is published by King et al. (2017).^[6]
• A study on the morphology of the gill arches of the type specimen of Paraplesiobatis heinrichsi is published by Brazeau et al. (2017).^[7]
• Description of the anatomy of a three-dimensionally preserved skull of the placoderm Romundina stellina is published by Dupret et al. (2017).^[8]
• A study on the putative dental plate of Romundina stellina described by Rücklin & Donoghue (2015)^[9] is published by Smith et al. (2017), who reject the interpretation of the specimen as a dental plate.^[10]
• A redescription of Bothriolepis jeremejevi Rohon (1900) from the Devonian (Famennian) Sosnogorsk Formation (Komi Republic, Russia) is published by Lukševičs, Beznosov & Stūris (2017), who rerank this taxon as a subspecies of Bothriolepis leptocheira.^[11]
• A study on the plates of armour of arthrodire placoderms from the Devonian (Emsian) of Morocco, evaluating whether their differences can be considered distinctive between species, is published by Antczak & Berkowski (2017).^[12]
• A description of a nearly complete specimen of Titanichthys from the Devonian Cleveland Shale and a study on the phylogenetic relationships of the taxon is published by Boyle & Ryan (2017).^[13]
• Redescription of the Devonian arthrodire species Szelepis yunnanensis, a revision of the fossil material attributed to members of this species and a study on the phylogenetic relationships of the species is published by Dupret, Zhu & Wang (2017).^[14]
• A study on the placoderm jaw morphology and function based on data from a buchanosteid specimen from the Early Devonian limestones (~400 Ma) at Burrinjuck, near Canberra (Australia), is published by Hu, Lu & Young (2017).^[15]
• A study on the relationship between the locomotory patterns and the morphological variability of the tail fins in extant sharks, and its implications for the possible morphology of the tail fin of Dunkleosteus terrelli is published by Ferrón, Martínez-Pérez & Botella (2017).^[16]
• A study on the sequence of ossification of skeletal elements in the growth series of the acanthodian Acanthodes lopatini from the lower Tournaisian of Siberia (Russia) is published by Beznosov (2017).^[17]
• A study on the anatomy of the jaws of the Devonian ischnacanthiform acanthodian species Euryacanthus rugosus and Tricuspicanthus gannitus, as well as its implications for jaw and tooth occlusion in these taxa, is published by Blais (2017).^[18]
• A study on the morphological and histological changes of scales during ontogeny in the acanthodian Triazeugacanthus affinis is published by Chevrinais, Sire & Cloutier (2017).^[19]
• Chevrinais, Sire & Cloutier (2017) describe the ontogeny of Triazeugacanthus affinis and compare it to the ontogeny of other “acanthodians”, cartilaginous fishes and bony fishes.^[20]
• A study on the anatomy of the pectoral region of the skeleton of Doliodus problematicus is published by Maisey et al. (2017).^[21]
• A study on the phylogenetic relationships of the Devonian (Emsian) species "Ctenacanthus" latispinosus is published by Burrow et al. (2017), who transfer this species to the genus Doliodus.^[22]
• A study on the diversity and relative abundance of fish from the Late Cretaceous (late Santonian) Milk River Formation (Alberta, Canada) is published by Brinkman, Neuman & Divay (2017).^[23][24]
• A study on the phylogenetic relationships of Palaeospondylus gunni is published by Johanson et al. (2017), who interpret the species as a stem-cartilaginous fish.^[25]
• Partial braincases of two gigantic ctenacanthiform sharks, estimated to attain lengths up to 7 m and body weights of 1500–2500 kg, are described from the Carboniferous (Upper Pennsylvanian) Finis Shale (Texas, United States) by Maisey et al. (2017).^[26]
• A study on the anatomy of the braincase of a Permian cartilaginous fish Dwykaselachus oosthuizeni is published by Coates et al. (2017).^[27]
• Partial skeleton of a non-marine elasmobranch of uncertain phylogenetic placement is described from the Late Jurassic Talbragar Fossil Fish Bed (Australia) by Turner & Avery (2017).^[28]
• A hybodontiform tooth and a euselachian dermal denticle are described from the Permian (Wuchiapingian) of Hydra Island (Greece) by Argyriou et al. (2017).^[29]
• A reappraisal of the type and newly discovered fossil material of the hybodontoid Reticulodus synergus from Upper Triassic strata in Arizona, Utah and New Mexico (United States) and a study on the heterodonty in this species is published by Voris & Heckert (2017).^[30]
• A study on the impact of the Cretaceous–Paleogene extinction event on the ecological diversity of the mackerel sharks is published by Belben et al. (2017).^[31]
• A study on the environment in the area corresponding to the present-day Amazon basin in the Miocene as indicated by data from the shark and ray fossils from the Pirabas Formation (Brazil) is published by Aguilera et al. (2017).^[32]
• Evidence for the existence of regional endothermy in otodontid and cretoxyrhinid sharks is presented by Ferrón (2017).^[33]
• Bite marks on fossil marine mammal bones from the Miocene Pisco Formation (Peru), attributed to Carcharocles megalodon, are described by Collareta et al. (2017).^[34]
• Shark assemblage consisting mainly of the teeth of small (probably juvenile) specimens of the copper shark (Carcharhinus brachyurus), interpreted as a secondary nursery area for copper sharks, is described from the Miocene Pisco Formation (Peru) by Landini et al. (2017).^[35]
• A study on the methods which can be used to support taxonomic identifications of fossil sharks known from isolated teeth is published by Marramà & Kriwet (2017), who consider fossil sand tiger shark genus Brachycarcharias to be distinct from the genus Lamna.^[36]
• A study on the morphology of the cushion-shaped tooth-bearing plates from the Silurian of Estonia attributed to Lophosteus superbus, as well as on tooth addition, shedding and replacement in this taxon, is published by Chen et al. (2017).^[37]
• Redescription of the Permian ray-finned fish Elonichthys fritschi is published by Schindler (2017), who presents the first reconstruction of the skull of this species.^[38]
• Fish belonging to the extinct group Scanilepiformes are interpreted as stem-polypterids by Giles et al. (2017).^[39]
• A study aiming to establish whether body size was linked to extinction or survival of non-teleostean actinopterygians during the Permian–Triassic extinction event is published by Puttick et al. (2017).^[40]
• Description of fish fossils from the Cretaceous (Santonian) Iharkút vertebrate site (Bakony Mountains, Hungary) is published by Szabó & Ősi (2017).^[41]
• A redescription of Kyphosichthys grandei and a study on the phylogenetic relationships of the species is published by Sun & Ni (2017), who name the new family Kyphosichthyidae.^[42]
• A study on the phylogenetic relationships of the Late Cretaceous species Sorbinicharax verraesi is published by Mayrinck et al. (2017).^[43]
• Taverne & Liston (2017) transfer the species Neopachycormus birmanicus from the Cretaceous of Myanmar, originally thought to be a member of the family Pachycormidae, to the family Plethodidae and to the genus Dixonanogmius.^[44]
• A study on the osteology and phylogenetic relationships of Signeuxella preumonti from the Middle Jurassic Stanleyville Formation (Democratic Republic of the Congo) is published by Taverne (2017).^[45]
• The leptolepid fauna from the Early Jurassic Lagerstätten of Grimmen and Dobbertin (Mecklenburg-Vorpommern, Germany) is described by Konwert & Stumpf (2017).^[46]
• A redescription of the Early Cretaceous ellimmichthyiform Scutatuspinosus itapagipensis and a study on the phylogenetic relationships of the species is published by de Figueiredo & Ribeiro (2017).^[47]
• Redescription and a study on the phylogenetic relationships of the clupeomorph species Gasteroclupea branisai from the Late Cretaceous-Paleocene of El Molino Formation (Bolivia) is published by Marramà & Carnevale (2017).^[48]
• A redescription of "Chanos" leopoldi from the Cretaceous (Albian) Limestones of Pietraroja (Italy) and a study on the phylogenetic relationships of the species is published by Taverne & Capasso (2017), who reinstate the distinct genus Caeus for this species.^[49]
• A study on the phylogenetic relationships of living and fossil members of the family Ictaluridae, and on time of origin of the clade, is published by Arce‐H., Lundberg & O'Leary (2017), who present the first combined data analysis of morphological and genetic data for Ictaluridae that also includes fossil species.^[50]
• Cyprinid fossils are described from the Miocene (Serravallian) Shang Youshashan Formation (Qaidam Basin, China) by Song et al. (2017).^[51]
• A redescription of the Eocene barracudina Holosteus esocinus and a study on the phylogenetic relationships of the species is published by Marramà & Carnevale (2017).^[52]
• A redescription of the holotype specimen of Bajaichthys elegans and a study on the phylogenetic relationships of the species is published by Davesne, Carnevale & Friedman (2017).^[53]
• A study on the phylogenetic relationships of the fossil fundulid species Fundulus detillae, Fundulus lariversi and Fundulus nevadensis is published by Ghedotti & Davis (2017).^[54]
• A study on the phylogeny and evolutionary history of the Tetraodontiformes is published by Arcila & Tyler (2017), who detect a major extinction of members of the group during the Paleocene–Eocene Thermal Maximum.^[55]
• A study on the morphological changes that occurred during ontogeny of the fossil weever species Trachinus minutus is published by Přikryl (2017).^[56]
• Cichlid fossils are described from the Miocene and Pleistocene of Costa Rica by Lucas et al. (2017), representing the first known fossil record of cichlids in Central America.^[57]
• Redescription of the Eocene priacanthid species Pristigenys substriata is published by Carnevale et al. (2017).^[58]
• Isolated barracuda teeth are described from the Miocene of Madagascar by Gottfried et al. (2017).^[59]
• A study on the structure and homology of the lung plates of extant and fossil coelacanths is published by Cupello et al. (2017).^[60]
• The first direct evidence for feeding on conodonts by Late Devonian coelacanths (a single conodont element from the gut content of a possible specimen of Diplocercides, as well as several conodont elements detected within a coprolite) is reported from the Famennian deposits in Świętokrzyskie Mountains (Poland) by Zatoń et al. (2017).^[61]
• A study on the phylogenetic relationships, rates of origination and extinction, and trends in body size changes of the post-Devonian fossil lungfish is published by Kemp, Cavin & Guinot (2017).^[62]
• A study on the phylogenetic relationships of the Early Cretaceous lungfish known from the tooth plates recovered from the Ain el Guettar Formation (Tunisia) is published by Cau (2017).^[63]
• A redescription of the Devonian lungfish Pentlandia macroptera is published by Challands and den Blaauwen (2017).^[64]
• A study on the evolution of eye size in early tetrapods and in fish belonging to the lineage that gave rise to tetrapods, as well as on the impact of the eye size on the eye performance while viewing objects through water and through air is published by MacIver et al. (2017).^[65]
• A study on the evolution of forelimb musculature from the lobe-finned fish to early tetrapods is published online by Molnar et al. (2017).^[66]
• A history of the first articulated fossil fishes discovered in the United States (Early Jurassic, Newark Supergroup) is published by Brignon (2017).^[67]

New taxa

Jawless vertebrates

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Psammosteus ramosus[68]	Sp. nov	Valid	Glinskiy in Glinskiy & Nilov	Devonian (Frasnian)	Andoma Formation	Latvia   Russia (  Leningrad Oblast   Vologda Oblast)	A member of Psammosteida.

Placoderms

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Africanaspis edmountaini[69]	Sp. nov	Valid	Gess & Trinajstic	Devonian (late Famennian)	Witpoort Formation	South Africa	A member of Arthrodira belonging to the family Groenlandaspididae.
Herasmius dayi[70]	Sp. nov	Valid	Schultze & Cumbaa	Devonian (Emsian)	Bear Rock Formation	Canada (  Northwest Territories)	A member of Arthrodira belonging to the family Heterosteidae.
Houershanaspis[71]	Gen. et sp. nov	Valid	Lu, Tan & Wang	Early Devonian	Danlin Formation	China	Possibly a relative of Bothriolepis. The type species is H. zhangi.
Sudaspis[72]	Gen. et sp. nov	Valid	Vaškaninová & Ahlberg	Devonian (Lochkovian)	Lochkov Formation	Czech Republic	A member of Acanthothoraci belonging to the family Palaeacanthaspidae. The type species is S. chlupaci.
Tlamaspis[72]	Gen. et sp. nov	Valid	Vaškaninová & Ahlberg	Devonian (Lochkovian)	Lochkov Formation	Czech Republic	A member of Acanthothoraci belonging to the family Palaeacanthaspidae. The type species is T. inopinatus.

Cartilaginous fishes

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Abdounia mesetae[73]	Sp. nov	Valid	Engelbrecht et al.	Eocene (Ypresian)	La Meseta Formation	Antarctica (Seymour Island)	A requiem shark.
Abdounia richteri[73]	Sp. nov	Valid	Engelbrecht et al.	Eocene (Ypresian)	La Meseta Formation	Antarctica (Seymour Island)	A requiem shark.
Artiodus[74]	Gen. et sp. nov	Valid	Ivanov & Duffin in Ivanov, Duffin & Naugolnykh	Permian (Artinskian)	Divya Formation	Russia (  Sverdlovsk Oblast)	A member of Euselachii of uncertain phylogenetic placement. The type species is A. prominens.
Asteracanthus udulfensis[75]	Sp. nov	Valid	Leuzinger et al.	Late Jurassic (Kimmeridgian)	Reuchenette Formation	Switzerland	A member of the family Hybodontidae.
Bythiacanthus lopesi[76]	Sp. nov	Valid	Figueroa & Gallo	Permian (Cisuralian)	Pedra de Fogo Formation	Brazil
Cypripediodens[77]	Gen. et sp. nov	Valid	Duffin & Ward	Carboniferous (Brigantian)	Carboniferous Limestone Supergroup (Eyam Limestone Formation)	United Kingdom	A janassid petalodont. Genus includes new species C. cristatus.
Echinorhinus maremagnum[78]	Sp. nov	Valid	Bogan et al.	Late Cretaceous	Calafate Formation	Argentina   Chile	A species of Echinorhinus.
Edaphodon renardi[79]	Sp. nov	Valid	Canevet in Canevet & Lebrun	Miocene		France
Eodalatias[80]	Gen. et sp. nov	Valid	Engelbrecht et al.	Eocene	La Meseta Formation	Antarctica (Seymour Island)	A member of the family Dalatiidae. Genus includes new species E. austrinalis.
Kallodentis[73]	Gen. et sp. nov	Valid	Engelbrecht et al.	Eocene (Ypresian and Lutetian)	La Meseta Formation	Antarctica (Seymour Island)	A houndshark. The type species is K. rhytistemma.
Kungurodus[81]	Gen. et comb. nov	Valid	Ivanov	Early Permian		Kazakhstan   Russia	A member of Symmoriiformes of uncertain phylogenetic placement; a new genus for "Cobelodus" obliquus Ivanov (2005).
Meridiogaleus[73]	Gen. et sp. nov	Valid	Engelbrecht et al.	Eocene (Ypresian and Lutetian)	La Meseta Formation	Antarctica (Seymour Island)	A houndshark. The type species is M. cristatus.
Oblidens[82]	Gen. et sp. nov	Valid	Duffin & Milàn	Early Jurassic (Pliensbachian)	Hasle Formation	Denmark	A chimaera belonging to the group Myriacanthoidei and the family Myriacanthidae. The type species is O. bornholmensis.
Potamotrygon canaanorum[83]	Sp. nov	Valid	Chabain et al.	Late Oligocene-late Miocene	Pebas Formation	Peru	A species of Potamotrygon.
Potamotrygon contamanensis[83]	Sp. nov	Valid	Chabain et al.	Late Oligocene-late Miocene	Pebas Formation	Peru	A species of Potamotrygon.
Potamotrygon rajachloeae[83]	Sp. nov	Valid	Chabain et al.	Late Oligocene-late Miocene	Pebas Formation	Peru	A species of Potamotrygon.
Pseudoapristurus[84]	Gen. et sp. nov	Valid	Pollerspöck & Straube	Miocene (Burdigalian)	Neuhofener Beds	Germany	A catshark. The type species is P. nonstriatus.
Ptychotrygon clementsi[85]	Sp. nov	Valid	Case et al.	Late Cretaceous (late Maastrichtian)	Peedee Formation	United States (  North Carolina)
Rubencanthus[76]	Gen. et sp. nov	Valid	Figueroa & Gallo	Permian (Cisuralian)	Pedra de Fogo Formation	Brazil	A member of Euselachii, possibly a member of the family Sphenacanthidae. Genus includes new species R. diplotuberculatus.
Sphenacanthus ignis[76]	Sp. nov	Valid	Figueroa & Gallo	Permian (Cisuralian)	Pedra de Fogo Formation	Brazil
Sulcidens[86]	Gen. et comb. nov	Valid	Underwood, Kolmann & Ward	Paleocene to early Eocene		Angola   Morocco	A member of Myliobatiformes of uncertain phylogenetic placement; a new genus for "Myliobatis" sulcidens Darteville & Casier (1943).
Titanonarke megapterygia[87]	Sp. nov	Valid	Marramà et al.	Eocene (Ypresian)	Monte Bolca	Italy	A numbfish.
Triodus richterae[88]	Sp. nov	Valid	Pauliv et al.	Permian (probably Capitanian)	Rio do Rasto Formation	Brazil

Bony fishes

Name	Novelty	Status	Authors	Age	Unit	Location	Notes	Images
Aotearichthys[89]	Gen. et sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	A relative of the extant viviparous brotula genus Dinematichthys. The type species is A. vestalis.
Aphia macrophthalma[90]	Sp. nov	Valid	Schwarzhans, Ahnelt, Carnevale & Japundžić in Schwarzhans et al.	Miocene		Serbia	A goby related to the transparent goby.
Aulopus costeiensis[91]	Sp. nov	Valid	Schwarzhans	Miocene		Romania	A species of Aulopus.
Avitoplectus[92]	Gen. et sp. nov	Valid	Bemis et al.	Early Eocene	Cambay Shale Formation	India	A member of Tetraodontiformes of uncertain phylogenetic placement. Genus includes new species A. molaris.
Babelichthys[93]	Gen. et sp. nov	Valid	Davesne	Middle to late Eocene	Pabdeh Formation	Iran	A crestfish. The type species is B. olneyi.
Bathypterois solidus[91]	Sp. nov	Valid	Schwarzhans	Miocene		Romania	A species of Bathypterois.
Benthophilus? ovisulcus[90]	Sp. nov	Valid	Schwarzhans, Bradić & Bratishko in Schwarzhans et al.	Miocene		Romania	A goby, possibly a tadpole goby.
Benthophilus styriacus[90]	Sp. nov	Valid	Schwarzhans, Bradić & Bratishko in Schwarzhans et al.	Miocene		Austria   Romania	A tadpole goby.
Birgeria americana[94]	Sp. nov	Valid	Romano et al.	Early Triassic	Thaynes Group	United States (  Nevada)
Calaichthys[95]	Gen. et sp. nov	Valid	Gouiric-Cavalli et al.	Middle Triassic (Anisian)	Cerro de Las Cabras Formation	Argentina	A ray-finned fish belonging to the group Redfieldiiformes. The type species is C. tehul.
Callanthias transylvanicus[91]	Sp. nov	Valid	Schwarzhans	Miocene		Romania	A species of Callanthias.
Candelarhynchus[96]	Gen. et sp. nov	Valid	Vernygora et al.	Late Cretaceous (Turonian)		Colombia	A relative of Dercetis. Genus includes new species C. padillai.
Centroberyx worthyi[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation Waihoaka Formation	New Zealand	A species of Centroberyx.
Ceratodus kempae[97]	Sp. nov	Valid	Frederickson & Cifelli	Early Cretaceous (Valanginian)	Cedar Mountain Formation	United States (  Utah)	A lungfish.
Ceratodus kirklandi[97]	Sp. nov	Valid	Frederickson & Cifelli	Early Cretaceous (Valanginian)	Cedar Mountain Formation	United States (  Utah)	A lungfish.
Ceratodus molossus[97]	Sp. nov	Valid	Frederickson & Cifelli	Late Cretaceous (Cenomanian)	Cedar Mountain Formation Naturita Formation	United States (  Utah)	A lungfish.
Ceratodus nirumbee[97]	Sp. nov	Valid	Frederickson & Cifelli	Early Cretaceous (Albian)	Cloverly Formation	United States (  Montana)	A lungfish.
Chilomycterus exspectatus[98]	Sp. nov		Aguilera, Carrillo-Briceño & Rodriguez in Aguilera et al.	Late Miocene	Gatun Formation	Panama	A species of Chilomycterus.
Chilomycterus tyleri[98]	Sp. nov		Aguilera, Carrillo-Briceño & Rodriguez in Aguilera et al.	Late Miocene	Gatun Formation	Panama	A species of Chilomycterus.
Cornusolea[99]	Gen. et sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A member of Soleidae. The type species is C. fudoujii.
Coryphaenoides biobtusus[100]	Sp. nov	Valid	Lin et al.	Miocene (Tortonian)		Italy	A species of Coryphaenoides.
Ctenosciaena angusticaudata[101]	Sp. nov	Valid	Núñez-Flores et al.	Miocene (Burdigalian)	Castillo Formation	Venezuela	A member of Sciaenidae.
Cyclothone gaudanti[102]	Sp. nov	Valid	Přikryl & Carnevale	Miocene (late Tortonian)	Makrilia Formation	Greece	A bristlemouth, a species of Cyclothone.
Cynoclupea[103]	Gen. et sp. nov	Valid	Malabarba & Di Dario	Early Cretaceous (Barremian-Aptian)	Morro do Chaves Formation	Brazil	A member of Clupeiformes related to wolf herrings and anchovies. Genus includes new species C. nelsoni.
Damergouia[104]	Gen. et sp. nov	Valid	Vullo et al.	Late Cretaceous (Turonian)		Niger	A member of Pycnodontiformes related to Polygyrodus. The type species is D. lamberti.
Diodon serratus[98]	Sp. nov		Aguilera, Carrillo-Briceño & Rodriguez in Aguilera et al.	Middle Miocene	Socorro Formation	Venezuela	A species of Diodon.
Economidichthys altidorsalis[90]	Sp. nov	Valid	Schwarzhans, Bradić & Bratishko in Schwarzhans et al.	Miocene		Austria   Romania	A goby, a species of Economidichthys.
Enchodus tineidae[105]	Sp. nov	Valid	Holloway et al.	Late Cretaceous (late Campanian)	Duwi Formation	Egypt
Enophrys hoplites[106]	Sp. nov	Valid	Nazarkin	Miocene (Serravallian‒Tortonian)	Agnevo Formation	Russia (  Sakhalin Oblast)	A species of Enophrys.
Eoanabas[107]	Sp. nov		Wu et al.	Oligocene (Chattian)	Dingqing Formation	China	A climbing gourami. The type species is E. thibetana.
Eoserrasalmimus[104]	Gen. et sp. nov	Valid	Vullo et al.	Late Cretaceous (late Maastrichtian)	Eastern Ouled Abdoun Basin	Morocco	A member of Pycnodontiformes related to Polygyrodus. The type species is E. cattoi.
Esox nogaicus[108]	Sp. nov	Valid	Kovalchuk, Wilson & Grande	Early Pleistocene		Ukraine	A species of Esox.
Eurypleuron debilis[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	A species of Eurypleuron.
Foreyia[109]	Gen. et sp. nov		Cavin et al.	Middle Triassic (Ladinian)	Prosanto Formation	Switzerland	A coelacanth belonging to the family Latimeriidae. The type species is F. maxkuhni.
Gobius jarosi[110]	Sp. nov	Valid	Přikryl & Reichenbacher in Reichenbacher et al.	Miocene (Burdigalian)		Czech Republic   Poland[111]	A goby, a species of Gobius.
Gonostoma dracula[112]	Sp. nov	Valid	Grădianu et al.	Oligocene		Romania	A species of Gonostoma.
Grimmenodon[113]	Gen. et sp. nov	Valid	Stumpf et al.	Early Jurassic (Toarcian)		Germany	A member of Pycnodontiformes. The type species is G. aureum.
Gymnogobius oligocenicus[99]	Sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A species of Gymnogobius.
Hesperichthys[90]	Gen. et sp. et comb. nov	Valid	Schwarzhans, Ahnelt, Carnevale & Japundžić in Schwarzhans et al.	Miocene		Austria   Bulgaria   Croatia   Serbia   Slovakia	A goby. The type species is H. reductus; genus also includes "Hyrcanogobius" hesperis Schwarzhans, Bradić & Rundić (2015).
Heteroconger? mataura[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	Possibly a species of Heteroconger.
Hippohaliichthys[114]	Gen. et sp. nov	Valid	Žalohar & Hitij	Middle Miocene		Slovenia	A member of the family Syngnathidae related to Haliichthys taeniophorus. The type species is H. edis.
Hispanamia[115]	Gen. et sp. nov	Valid	Martín-Abad & Poyato-Ariza	Early Cretaceous		Spain	A member of Amiiformes. Genus includes new species H. newbreyi.
Hongyu[116]	Gen. et sp. nov	Valid	Zhu et al.	Devonian	Zhongning Formation	China	A member of Tetrapodomorpha of uncertain phylogenetic placement. The type species is H. chowi.
Isadia opokiensis[117]	Sp. nov	Valid	Minikh & Andrushkevich	Late Permian	Poldarsa/Poldarskaya Formation	Russia (  Orenburg Oblast   Vologda Oblast)	A ray-finned fish belonging to the group Eurynotoidiformes. Originally described as a species of Isadia, but subsequently made the type species of the separate genus Vologdinia.[118]
Italophiopsis[119]	Gen. et sp. nov	Valid	Taverne & Capasso	Early Cretaceous (Albian)	Limestones of Pietraroja	Italy	A member of Halecomorphi belonging to the group Ionoscopiformes. The type species is I. derasmoi.
Karaganops[120]	Gen. et comb. nov	Valid	Baykina & Schwarzhans	Miocene		Bulgaria   Russia (  Krasnodar Krai   Tambov Oblast)	A member of Clupeidae. The type species is "Sardinella" perrata Daniltshenko (1970); genus also includes Karaganops komochtitziensis (Strashimirov, 1985).
Kelemejtubus[121]	Gen. et sp. nov	Valid	Cantalice & Alvarado-Ortega	Paleocene (Danian)		Mexico	A member of Percomorpha of uncertain phylogenetic placement. Genus includes new species K. castroi.
Knipowitschia bulgarica[90]	Sp. nov	Valid	Schwarzhans, Bradić & Bratishko in Schwarzhans et al.	Miocene		Bulgaria	A goby, a species of Knipowitschia.
Krebsiella chattonensis[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	A member of the family Percophidae.
Lambeia[122]	Gen. et sp. nov	Valid	Mickle	Carboniferous (Tournaisian)	Albert Formation	Canada (  New Brunswick)	An early member of Actinopterygii. The type species is L. pectinatus.
Leptolepis toyei[123]	Sp. nov	Valid	Flannery Sutherland et al.	Early Cretaceous (Hauterivian)	Lower Weald Clay Formation	United Kingdom
Leptolepis wealdensis[123]	Sp. nov	Valid	Flannery Sutherland et al.	Early Cretaceous (Hauterivian)	Lower Weald Clay Formation	United Kingdom
Lesueurigobius magniiugis[91]	Sp. nov	Valid	Schwarzhans	Miocene		Romania	A species of Lesueurigobius.
Lesueurigobius stironensis[100]	Sp. nov	Valid	Lin et al.	Miocene (Tortonian)		Italy	A species of Lesueurigobius.
Lesueurina transoceana[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	A relative of the flathead pygmy-stargazer.
Liza brevirostris[99]	Sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A species of Liza.
Lombardichthys[124]	Gen. et comb. nov	Valid	Arratia	Late Triassic (Norian)		Italy	A new genus for "Pholidophorus" gervasuttii Zambelli (1980).
Lotella latidorsalis[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	A species of Lotella.
Louckaichthys[125]	Gen. et sp. nov	Valid	Přikryl & Carnevale	Oligocene (Rupelian)	Menilitic Formation	Czech Republic	A member of the family Batrachoididae. The type species is L. novosadi.
Luxembourgichthys[126]	Gen. et comb. nov	Valid	Taverne & Steurbaut	Early Jurassic (Toarcian)	Grandcourt Formation	Belgium   Luxembourg	A new genus for "Pholidophorus" friedeni Delsate (1999).
“Merluccius” rattazzii[100]	Sp. nov	Valid	Lin et al.	Miocene (Tortonian)		Italy	A member of the family Merlucciidae.
Microdesmus paratethycus[91]	Sp. nov	Valid	Schwarzhans	Miocene		Bulgaria	A species of Microdesmus.
Micropercops pomahaka[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Pomahaka Formation	New Zealand	A species of Micropercops.
Moldavichthys[127]	Gen. et sp. nov	Valid	Baykina & Schwarzhans	Miocene		Moldova	A member of Alosinae. Genus includes new species M. switshenskae. Baykina & Schwarzhans (2017) also listed "Clupea" gomotartziensis Strashimirov (1985) as a possible species belonging to this genus, but subsequently this species was moved to the genus Maeotichthys.[128]
Moringua waimumuensis[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	A species of Moringua.
Myripristis lobata[91]	Sp. nov	Valid	Schwarzhans	Miocene		Romania	A species of Myripristis.
Namicauda[99]	Gen. et sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A member of the family Polymixiidae. The type species is N. pulvinata.
Nanningocyprinus[129]	Gen. et sp. nov	Valid	Chen, Cen & Liu	Oligocene	Yongning Formation	China	A member of Cyprinidae. The type species is N. wui.
Neobythites auriculatus[100]	Sp. nov	Valid	Lin et al.	Miocene (Tortonian)		Italy	A species of Neobythites.
Neobythites lindqvisti[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Waihoaka Formation	New Zealand	A species of Neobythites.
Neogobius bettinae[130]	Sp. nov	Valid	Bratishko, Kovalchuk & Schwarzhans	Miocene (Tortonian)		Ukraine	A goby, a species of Neogobius.
Nhanulepisosteus[131]	Gen. et sp. nov	Valid	Brito, Alvarado-Ortega & Meunier	Late Jurassic (Kimmeridgian)	Sabinal Formation	Mexico	A gar. The type species is N. mexicanus.
Nishiberyx[99]	Gen. et sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A member of Berycidae. The type species is N. nishimotoi.
Onychodus eriensis[132]	Sp. nov	Valid	Mann et al.	Devonian (Eifelian–Givetian boundary)	Dundee Formation	Canada (  Ontario)
Optivus moko[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	A species of Optivus.
Ortugobius[99]	Gen. etp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A member of Gobioidei, possibly a goby. The type species is O. cascus.
Pagellus schuberti[91]	Sp. nov	Valid	Schwarzhans	Miocene		Romania	A species of Pagellus.
Paraclupea seilacheri[133]	Sp. nov.	Valid	Alvarado-Ortega & Melgarejo-Damián	Early Cretaceous (Albian)	Tlayúa Formation	Mexico	A member of Clupeomorpha belonging to the group Ellimmichthyiformes and the family Paraclupeidae.
Paralates chapelcorneri[134]	Sp. nov	Valid	Gierl & Reichenbacher	Eocene (Priabonian)	Chapelcorner Fish Bed	United Kingdom	A member of Gobiiformes of uncertain phylogenetic placement.
Parasolea[135]	Gen. et comb. nov	Valid	Schwarzhans et al.	Miocene		Serbia	A member of the family Soleidae; a new genus for "Rhombus" serbicus Anđelković (1966).
Pareques laraensis[101]	Sp. nov	Valid	Núñez-Flores et al.	Miocene (Burdigalian)	Castillo Formation	Venezuela	A member of Sciaenidae.
Pholidoctenus sanpellegrinensis[124]	Sp. nov	Valid	Arratia	Triassic		Italy
Pontinus? karasawai[99]	Sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A scorpionfish, possibly a species of Pontinus.
Proneogobius[90]	Gen. et comb. nov	Valid	Schwarzhans, Ahnelt, Carnevale & Japundžić in Schwarzhans et al.	Miocene		Croatia	A goby; a new genus for "Gobius" pullus Kramberger (1882).
Protobenthophilus[90]	Gen. et 2 sp. nov	Valid	Schwarzhans, Ahnelt, Carnevale & Japundžić in Schwarzhans et al.	Miocene		Austria   Bulgaria   Croatia   Romania	A goby. The type species is P. squamatus; genus also includes P. strashimirovi.
Pshekhagnathus[136]	Gen. et sp. nov	Valid	Bannikov, Carnevale & Popov	Oligocene (Rupelian)		Russia (  Krasnodar Krai)	A member of the family Syngnathidae. The type species is P. polypterus.
Ptyctolepis[137]	Gen. et sp. nov	Valid	Lu et al.	Devonian (Pragian)	Posongchong Formation	China	A stem-sarcopterygian. The type species is P. brachynotus.
Qarmoutus[138]	Gen. et sp. nov	Valid	El-Sayed et al.	Eocene (Priabonian)	Birket Qarun Formation	Egypt	A member of Ariidae. The type species is Q. hitanensis.
Rhynchoconger placidus[99]	Sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A species of Rhynchoconger.
Rhynchoconger subtilis[99]	Sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A species of Rhynchoconger.
Sachajenynsia[139]	Gen. et sp. nov	Valid	Sferco et al.	Miocene		Argentina	A member of Anablepidae. Genus includes new species S. pacha.
Sagaberyx[99]	Gen. et sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A member of Beryciformes belonging to the suborder Berycoidei. The type species is S. kishimaensis.
Sardinops robinsoni[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Chatton Formation	New Zealand	A relative of the South American pilchard.
Saurida macilenta[99]	Sp. nov	Valid	Schwarzhans, Ohe & Ando	Early Oligocene	Kishima Formation	Japan	A species of Saurida.
Saurorhynchus anningae[140]	Sp. nov	Valid	Maxwell & Stumpf	Early Jurassic	Charmouth Mudstone	United Kingdom
Saurorhynchus hauffi[140]	Sp. nov	Valid	Maxwell & Stumpf	Early Jurassic	Posidonia Shale	Germany   United Kingdom
Scalacurvichthys[141]	Gen. et sp. nov	Valid	Cawley & Kriwet	Late Cretaceous (Cenomanian)	Amminadav Formation or Bet-Meir Formation	Palestine	A member of Pycnodontidae. The type species is S. naishi.
Scleropages sinensis[142]	Sp. nov	Valid	Zhang & Wilson	Early Eocene	Yangxi Formation	China	A species of Scleropages.
Serrasalmimus[104]	Gen. et sp. nov	Valid	Vullo et al.	Paleocene (early Thanetian)	Eastern Ouled Abdoun Basin	Morocco	A member of Pycnodontiformes related to Polygyrodus. The type species is S. secans.
Sparalepis[143]	Gen. et sp. nov	Valid	Choo et al.	Silurian (late Ludlow)	Kuanti Formation	China	An early bony fish, probably a stem-sarcopterygian. The type species is S. tingi.
Subortichthys[144]	Gen. et sp. nov	Valid	Ma & Xu	Middle Triassic (Anisian)	Guanling Formation	China	A member of Halecomorphi belonging to the group Ionoscopiformes. The type species is S. triassicus.
Teffichthys[145]	Gen. et comb. nov	Valid	Marramà et al.	Early Triassic	Ankitokazo Basin	Angola   Greenland   Madagascar   Norway	A non-perleidiform member of Actinopterygii. A new genus for "Perleidus" madagascariensis Piveteau (1934); genus also includes "Perleidus" woodwardi, "Perleidus" stoschiensis, "Perleidus" lutoensis and "Perleidus" lehmani.
Tonganago[89]	Gen. et et comb. sp. nov	Valid	Schwarzhans, Lee & Gard	Eocene to Miocene	Chatton Formation	New Zealand	A member of the family Congridae. The type species is "Scalanago" fastigatus Schwarzhans (1980); genus also includes "Mystriophis" obliquum Stinton (1957), Tonganago sagittisulcatus (Schwarzhans, 1980) and a new species T. coplandi.
Trachyrincus tewaewae[89]	Sp. nov	Valid	Schwarzhans, Lee & Gard	Late Oligocene	Waihoaka Formation	New Zealand	A species of Trachyrincus.
Tucmanableps[139]	Gen. et sp. nov	Valid	Sferco et al.	Miocene		Argentina	A member of Anablepidae. Genus includes new species T. cionei.
Tugenchromis[146]	Gen. et sp. nov	Valid	Altner et al.	Late Miocene	Ngorora Formation	Kenya	A cichlid belonging to the subfamily Pseudocrenilabrinae. Genus includes new species T. pickfordi.
Weilerigobius[91]	Gen. et sp. nov	Valid	Schwarzhans	Miocene		Romania	Genus includes new species W. lapugiensis.
Xenoceratodus[147]	Gen. et sp. nov	Valid	Longrich	Late Eocene		Libya	A stem-lepidosireniform lungfish. The type species is X. labyrinthus.
Zhongweilepis[148]	Gen. et sp. nov	Valid	Tan	Carboniferous (late Namurian)	Tupo Formation	China	A member of Palaeonisciformes of uncertain phylogenetic placement. The type species is Z. macilentus.
Zorzinilabrus[149]	Gen. et sp. nov.	Valid	Bannikov & Bellwood	Eocene (late Ypresian)	Monte Bolca locality	Italy	A wrasse. The type species is Z. furcatus.

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