Jump to content

英文维基 | 中文维基 | 日文维基 | 草榴社区

2017 in paleoichthyology

From Wikipedia, the free encyclopedia

List of years in paleoichthyology
In paleontology
2014
2015
2016
2017
2018
2019
2020
In science
2014
2015
2016
2017
2018
2019
2020
In paleobotany
2014
2015
2016
2017
2018
2019
2020
In arthropod paleontology
2014
2015
2016
2017
2018
2019
2020
In paleoentomology
2014
2015
2016
2017
2018
2019
2020
In paleomalacology
2014
2015
2016
2017
2018
2019
2020
In reptile paleontology
2014
2015
2016
2017
2018
2019
2020
In archosaur paleontology
2014
2015
2016
2017
2018
2019
2020
In mammal paleontology
2014
2015
2016
2017
2018
2019
2020

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.

Research

[edit]

New taxa

[edit]

Jawless vertebrates

[edit]
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

[edit]
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

[edit]
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

[edit]
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 (SerravallianTortonian)

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 (EifelianGivetian 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.

References

[edit]
  1. ^ Priscilla Vázquez; Matthew E. Clapham (2017). "Extinction selectivity among marine fishes during multistressor global change in the end-Permian and end-Triassic crises". Geology. 45 (5): 395–398. Bibcode:2017Geo....45..395V. doi:10.1130/G38531.1. S2CID 39142180.
  2. ^ Humberto G. Ferrón; Héctor Botella (2017). "Squamation and ecology of thelodonts". PLOS ONE. 12 (2): e0172781. Bibcode:2017PLoSO..1272781F. doi:10.1371/journal.pone.0172781. PMC 5328365. PMID 28241029.
  3. ^ Emma Randle; Robert S. Sansom (2017). "Phylogenetic relationships of the 'higher heterostracans' (Heterostraci: Pteraspidiformes and Cyathaspididae), extinct jawless vertebrates". Zoological Journal of the Linnean Society. 181 (4): 910–926. doi:10.1093/zoolinnean/zlx025.
  4. ^ Emma Randle; Robert S. Sansom (2017). "Exploring phylogenetic relationships of Pteraspidiformes heterostracans (stem-gnathostomes) using continuous and discrete characters". Journal of Systematic Palaeontology. 15 (7): 583–599. Bibcode:2017JSPal..15..583R. doi:10.1080/14772019.2016.1208293. S2CID 89434466.
  5. ^ Gambit van der Brugghen (2017). "Taphonomy versus taxonomy and the synonyms of Euphanerops longaevus Woodward, 1900 (Agnatha) occurring at the Middle Devonian Achanarras Quarry of Caithness, Scotland". Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 286 (3): 329–347. doi:10.1127/njgpa/2017/0701.
  6. ^ Benedict King; Tuo Qiao; Michael S. Y. Lee; Min Zhu; John A. Long (2017). "Bayesian Morphological Clock Methods Resurrect Placoderm Monophyly and Reveal Rapid Early Evolution in Jawed Vertebrates". Systematic Biology. 66 (4): 499–516. doi:10.1093/sysbio/syw107. PMID 27920231.
  7. ^ Martin D. Brazeau; Matt Friedman; Anna Jerve; Robert C. Atwood (2017). "A three-dimensional placoderm (stem-group gnathostome) pharyngeal skeleton and its implications for primitive gnathostome pharyngeal architecture". Journal of Morphology. 278 (9): 1220–1228. doi:10.1002/jmor.20706. PMC 5575467. PMID 28543631.
  8. ^ Vincent Dupret; Sophie Sanchez; Daniel Goujet; Per Erik Ahlberg (2017). "The internal cranial anatomy of Romundina stellina Ørvig, 1975 (Vertebrata, Placodermi, Acanthothoraci) and the origin of jawed vertebrates—Anatomical atlas of a primitive gnathostome". PLOS ONE. 12 (2): e0171241. Bibcode:2017PLoSO..1271241D. doi:10.1371/journal.pone.0171241. PMC 5295682. PMID 28170434.
  9. ^ Martin Rücklin; Philip C. J. Donoghue (2015). "Romundina and the evolutionary origin of teeth". Biology Letters. 11 (6): 20150326. doi:10.1098/rsbl.2015.0326. PMC 4528481. PMID 26109615.
  10. ^ Moya Meredith Smith; Brett Clark; Daniel Goujet; Zerina Johanson (2017). "Evolutionary origins of teeth in jawed vertebrates: conflicting data from acanthothoracid dental plates ('Placodermi')". Palaeontology. 60 (6): 829–836. Bibcode:2017Palgy..60..829M. doi:10.1111/pala.12318. hdl:10141/622339.
  11. ^ Ervīns Lukševičs; Pavel Beznosov; Valdemārs Stūris (2017). "A new assessment of the Late Devonian antiarchan fish Bothriolepis leptocheira from South Timan (Russia) and the biotic crisis near the Frasnian–Famennian boundary". Acta Palaeontologica Polonica. 62 (1): 97–119. doi:10.4202/app.00265.2016.
  12. ^ Mateusz Antczak; Błażej Berkowski (2017). "Ornamentation of dermal bones of Placodermi from the Lower Devonian of Morocco as a measure of biodiversity". Geologos. 23 (2): 65–73. Bibcode:2017Geolg..23...65A. doi:10.1515/logos-2017-0009. S2CID 54202346.
  13. ^ James Boyle; Michael J. Ryan (2017). "New information on Titanichthys (Placodermi, Arthrodira) from the Cleveland Shale (Upper Devonian) of Ohio, USA". Journal of Paleontology. 91 (2): 318–336. Bibcode:2017JPal...91..318B. doi:10.1017/jpa.2016.136. S2CID 132831650.
  14. ^ Vincent Dupret; Min Zhu; Jun-Qing Wang (2017). "Redescription of Szelepis Liu, 1981 (Placodermi, Arthrodira), from the Lower Devonian of China". Journal of Vertebrate Paleontology. 37 (2): e1312422. Bibcode:2017JVPal..37E2422D. doi:10.1080/02724634.2017.1312422. S2CID 90912807.
  15. ^ Yuzhi Hu; Jing Lu; Gavin C. Young (2017). "New findings in a 400 million-year-old Devonian placoderm shed light on jaw structure and function in basal gnathostomes". Scientific Reports. 7 (1): Article number 7813. Bibcode:2017NatSR...7.7813H. doi:10.1038/s41598-017-07674-y. PMC 5552730. PMID 28798392.
  16. ^ Humberto G. Ferrón; Carlos Martínez-Pérez; Héctor Botella (2017). "Ecomorphological inferences in early vertebrates: reconstructing Dunkleosteus terrelli (Arthrodira, Placodermi) caudal fin from palaeoecological data". PeerJ. 5: e4081. doi:10.7717/peerj.4081. PMC 5723140. PMID 29230354.
  17. ^ P. A. Beznosov (2017). "Ontogeny of the Early Carboniferous acanthodian Acanthodes lopatini Rohon". Paleontological Journal. 51 (7): 746–756. Bibcode:2017PalJ...51..746B. doi:10.1134/S0031030117070024. S2CID 90372559.
  18. ^ Stephanie A. Blais (2017). "Precise occlusion and trophic niche differentiation indicate specialized feeding in Early Devonian jawed vertebrates". FACETS. 2: 513–530. doi:10.1139/facets-2016-0030.
  19. ^ Marion Chevrinais; Jean-Yves Sire; Richard Cloutier (2017). "From body scale ontogeny to species ontogeny: Histological and morphological assessment of the Late Devonian acanthodian Triazeugacanthus affinis from Miguasha, Canada". PLOS ONE. 12 (4): e0174655. Bibcode:2017PLoSO..1274655C. doi:10.1371/journal.pone.0174655. PMC 5389634. PMID 28403168.
  20. ^ Marion Chevrinais; Jean-Yves Sire; Richard Cloutier (2017). "Unravelling the ontogeny of a Devonian early gnathostome, the "acanthodian" Triazeugacanthus affinis (eastern Canada)". PeerJ. 5: e3969. doi:10.7717/peerj.3969. PMC 5661438. PMID 29094000.
  21. ^ John G. Maisey; Randall Miller; Alan Pradel; John S.S. Denton; Allison Bronson; Philippe Janvier (2017). "Pectoral morphology in Doliodus: bridging the 'acanthodian'-chondrichthyan divide". American Museum Novitates (3875): 1–15. doi:10.1206/3875.1. hdl:2246/6701. S2CID 44127090.
  22. ^ Carole J. Burrow; Susan Turner; John G. Maisey; Sylvain Desbiens; Randall F. Miller (2017). "Spines of the stem chondrichthyan Doliodus latispinosus (Whiteaves) comb. nov. from the Lower Devonian of eastern Canada". Canadian Journal of Earth Sciences. 54 (12): 1248–1262. Bibcode:2017CaJES..54.1248B. doi:10.1139/cjes-2017-0059. hdl:1807/78890.
  23. ^ Donald B. Brinkman; Andrew G. Neuman; Julien D. Divay (2017). "Non-marine fishes of the late Santonian Milk River Formation of Alberta, Canada – evidence from vertebrate microfossil localities". Vertebrate Anatomy Morphology Palaeontology. 3: 7–46. doi:10.18435/B5PP41.
  24. ^ Donald B. Brinkman; Andrew G. Neuman; Julien D. Divay (2017). "Erratum: Non-marine fishes of the late Santonian Milk River Formation of Alberta, Canada – evidence from vertebrate microfossil localities". Vertebrate Anatomy Morphology Palaeontology. 3: 61–62. doi:10.18435/B5D598.
  25. ^ Zerina Johanson; Moya Smith; Sophie Sanchez; Tim Senden; Kate Trinajstic; Cathrin Pfaff (2017). "Questioning hagfish affinities of the enigmatic Devonian vertebrate Palaeospondylus". Royal Society Open Science. 4 (7): 170214. Bibcode:2017RSOS....470214J. doi:10.1098/rsos.170214. PMC 5541543. PMID 28791148.
  26. ^ John G. Maisey; Allison W. Bronson; Robert R. Williams; Mark Mckinzie (2017). "A Pennsylvanian 'supershark' from Texas". Journal of Vertebrate Paleontology. 37 (3): e1325369. Bibcode:2017JVPal..37E5369M. doi:10.1080/02724634.2017.1325369. S2CID 134127771.
  27. ^ Michael I. Coates; Robert W. Gess; John A. Finarelli; Katharine E. Criswell; Kristen Tietjen (2017). "A symmoriiform chondrichthyan braincase and the origin of chimaeroid fishes". Nature. 541 (7636): 208–211. Bibcode:2017Natur.541..208C. doi:10.1038/nature20806. PMID 28052054. S2CID 4455946.
  28. ^ Susan Turner; Steve Avery (2017). "A Jurassic non-marine chondrichthyan in Australia and its palaeogeographic significance". Palaeoworld. 26 (2): 268–278. doi:10.1016/j.palwor.2017.01.001.
  29. ^ Thodoris Argyriou; Carlo Romano; Jorge D. Carrillo-Briceño; Morgane Brosse; Richard Hofmann (2017). "The oldest record of gnathostome fossils from Greece: Chondrichthyes from the Lopingian of Hydra Island". Palaeontologia Electronica. 20 (1): Article number 20.1.8A. doi:10.26879/730.
  30. ^ Jared T. Voris; Andrew B. Heckert (2017). "Ontogenetic heterodonty in Reticulodus synergus (Chondrichthyes, Hybodontiformes) from the Upper Triassic of the southwestern U.S.A., with a redescription of the genus". Journal of Vertebrate Paleontology. 37 (4): e1351980. Bibcode:2017JVPal..37E1980V. doi:10.1080/02724634.2017.1351980. S2CID 90871323.
  31. ^ Rachel A. Belben; Charlie J. Underwood; Zerina Johanson; Richard J. Twitchett (2017). "Ecological impact of the end-Cretaceous extinction on lamniform sharks". PLOS ONE. 12 (6): e0178294. Bibcode:2017PLoSO..1278294B. doi:10.1371/journal.pone.0178294. PMC 5462355. PMID 28591222.
  32. ^ Orangel Aguilera; Zoneibe Luz; Jorge D. Carrillo-Briceño; László Kocsis; Torsten W. Vennemann; Peter Mann de Toledo; Afonso Nogueira; Kamilla Borges Amorim; Heloísa Moraes-Santos; Marcia Reis Polck; Maria de Lourdes Ruivo; Ana Paula Linhares; Cassiano Monteiro-Neto (2017). "Neogene sharks and rays from the Brazilian 'Blue Amazon'". PLOS ONE. 12 (8): e0182740. Bibcode:2017PLoSO..1282740A. doi:10.1371/journal.pone.0182740. PMC 5568136. PMID 28832664.
  33. ^ Humberto G. Ferrón (2017). "Regional endothermy as a trigger for gigantism in some extinct macropredatory sharks". PLOS ONE. 12 (9): e0185185. Bibcode:2017PLoSO..1285185F. doi:10.1371/journal.pone.0185185. PMC 5609766. PMID 28938002.
  34. ^ Alberto Collareta; Olivier Lambert; Walter Landini; Claudio Di Celma; Elisa Malinverno; Rafael Varas-Malca; Mario Urbina; Giovanni Bianucci (2017). "Did the giant extinct shark Carcharocles megalodon target small prey? Bite marks on marine mammal remains from the late Miocene of Peru". Palaeogeography, Palaeoclimatology, Palaeoecology. 469: 84–91. Bibcode:2017PPP...469...84C. doi:10.1016/j.palaeo.2017.01.001. hdl:10281/151854.
  35. ^ Walter Landini; Alberto Collareta; Fabio Pesci; Claudio Di Celma; Mario Urbina; Giovanni Bianucci (2017). "A secondary nursery area for the copper shark Carcharhinus brachyurus from the late Miocene of Peru". Journal of South American Earth Sciences. 78: 164–174. Bibcode:2017JSAES..78..164L. doi:10.1016/j.jsames.2017.07.003.
  36. ^ Giuseppe Marramà; Jürgen Kriwet (2017). "Principal component and discriminant analyses as powerful tools to support taxonomic identification and their use for functional and phylogenetic signal detection of isolated fossil shark teeth". PLOS ONE. 12 (11): e0188806. Bibcode:2017PLoSO..1288806M. doi:10.1371/journal.pone.0188806. PMC 5705141. PMID 29182683.
  37. ^ Donglei Chen; Henning Blom; Sophie Sanchez; Paul Tafforeau; Tiiu Märss; Per E. Ahlberg (2017). "Development of cyclic shedding teeth from semi-shedding teeth: the inner dental arcade of the stem osteichthyan Lophosteus". Royal Society Open Science. 4 (5): 161084. Bibcode:2017RSOS....461084C. doi:10.1098/rsos.161084. PMC 5451804. PMID 28573003.
  38. ^ Thomas Schindler (2017). "Neubeschreibung, Rekonstruktion, Paläoökologie und Paläobiogeografie von Elonichthys fritschi Friedrich, 1878 (Osteichthyes, Actinopterygii; Unterperm, Deutschland)". Mainzer Naturwissenschaftliches Archiv. 54: 83–96.
  39. ^ Sam Giles; Guang-Hui Xu; Thomas J. Near; Matt Friedman (2017). "Early members of 'living fossil' lineage imply later origin of modern ray-finned fishes" (PDF). Nature. 549 (7671): 265–268. Bibcode:2017Natur.549..265G. doi:10.1038/nature23654. PMID 28854173. S2CID 205259531.
  40. ^ Mark N. Puttick; Jürgen Kriwet; Wen Wen; Shixue Hu; Gavin H. Thomas; Michael J. Benton (2017). "Body length of bony fishes was not a selective factor during the biggest mass extinction of all time". Palaeontology. 60 (5): 727–741. Bibcode:2017Palgy..60..727P. doi:10.1111/pala.12309. hdl:1983/bda1adfa-7dd7-41e3-accf-a93d9d034518.
  41. ^ Márton Szabó; Attila Ősi (2017). "The continental fish fauna of the Late Cretaceous (Santonian) Iharkút locality (Bakony Mountains, Hungary)". Central European Geology. 60 (2): 230–287. Bibcode:2017CEJGl..60..230S. doi:10.1556/24.60.2017.009. hdl:10831/67493.
  42. ^ Zuoyu Sun; Peigang Ni (2017). "Revision of Kyphosichthys grandei Xu & Wu, 2012 from the Middle Triassic of Yunnan Province, South China: implications for phylogenetic interrelationships of ginglymodian fishes". Journal of Systematic Palaeontology. 16 (1): 67–85. doi:10.1080/14772019.2016.1269049. S2CID 90682552.
  43. ^ Diogo Mayrinck; Paulo M. Brito; François J. Meunier; Jesus Alvarado-Ortega; Olga Otero (2017). "†Sorbinicharax verraesi: An unexpected case of a benthic fish outside Acanthomorpha in the Upper Cretaceous of the Tethyan Sea". PLOS ONE. 12 (8): e0183879. Bibcode:2017PLoSO..1283879M. doi:10.1371/journal.pone.0183879. PMC 5573274. PMID 28846739.
  44. ^ Louis Taverne; Jeff Liston (2017). "On the presence of the plethodid fish Dixonanogmius (Teleostei, Tselfatiiformes) in the marine Upper Cretaceous of Burma (Myanmar), tropical Asia" (PDF). Geo-Eco-Trop. 41 (1): 77–84.
  45. ^ Louis Taverne (2017). "Osteology and relationships of Signeuxella preumonti (Teleostei, "Pholidophoriformes", Signeuxellidae) from the continental Middle Jurassic (Stanleyville Formation) of Kisangani (Democratic Republic of Congo)" (PDF). Geo-Eco-Trop. 41 (1): 85–98.
  46. ^ Martin Konwert; Sebastian Stumpf (2017). "Exceptionally preserved Leptolepidae (Actinopterygii, Teleostei) from the late Early Jurassic Fossil-Lagerstätten of Grimmen and Dobbertin (Mecklenburg-Western Pomerania, Germany)". Zootaxa. 4243 (2): 249–296. doi:10.11646/zootaxa.4243.2.2. PMID 28610149.
  47. ^ Francisco J. de Figueiredo; Douglas R.M. Ribeiro (2017). "Reassessment and Relationships of †Scutatuspinosus itapagipensis (Teleostei, Clupeomorpha, †Ellimmichthyiformes) from the Neocomian of Recôncavo Basin, Northeastern Brazil". Anais da Academia Brasileira de Ciências. 89 (2): 799–823. doi:10.1590/0001-3765201620160310. PMID 28177052.
  48. ^ Giuseppe Marramà; Giorgio Carnevale (2017). "The relationships of Gasteroclupea branisai Signeux, 1964, a freshwater double-armored herring (Clupeomorpha, Ellimmichthyiformes) from the Late Cretaceous-Paleocene of South America". Historical Biology: An International Journal of Paleobiology. 29 (7): 904–917. Bibcode:2017HBio...29..904M. doi:10.1080/08912963.2016.1262855. S2CID 88892891.
  49. ^ Louis Taverne; Luigi Capasso (2017). "Osteology and relationship of Caeus ("Chanos") leopoldi (Teleostei, Gonorynchiformes, Chanidae) from the marine Albian (Early Cretaceous) of Pietraroja Campania (southern Italy)" (PDF). Bollettino del Museo Civico di Storia Naturale di Verona. 41: 3–20.
  50. ^ Mariangeles Arce-H.; John G. Lundberg; Maureen A. O'Leary (2017). "Phylogeny of the North American catfish family Ictaluridae (Teleostei: Siluriformes) combining morphology, genes and fossils". Cladistics. 33 (4): 406–428. doi:10.1111/cla.12175. PMID 34715724. S2CID 88598140.
  51. ^ Bowen Song; Kexin Zhang; Junliang Ji; Fang Han; Chaowen Wang; Jiaxuan Wang; Keke Ai (2017). "Occurrence of Middle Miocene fossil cyprinid fish in the northern Qaidam Basin and its paleoenvironmental implications". Acta Geologica Sinica (English Edition). 91 (5): 1530–1541. Bibcode:2017AcGlS..91.1530S. doi:10.1111/1755-6724.13398. S2CID 134710670.
  52. ^ Giuseppe Marramà; Giorgio Carnevale (2017). "Morphology, relationships and palaeobiology of the Eocene barracudina †Holosteus esocinus (Aulopiformes: Paralepididae) from Monte Bolca, Italy". Zoological Journal of the Linnean Society. 181 (1): 209–228. doi:10.1093/zoolinnean/zlw029.
  53. ^ Donald Davesne; Giorgio Carnevale; Matt Friedman (2017). "Bajaichthys elegans from the Eocene of Bolca (Italy) and the overlooked morphological diversity of Zeiformes (Teleostei, Acanthomorpha)". Palaeontology. 60 (2): 255–268. Bibcode:2017Palgy..60..255D. doi:10.1111/pala.12280. hdl:2027.42/136341.
  54. ^ Michael J. Ghedotti; Matthew P. Davis (2017). "The taxonomic placement of three fossil Fundulus species and the timing of divergence within the North American topminnows (Teleostei: Fundulidae) ( Jonet, 1958)". Zootaxa. 4250 (6): 577–586. doi:10.11646/zootaxa.4250.6.5. PMID 28609996.
  55. ^ Dahiana Arcila; James C. Tyler (2017). "Mass extinction in tetraodontiform fishes linked to the Palaeocene–Eocene thermal maximum". Proceedings of the Royal Society B: Biological Sciences. 284 (1866): 20171771. doi:10.1098/rspb.2017.1771. PMC 5698648. PMID 29118135.
  56. ^ Tomáš Přikryl (2017). "Notes on development of the Oligocene trachinid Trachinus minutus ( Jonet, 1958)". Palaeontographica Abteilung A. 308 (1–3): 69–87. Bibcode:2017PalAA.308...69P. doi:10.1127/pala/308/2017/69.
  57. ^ Spencer G. Lucas; Asher J. Lichtig; Kenneth Pérez; Guillermo E. Alvarado (2017). "Fossils of cichlid fishes from the Miocene and Pleistocene of Costa Rica". Revista Geológica de América Central. 57 (57): 45–53. doi:10.15517/rgac.v0i57.30147.
  58. ^ Giorgio Carnevale; G. David Johnson; Giuseppe Marramà; Alexandre F. Bannikov (2017). "A reappraisal of the Eocene priacanthid fish Pristigenys substriata (Blainville, 1818) from Monte Bolca, Italy". Journal of Paleontology. 91 (3): 554–565. Bibcode:2017JPal...91..554C. doi:10.1017/jpa.2017.19. S2CID 89635871.
  59. ^ Michael D. Gottfried; Karen E. Samonds; Summer A. Ostrowski; Tsiory Harimalala Andrianavalona; Tolotra Niaina Ramihangihajason (2017). "New evidence indicates the presence of barracuda (Sphyraenidae) and supports a tropical marine environment in the Miocene of Madagascar". PLOS ONE. 12 (5): e0176553. Bibcode:2017PLoSO..1276553G. doi:10.1371/journal.pone.0176553. PMC 5441575. PMID 28542538.
  60. ^ Camila Cupello; François J. Meunier; Marc Herbin; Philippe Janvier; Gaël Clément; Paulo M. Brito (2017). "The homology and function of the lung plates in extant and fossil coelacanths". Scientific Reports. 7 (1): Article number 9244. Bibcode:2017NatSR...7.9244C. doi:10.1038/s41598-017-09327-6. PMC 5569016. PMID 28835617.
  61. ^ Michał Zatoń; Krzysztof Broda; Martin Qvarnström; Grzegorz Niedźwiedzki; Per Erik Ahlberg (2017). "The first direct evidence of a Late Devonian coelacanth fish feeding on conodont animals". The Science of Nature. 104 (3–4): Article 26. Bibcode:2017SciNa.104...26Z. doi:10.1007/s00114-017-1455-7. PMC 5346137. PMID 28283751.
  62. ^ Anne Kemp; Lionel Cavin; Guillaume Guinot (2017). "Evolutionary history of lungfishes with a new phylogeny of post-Devonian genera". Palaeogeography, Palaeoclimatology, Palaeoecology. 471: 209–219. Bibcode:2017PPP...471..209K. doi:10.1016/j.palaeo.2016.12.051.
  63. ^ Andrea Cau (2017). "Specimen-level phylogenetics in paleontology using the Fossilized Birth-Death model with sampled ancestors". PeerJ. 5: e3055. doi:10.7717/peerj.3055. PMC 5335686. PMID 28265519.
  64. ^ Tom Challands; Jan den Blaauwen (2017). "A redescription of the Middle Devonian dipnoan Pentlandia macroptera Traquair, 1889, and an assessment of the Phaneropleuridae". Zoological Journal of the Linnean Society. 180 (2): 414–460. doi:10.1111/zoj.12491.
  65. ^ Malcolm A. MacIver; Lars Schmitz; Ugurcan Mugan; Todd D. Murphey; Curtis D. Mobley (2017). "Massive increase in visual range preceded the origin of terrestrial vertebrates". Proceedings of the National Academy of Sciences of the United States of America. 114 (12): E2375–E2384. Bibcode:2017PNAS..114E2375M. doi:10.1073/pnas.1615563114. PMC 5373340. PMID 28270619.
  66. ^ Julia L. Molnar; Rui Diogo; John R. Hutchinson; Stephanie E. Pierce (2017). "Reconstructing pectoral appendicular muscle anatomy in fossil fish and tetrapods over the fins-to-limbs transition". Biological Reviews. 93 (2): 1077–1107. doi:10.1111/brv.12386. PMID 29125205. S2CID 4704712.
  67. ^ Arnaud Brignon (2017). "The earliest discoveries of articulated fossil fishes (Actinopterygii) in the United States: A historical perspective". American Journal of Science. 317 (2): 216–250. Bibcode:2017AmJS..317..216B. doi:10.2475/02.2017.03. S2CID 89973187.
  68. ^ Vadim N. Glinskiy; Sergey P. Nilov (2017). "A new psammosteid (Agnatha, Heterostraci) from the Amata Regional Stage of the Main Devonian Field and morpho-histological types of discrete micromeric elements in the family Psammosteidae". Estonian Journal of Earth Sciences. 66 (2): 59–76. doi:10.3176/earth.2017.05.
  69. ^ Robert W. Gess; Kate M. Trinajstic (2017). "New morphological information on, and species of placoderm fish Africanaspis (Arthrodira, Placodermi) from the Late Devonian of South Africa". PLOS ONE. 12 (4): e0173169. Bibcode:2017PLoSO..1273169G. doi:10.1371/journal.pone.0173169. PMC 5381866. PMID 28379973.
  70. ^ Hans-Peter Schultze; Stephen L. Cumbaa (2017). "A new Early Devonian (Emsian) arthrodire from the Northwest Territories, Canada, and its significance for paleogeographic reconstruction". Canadian Journal of Earth Sciences. 54 (5): 461–476. Bibcode:2017CaJES..54..461S. doi:10.1139/cjes-2017-0013. hdl:1807/76893.
  71. ^ Li-wu Lu; Kai Tan; Xi Wang (2017). "A New Antiarchi (Placoderm Fishes) from Devonian Strata of Dushan, Guizhou Province". Acta Geoscientica Sinica. 38 (2): 144–148. doi:10.3975/cagsb.2017.02.06.
  72. ^ a b Valéria Vaškaninová; Per E. Ahlberg (2017). "Unique diversity of acanthothoracid placoderms (basal jawed vertebrates) in the Early Devonian of the Prague Basin, Czech Republic: A new look at Radotina and Holopetalichthys". PLOS ONE. 12 (4): e0174794. Bibcode:2017PLoSO..1274794V. doi:10.1371/journal.pone.0174794. PMC 5381876. PMID 28380002.
  73. ^ a b c d Andrea Engelbrecht; Thomas Mörs; Marcelo A. Reguero; Jürgen Kriwet (2017). "New carcharhiniform sharks (Chondrichthyes, Elasmobranchii) from the early to middle Eocene of Seymour Island, Antarctic Peninsula". Journal of Vertebrate Paleontology. 37 (6): e1371724. Bibcode:2017JVPal..37E1724E. doi:10.1080/02724634.2017.1371724. PMC 5856364. PMID 29551850.
  74. ^ Alexander O. Ivanov; Christopher J. Duffin; Serge V. Naugolnykh (2017). "A new euselachian shark from the early Permian of the Middle Urals, Russia". Acta Palaeontologica Polonica. 62 (2): 289–298. doi:10.4202/app.00347.2017.
  75. ^ Léa Leuzinger; Gilles Cuny; Evgeny Popov; Jean-Paul Billon-Bruyat (2017). "A new chondrichthyan fauna from the Late Jurassic of the Swiss Jura (Kimmeridgian) dominated by hybodonts, chimaeroids and guitarfishes". Papers in Palaeontology. 3 (4): 471–511. Bibcode:2017PPal....3..471L. doi:10.1002/spp2.1085. hdl:11336/41081.
  76. ^ a b c Rodrigo T. Figueroa; Valéria Gallo (2017). "New chondrichthyan fin spines from the Pedra de Fogo Formation, Brazil". Journal of South American Earth Sciences. 76: 389–396. Bibcode:2017JSAES..76..389F. doi:10.1016/j.jsames.2017.03.015.
  77. ^ Christopher J. Duffin; David J. Ward (2017). "A new janassid petalodont chondrichthyan from the Early Carboniferous of Derbyshire, UK". Proceedings of the Geologists' Association. 128 (5–6): 809–814. Bibcode:2017PrGA..128..809D. doi:10.1016/j.pgeola.2017.06.008.
  78. ^ Sergio Bogan; Federico L. Agnolin; Rodrigo A. Otero; Federico Brissón Egli; Mario E. Suárez; Sergio Soto-Acuña; Fernando E. Novas (2017). "A new species of the genus Echinorhinus (Chondrichthyes, Echinorhiniformes) from the Upper Cretaceous of southern South America (Argentina-Chile)". Cretaceous Research. 78: 89–94. Bibcode:2017CrRes..78...89B. doi:10.1016/j.cretres.2017.05.020. hdl:11336/49452.
  79. ^ Jean-Marie Canevet; Patrice Lebrun (2017). "Des dents de requins fossiles. 4. Les chimères du Miocène de l'ouest de la France". Fossiles. Revue française de paléontologie. 30: 37–54.
  80. ^ Andrea Engelbrecht; Thomas Mörs; Marcelo A. Reguero; Jürgen Kriwet (2017). "Eocene squalomorph sharks (Chondrichthyes, Elasmobranchii) from Antarctica". Journal of South American Earth Sciences. 78: 175–189. Bibcode:2017JSAES..78..175E. doi:10.1016/j.jsames.2017.07.006. PMC 5673068. PMID 29118464.
  81. ^ Alexander O. Ivanov (2017). "Chondrithyans from the Lower Permian of Mechetlino, South Urals". Bulletin of Geosciences. 91 (4): 717–729. doi:10.3140/bull.geosci.1645.
  82. ^ Christopher J. Duffin; Jesper Milàn (2017). "A new myriacanthid holocephalian from the Early Jurassic of Denmark" (PDF). Bulletin of the Geological Society of Denmark. 65: 161–170. doi:10.37570/bgsd-2017-65-10.
  83. ^ a b c Jules Chabain; Pierre-Olivier Antoine; Ali J. Altamirano-Sierra; Laurent Marivaux; François Pujos; Rodolfo Salas Gismondi; Sylvain Adnet (2017). "Cenozoic batoids from Contamana (Peruvian Amazonia) with focus on freshwater potamotrygonins and their paleoenvironmental significance". Geobios. 50 (5–6): 389–400. Bibcode:2017Geobi..50..389C. doi:10.1016/j.geobios.2017.10.003. hdl:11336/155889.
  84. ^ Jürgen Pollerspöck; Nicolas Straube (2017). A new deep-sea elasmobranch fauna from the Central Paratethys (Neuhofener Beds, Mitterdorf, near Passau, Germany, Early Miocene, Middle Burdigalian). Vol. 90. pp. 27–53. doi:10.5282/ubm/epub.40476. ISBN 978-3-946705-02-4. {{cite book}}: |journal= ignored (help)
  85. ^ Gerard R. Case; Todd D. Cook; Eric M. Sadorf; Kevin R. Shannon (2017). "A late Maastrichtian selachian assemblage from the Peedee Formation of North Carolina, USA". Vertebrate Anatomy Morphology Palaeontology. 3: 63–80. doi:10.18435/B5T88N.
  86. ^ Charlie J. Underwood; Matthew A. Kolmann; David J. Ward (2017). "Paleogene origin of planktivory in the Batoidea" (PDF). Journal of Vertebrate Paleontology. 37 (3): e1293068. Bibcode:2017JVPal..37E3068U. doi:10.1080/02724634.2017.1293068. S2CID 55830559.
  87. ^ Giuseppe Marramà; Kerin M. Claeson; Giorgio Carnevale; Jürgen Kriwet (2017). "Revision of Eocene electric rays (Torpediniformes, Batomorphii) from the Bolca Konservat-Lagerstätte, Italy, reveals the first fossil embryo in situ in marine batoids and provides new insights into the origin of trophic novelties in coral reef fishes". Journal of Systematic Palaeontology. 16 (14): 1189–1219. doi:10.1080/14772019.2017.1371257. PMC 6130837. PMID 30210265.
  88. ^ Victor E. Pauliv; Agustín G. Martinelli; Heitor Francischini; Paula Dentzien-Dias; Marina B. Soares; Cesar L. Schultz; Ana M. Ribeiro (2017). "The first Western Gondwanan species of Triodus Jordan 1849: A new Xenacanthiformes (Chondrichthyes) from the late Paleozoic of Southern Brazil". Journal of South American Earth Sciences. 80: 482–493. Bibcode:2017JSAES..80..482P. doi:10.1016/j.jsames.2017.09.007.
  89. ^ a b c d e f g h i j k l m n Werner Schwarzhans; Daphne E. Lee; Henry J. L. Gard (2017). "Otoliths reveal diverse fish communities in Late Oligocene estuarine to deep-water paleoenvironments in southern Zealandia". New Zealand Journal of Geology and Geophysics. 60 (4): 433–464. Bibcode:2017NZJGG..60..433S. doi:10.1080/00288306.2017.1365734. S2CID 135318918.
  90. ^ a b c d e f g h Werner Schwarzhans; Harald Ahnelt; Giorgio Carnevale; Sanja Japundžić; Katarina Bradić; Andriy Bratishko (2017). "Otoliths in situ from Sarmatian (Middle Miocene) fishes of the Paratethys. Part III: tales from the cradle of the Ponto-Caspian gobies". Swiss Journal of Palaeontology. 136 (1): 45–92. Bibcode:2017SwJP..136...45S. doi:10.1007/s13358-016-0120-7. S2CID 89368295.
  91. ^ a b c d e f g h Werner Schwarzhans (2017). "A review of otoliths collected by W. Weiler from the Badenian of Romania and by B. Strashimirov from Badenian equivalents of Bulgaria". Cainozoic Research. 17 (2): 167–191.
  92. ^ Katherine E. Bemis; James C. Tyler; William E. Bemis; Kishor Kumar; Rajendra Singh Rana; Thierry Smith (2017). "A gymnodont fish jaw with remarkable molariform teeth from the early Eocene of Gujarat, India (Teleostei, Tetraodontiformes)". Journal of Vertebrate Paleontology. 37 (6): e1369422. Bibcode:2017JVPal..37E9422B. doi:10.1080/02724634.2017.1369422. S2CID 135007619.
  93. ^ Donald Davesne (2017). "A fossil unicorn crestfish (Teleostei, Lampridiformes, Lophotidae) from the Eocene of Iran". PeerJ. 5: e3381. doi:10.7717/peerj.3381. PMC 5493034. PMID 28674642.
  94. ^ Carlo Romano; James F. Jenks; Romain Jattiot; Torsten M. Scheyer; Kevin G. Bylund; Hugo Bucher (2017). "Marine Early Triassic Actinopterygii from Elko County (Nevada, USA): implications for the Smithian equatorial vertebrate eclipse". Journal of Paleontology. 91 (5): 1025–1046. Bibcode:2017JPal...91.1025R. doi:10.1017/jpa.2017.36. S2CID 134496299.
  95. ^ Soledad Gouiric-Cavalli; Ana M. Zavattieri; Pedro R. Gutierrez; Bárbara Cariglino; Lucía Balarino (2017). "Increasing the fish diversity of the Triassic faunas of Gondwana: a new redfieldiiform (Actinopterygii) from the Middle Triassic of Argentina and its palaeobiogeographical implications". Papers in Palaeontology. 3 (4): 559–581. Bibcode:2017PPal....3..559G. doi:10.1002/spp2.1089. hdl:11336/57303. S2CID 134580710.
  96. ^ Oksana Vernygora; Alison M. Murray; Javier Luque; Mary Luz Parra Ruge; María Euridice Paramo Fonseca (2017). "A new Cretaceous dercetid fish (Neoteleostei: Aulopiformes) from the Turonian of Colombia". Journal of Systematic Palaeontology. 16 (12): 1057–1071. doi:10.1080/14772019.2017.1391884. S2CID 133883433.
  97. ^ a b c d Joseph A. Frederickson; Richard L. Cifelli (2017). "New Cretaceous lungfishes (Dipnoi, Ceratodontidae) from western North America". Journal of Paleontology. 91 (1): 146–161. Bibcode:2017JPal...91..146F. doi:10.1017/jpa.2016.131. S2CID 131962612.
  98. ^ a b c Orangel Aguilera; Guilherme Oliveira Andrade Silva; Ricardo Tadeu Lopes; Alessandra Silveira Machado; Thaís Maria dos Santos; Gabriela Marques; Thayse Bertucci; Thayanne Aguiar; Jorge Carrillo-Briceño; Felix Rodriguez; Carlos Jaramillo (2017). "Neogene Proto-Caribbean porcupinefishes (Diodontidae)". PLOS ONE. 12 (7): e0181670. Bibcode:2017PLoSO..1281670A. doi:10.1371/journal.pone.0181670. PMC 5528887. PMID 28746370.
  99. ^ a b c d e f g h i j k Werner Schwarzhans; Fumio Ohe; Yusuke Ando (2017). An Early Oligocene fish-fauna from Japan reconstructed from otoliths. Vol. 90. pp. 3–26. doi:10.5282/ubm/epub.40475. ISBN 978-3-946705-02-4. {{cite book}}: |journal= ignored (help)
  100. ^ a b c d Chien-Hsiang Lin; Rotislav Brzobohatý; Dirk Nolf; Angela Girone (2017). "Tortonian teleost otoliths from northern Italy: taxonomic synthesis and stratigraphic significance". European Journal of Taxonomy (322): 1–44. doi:10.5852/ejt.2017.322.
  101. ^ a b Mónica Núñez-Flores; Ascanio D. Rincón; Andrés Solórzano; Leonardo Sánchez; Carlos Cáceres (2017). "Fish-otoliths from the early Miocene of the Castillo Formation, Venezuela: a view into the proto-Caribbean teleostean assemblages". Historical Biology: An International Journal of Paleobiology. 29 (8): 1019–1030. Bibcode:2017HBio...29.1019N. doi:10.1080/08912963.2017.1282474. S2CID 89625719.
  102. ^ Tomáš Přikryl; Giorgio Carnevale (2017). "Miocene bristlemouths (Teleostei: Stomiiformes: Gonostomatidae) from the Makrilia Formation, Ierapetra, Crete". Comptes Rendus Palevol. 16 (3): 266–277. Bibcode:2017CRPal..16..266P. doi:10.1016/j.crpv.2016.11.004.
  103. ^ Maria C. Malabarba; Fabio Di Dario (2017). "A new predatory herring-like fish (Teleostei: Clupeiformes) from the Early Cretaceous of Brazil, and implications for relationships in the Clupeoidei". Zoological Journal of the Linnean Society. 180 (1): 175–194. doi:10.1111/zoj.12492 (inactive 1 November 2024).{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  104. ^ a b c Romain Vullo; Lionel Cavin; Bouziane Khalloufi; Mbarek Amaghzaz; Nathalie Bardet; Nour-Eddine Jalil; Essaid Jourani; Fatima Khaldoune; Emmanuel Gheerbrant (2017). "A unique Cretaceous–Paleogene lineage of piranha-jawed pycnodont fishes". Scientific Reports. 7 (1): Article number 6802. Bibcode:2017NatSR...7.6802V. doi:10.1038/s41598-017-06792-x. PMC 5533729. PMID 28754956.
  105. ^ Waymon L. Holloway; Kerin M. Claeson; Hesham M. Sallam; Sanaa El-Sayed; Mahmoud Kora; Joseph J.W. Sertich; Patrick M. O'Connor (2017). "A new species of the neopterygian fish Enchodus from the Duwi Formation, Campanian, Late Cretaceous, Western Desert, central Egypt". Acta Palaeontologica Polonica. 62 (3): 603–611. doi:10.4202/app.00331.2016.
  106. ^ M. V. Nazarkin (2017). "A new horned sculpin (Pisces: Cottidae) from the Miocene of Sakhalin Island, Russia". Paleontological Journal. 51 (1): 77–86. Bibcode:2017PalJ...51...77N. doi:10.1134/S0031030117010099. S2CID 90842550.
  107. ^ Feixiang Wu; Desui Miao; Mee-mann Chang; Gongle Shi; Ning Wang (2017). "Fossil climbing perch and associated plant megafossils indicate a warm and wet central Tibet during the late Oligocene". Scientific Reports. 7 (1): Article number 878. Bibcode:2017NatSR...7..878W. doi:10.1038/s41598-017-00928-9. PMC 5429824. PMID 28408764.
  108. ^ Oleksandr M. Kovalchuk; Mark V.H. Wilson; Terry Grande (2017). "A review of Neogene and Quaternary pikes of southeastern Europe and a new species from the early Pleistocene of Nogaisk, Ukraine". Acta Palaeontologica Polonica. 62 (1): 121–135. doi:10.4202/app.00311.2016.
  109. ^ Lionel Cavin; Bastien Mennecart; Christian Obrist; Loïc Costeur; Heinz Furrer (2017). "Heterochronic evolution explains novel body shape in a Triassic coelacanth from Switzerland". Scientific Reports. 7 (1): Article number 13695. Bibcode:2017NatSR...713695C. doi:10.1038/s41598-017-13796-0. PMC 5651877. PMID 29057913.
  110. ^ Bettina Reichenbacher; Růžena Gregorová; Katarína Holcová; Radek Šanda; Jasna Vukić; Tomáš Přikryl (2017). "Discovery of the oldest Gobius (Teleostei, Gobiiformes) from a marine ecosystem of Early Miocene age". Journal of Systematic Palaeontology. 16 (6): 493–513. doi:10.1080/14772019.2017.1313323. S2CID 90418353.
  111. ^ Oleksandr Kovalchuk; Ewa Świdnicka; Krzysztof Stefaniak (2019). "A new record of Gobius jarosi (Teleostei, Gobiidae) from the Early Miocene of Poland with inference to paleogeography and palaeoecology of the Carpathian Basin". Historical Biology: An International Journal of Paleobiology. 31 (10): 1394–1401. doi:10.1080/08912963.2018.1457032. S2CID 90671719.
  112. ^ Ionuţ Grădianu; Tomáš Přikryl; Růžena Gregorová; Antony S. Harold (2017). "†Gonostoma dracula sp. nov. (Teleostei, Gonostomatidae) from the Oligocene deposits of the Central Paratethys (Romania): earliest occurrence of the modern bristlemouths". Bulletin of Geosciences. 92 (3): 323–336. doi:10.3140/bull.geosci.1683.
  113. ^ Sebastian Stumpf; Jörg Ansorge; Cathrin Pfaff; Jürgen Kriwet (2017). "Early Jurassic diversification of pycnodontiform fishes (Actinopterygii, Neopterygii) after the end-Triassic extinction event: evidence from a new genus and species, Grimmenodon aureum". Journal of Vertebrate Paleontology. 37 (4): e1344679. Bibcode:2017JVPal..37E4679S. doi:10.1080/02724634.2017.1344679. PMC 5646184. PMID 29170576.
  114. ^ Jure Žalohar; Tomaž Hitij (2017). "The first known fossil record of pipehorses (Teleostei: Syngnathidae: Haliichthyinae) from the Miocene Coprolitic Horizon from the Tunjice Hills, Slovenia". Annales de Paléontologie. 103 (2): 113–125. Bibcode:2017AnPal.103..113Z. doi:10.1016/j.annpal.2017.04.001.
  115. ^ Hugo Martín-Abad; Francisco José Poyato-Ariza (2017). "A new genus and species for the amiiform fishes previously assigned to Amiopsis from the Early Cretaceous of Las Hoyas, Cuenca, Spain" (PDF). Zoological Journal of the Linnean Society. 181 (3): 604–637. doi:10.1093/zoolinnean/zlx010.
  116. ^ Min Zhu; Per E. Ahlberg; Wen-Jin Zhao; Lian-Tao Jia (2017). "A Devonian tetrapod-like fish reveals substantial parallelism in stem tetrapod evolution". Nature Ecology & Evolution. 1 (10): 1470–1476. Bibcode:2017NatEE...1.1470Z. doi:10.1038/s41559-017-0293-5. PMID 29185516. S2CID 3300236.
  117. ^ A.V. Minikh; S.O. Andrushkevich (2017). "A New Species Actinopterygian from the Upper Permian of Moscow Syneclise". Izvestiya of Saratov University. New Series. Series: Earth Sciences. 17 (2): 100–104. doi:10.18500/1819-7663-2017-17-2-100-104.
  118. ^ V. V. Bulanov; A. V. Minikh; V. K. Golubev (2022). "Minicholepis primus gen. et sp. nov., a New Eurynotoidiform Fish (Actinopterygii) from the Permian of European Russia". Paleontological Journal. 56 (11): 1363–1371. Bibcode:2022PalJ...56.1363B. doi:10.1134/S0031030122110041. S2CID 256618572.
  119. ^ Louis Taverne; Luigi Capasso (2017). "Italophiopsis derasmoi gen. and sp. nov. (Ionoscopiformes, Italophiopsidae fam. nov.) from the Cretaceous of Pietraroja (Italy)". Thalassia Salentina (Data Set). 39: 9–24. doi:10.1285/i15910725v39p9.
  120. ^ Eugenia M. Baykina; Werner Schwarzhans (2017). "Description of Karaganops n. gen. perratus (Daniltshenko 1970) with otoliths in situ, an endemic Karaganian (Middle Miocene) herring (Clupeidae) in the Eastern Paratethys". Swiss Journal of Palaeontology. 136 (1): 129–140. Bibcode:2017SwJP..136..129B. doi:10.1007/s13358-016-0115-4. S2CID 88383037.
  121. ^ Kleyton M. Cantalice; Jesús Alvarado-Ortega (2017). "Kelemejtubus castroi, gen. et sp. nov., an ancient percomorph (Teleostei, Actinopterygii) from the Paleocene marine deposits near Palenque, Chiapas, southeastern Mexico". Journal of Vertebrate Paleontology. 37 (6): e1383265. Bibcode:2017JVPal..37E3265C. doi:10.1080/02724634.2017.1383265. S2CID 90104690.
  122. ^ Kathryn E. Mickle (2017). "The lower actinopterygian fauna from the Lower Carboniferous Albert shale formation of New Brunswick, Canada – a review of previously described taxa and a description of a new genus and species". Fossil Record. 20 (1): 47–67. Bibcode:2017FossR..20...47M. doi:10.5194/fr-20-47-2017.
  123. ^ a b Joseph T. Flannery Sutherland; Peter A. Austen; Christopher J. Duffin; Michael J. Benton (2017). "Leptolepid otoliths from the Hauterivian (Lower Cretaceous) Lower Weald Clay (southern England)" (PDF). Proceedings of the Geologists' Association. 128 (4): 613–625. Bibcode:2017PrGA..128..613F. doi:10.1016/j.pgeola.2017.05.001. hdl:1983/cdb6c340-050c-4470-a2f4-da42b80298c1.
  124. ^ a b Gloria Arratia (2017). "New Triassic teleosts (Actinopterygii, Teleosteomorpha) from northern Italy and their phylogenetic relationships among the most basal teleosts". Journal of Vertebrate Paleontology. 37 (2): e1312690. Bibcode:2017JVPal..37E2690A. doi:10.1080/02724634.2017.1312690. S2CID 89773927.
  125. ^ Tomáš Přikryl; Giorgio Carnevale (2017). "An Oligocene toadfish (Teleostei, Percomorpha) from Moravia, Czech Republic: The earliest skeletal record for the order Batrachoidiformes". Bulletin of Geosciences. 92 (1): 123–131. doi:10.3140/bull.geosci.1662. hdl:2318/1661149.
  126. ^ Louis Taverne; Etienne Steurbaut (2017). "Osteology and relationships of Luxembourgichthys ("Pholidophorus") friedeni gen. nov. (Teleostei, "Pholidophoriformes") from the Lower Jurassic of Belgium and the Grand Duchy of Luxembourg". Geologica Belgica. 20 (1–2): 53–67. doi:10.20341/gb.2017.003.
  127. ^ E. M. Baykina; W. W. Schwarzhans (2017). "Review of "Clupea humilis" from the Sarmatian of Moldova and description of Moldavichthys switshenskae gen. et sp. nov". Swiss Journal of Palaeontology. 136 (1): 141–149. Bibcode:2017SwJP..136..141B. doi:10.1007/s13358-016-0121-6. S2CID 88834057.
  128. ^ Andriy Bratishko; Werner Schwarzhans; Yuliia Vernyhorova (2023). "The endemic marine fish fauna from the Eastern Paratethys re-constructed from otoliths from the Miocene (middle Sarmatian s.l.; Bessarabian) of Jurkine (Kerch Peninsula, Crimea)". Rivista Italiana di Paleontologia e Stratigrafia. 129 (1): 111–184. doi:10.54103/2039-4942/18877. S2CID 257149317.
  129. ^ Geng-Jiao Chen; Li-Di Cen; Juan Liu (2017). "Cyprinus-like pharyngeal bones and teeth (Teleostei, Cypriniformes, Cyprinidae) from the Early–Middle Oligocene deposits of South China". Vertebrata PalAsiatica. 55 (3): 201–209. doi:10.19615/j.cnki.1000-3118.2017.03.001.
  130. ^ Andriy Bratishko; Oleksandr Kovalchuk; Werner Schwarzhans (2017). "Bessarabian (Tortonian, Late Miocene) fish otoliths from a transitional freshwater-brackish environment of Mykhailivka, Southern Ukraine". Palaeontologia Electronica. 20 (3): Article number 20.3.44A. doi:10.26879/769.
  131. ^ Paulo M. Brito; Jésus Alvarado-Ortega; François J. Meunier (2017). "Earliest known lepisosteoid extends the range of anatomically modern gars to the Late Jurassic". Scientific Reports. 7 (1): Article number 17830. Bibcode:2017NatSR...717830B. doi:10.1038/s41598-017-17984-w. PMC 5736718. PMID 29259200.
  132. ^ Arjan Mann; David Rudkin; David C. Evans; Marc Laflamme (2017). "A large onychodontiform (Osteichthyes: Sarcopterygii) apex predator from the Eifelian-aged Dundee Formation of Ontario, Canada". Canadian Journal of Earth Sciences. 54 (3): 233–241. Bibcode:2017CaJES..54..233M. doi:10.1139/cjes-2016-0119. hdl:1807/75619.
  133. ^ Jesús Alvarado-Ortega; María del Pilar Melgarejo-Damián (2017). "Paraclupea seilacheri sp. nov., a double armored herring (Clupeomorpha, Ellimmichthyiformes) from the Albian limestones of Tlayúa quarry, Puebla, Mexico" (PDF). Revista Mexicana de Ciencias Geológicas. 34 (3): 234–249. doi:10.22201/cgeo.20072902e.2017.3.528. Archived from the original (PDF) on 2017-12-07. Retrieved 2017-12-06.
  134. ^ Christoph Gierl; Bettina Reichenbacher (2017). "Revision of so-called Pomatoschistus (Gobiiformes, Teleostei) from the late Eocene and early Oligocene". Palaeontologia Electronica. 20 (2): Article number 20.2.33A. doi:10.26879/721.
  135. ^ Werner Schwarzhans; Giorgio Carnevale; Sanja Japundžić; Katarina Bradić-Milinović (2017). "Otoliths in situ from Sarmatian (Middle Miocene) fishes of the Paratethys. Part V: Bothidae and Soleidae". Swiss Journal of Palaeontology. 136 (1): 109–127. Bibcode:2017SwJP..136..109S. doi:10.1007/s13358-017-0128-7. S2CID 88033602.
  136. ^ Alexandre F. Bannikov; Giorgio Carnevale; Yaroslav A. Popov (2017). "An extraordinary pipefish (Teleostei, Syngnathidae) with fully developed anal fin from the Oligocene of the North Caucasus (SW Russia)". Bollettino della Società Paleontologica Italiana. 56 (1): 79–88. doi:10.4435/BSPI.2017.08 (inactive 2024-11-20).{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  137. ^ Jing Lu; Sam Giles; Matt Friedman; Min Zhu (2017). "A new stem sarcopterygian illuminates patterns of character evolution in early bony fishes". Nature Communications. 8 (1): Article number 1932. Bibcode:2017NatCo...8.1932L. doi:10.1038/s41467-017-01801-z. PMC 5715141. PMID 29203766.
  138. ^ Sanaa E. El-Sayed; Mahmoud A. Kora; Hesham M. Sallam; Kerin M. Claeson; Erik R. Seiffert; Mohammed S. Antar (2017). "A new genus and species of marine catfishes (Siluriformes; Ariidae) from the upper Eocene Birket Qarun Formation, Wadi El-Hitan, Egypt". PLOS ONE. 12 (3): e0172409. Bibcode:2017PLoSO..1272409E. doi:10.1371/journal.pone.0172409. PMC 5332075. PMID 28248973.
  139. ^ a b Emilia Sferco; Rafael Herbst; Gastón Aguilera; J. Marcos Mirande (2017). "The rise of internal fertilization in the Anablepidae (Teleostei, Cyprinodontiformes): two new genera and species from the Miocene of Tucumán, Argentina". Papers in Palaeontology. 4 (2): 177–195. doi:10.1002/spp2.1102. hdl:11336/45888. S2CID 135436934.
  140. ^ a b Erin E. Maxwell; Sebastian Stumpf (2017). "Revision of Saurorhynchus (Actinopterygii: Saurichthyidae) from the Early Jurassic of England and Germany". European Journal of Taxonomy (321): 1–29. doi:10.5852/ejt.2017.321.
  141. ^ John J. Cawley; Jürgen Kriwet (2017). "A new pycnodont fish, Scalacurvichthys naishi gen. et sp. nov., from the Late Cretaceous of Israel". Journal of Systematic Palaeontology. 16 (8): 659–673. doi:10.1080/14772019.2017.1330772. PMC 5849399. PMID 29551954.
  142. ^ Jiang-Yong Zhang; Mark V. H. Wilson (2017). "First complete fossil Scleropages (Osteoglossomorpha)". Vertebrata PalAsiatica. 55 (1): 1–23. doi:10.19615/j.cnki.1000-3118.2017.01.001.
  143. ^ Brian Choo; Min Zhu; Qingming Qu; Xiaobo Yu; Liantao Jia; Wenjin Zhao (2017). "A new osteichthyan from the late Silurian of Yunnan, China". PLOS ONE. 12 (3): e0170929. Bibcode:2017PLoSO..1270929C. doi:10.1371/journal.pone.0170929. PMC 5342173. PMID 28273081.
  144. ^ Xin-Ying Ma; Guang-Hui Xu (2017). "A new ionoscopiform fish (Holostei: Halecomorphi) from the Middle Triassic (Anisian) of Yunnan, China". Vertebrata PalAsiatica. 55 (2): 162–176. doi:10.19615/j.cnki.1000-3118.2017.02.006.
  145. ^ Giuseppe Marramà; Cristina Lombardo; Andrea Tintori; Giorgio Carnevale (2017). "Redescription of "Perleidus" (Osteichthyes, Actinopterygii) from the Early Triassic of northwestern Madagascar". Rivista Italiana di Paleontologia e Stratigrafia. 123 (2): 219–242. doi:10.13130/2039-4942/8328.
  146. ^ Melanie Altner; Ulrich K. Schliewen; Stefanie B. R. Penk; Bettina Reichenbacher (2017). "†Tugenchromis pickfordi, gen. et sp. nov., from the upper Miocene—a stem-group cichlid of the 'East African Radiation'". Journal of Vertebrate Paleontology. 37 (2): e1297819. Bibcode:2017JVPal..37E7819A. doi:10.1080/02724634.2017.1297819. S2CID 90864709.
  147. ^ Nicholas R. Longrich (2017). "A Stem Lepidosireniform Lungfish (Sarcopterygia: Dipnoi) from the Upper Eocene of Libya, North Africa and implications for Cenozoic lungfish evolution". Gondwana Research. 42: 140–150. Bibcode:2017GondR..42..140L. doi:10.1016/j.gr.2016.09.007.
  148. ^ Kai Tan (2017). "A New Genus of Palaeonisciformes from Carboniferous Strata in Ningxia". Acta Geoscientica Sinica. 38 (2): 149–153. doi:10.3975/cagsb.2017.02.07.
  149. ^ Alexandre F. Bannikov; David R. Bellwood (2017). "Zorzinilabrus furcatus, a new genus and species of labrid fish (Perciformes) from the Eocene of Bolca in northern Italy" (PDF). Studi e Ricerche Sui Giacimenti Terziari di Bolca, XVIII - Miscellanea Paleontologica. 15: 5–14.