2017 in paleontology
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Paleontology or palaeontology is the study of prehistoric life forms on Earth through the examination of plant and animal fossils.[1] This includes the study of body fossils, tracks (ichnites), burrows, cast-off parts, fossilised feces (coprolites), palynomorphs and chemical residues. Because humans have encountered fossils for millennia, paleontology has a long history both before and after becoming formalized as a science. This article records significant discoveries and events related to paleontology that occurred or were published in the year 2017.
Flora[edit]
Cnidarians[edit]
Research[edit]
- Ou et al. (2017) consider early Cambrian species Galeaplumosus abilus and Chengjiangopenna wangii to be junior synonyms of Xianguangia sinica, interpret fossils attributed to members of these species as parts of the same organism and consider X. sinica to be likely stem-cnidarian.[2]
- Pseudooides prima is interpreted as a cnidarian and a senior synonym of Hexaconularia sichuanensis by Duan et al. (2017).[3]
- Fossilized cnidarian medusae are described from the Cambrian Zabriskie Quartzite (California, United States) by Sappenfield, Tarhan & Droser (2017), representing the oldest macrofossil evidence of cnidarian medusae from the Phanerozoic reported so far.[4]
- A study on the morphology of phosphatic tubes of Sphenothallus from the Early Ordovician Fenxiang Formation (China), as well as the Silurian and Early Devonian of Podolia (Ukraine), and its implications for the evolution of symmetry in the body plan of cnidarians is published by Dzik, Baliński & Sun (2017).[5]
- A study on the succession of coral assemblages through the Ordovician–Silurian transition in South China is published by Wang et al. (2017).[6]
- A study on the extant and fossil stony corals, intending to determine whether fossil corals lived in symbiosis with photosynthesizing dinoflagellates, is published by Tornabene et al. (2017).[7]
New taxa[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Sp. nov | Valid | Coen-Aubert | A rugose coral belonging to the family Ptenophyllidae. | |||||
Sp. nov | Valid | Coen-Aubert | A rugose coral belonging to the family Ptenophyllidae. | |||||
Sp. nov | Valid | Zhen, Wang & Percival | Late Ordovician | |||||
Sp. nov | Valid | Niko & Fujikawa | Akiyoshi Limestone Group | |||||
Sp. nov | Valid | Fedorowski | A rugose coral belonging to the family Bothrophyllidae. | |||||
Sp. nov | Valid | Fedorowski | A rugose coral belonging to the family Bothrophyllidae. | |||||
Sp. nov | Valid | Peel | A possible member of Octocorallia. | |||||
Sp. nov | Valid | Coen-Aubert | A rugose coral belonging to the family Disphyllidae. | |||||
Sp. nov | Valid | Coen-Aubert | A rugose coral belonging to the family Disphyllidae. | |||||
Gen. et sp. nov | Valid | Liao & Ma | Devonian (Givetian) | |||||
Sp. nov | Valid | Fedorowski | A rugose coral belonging to the family Aulophyllidae. | |||||
Sp. nov | Valid | Fedorowski | A rugose coral belonging to the family Aulophyllidae. | |||||
Sp. nov | Valid | Fedorowski | A rugose coral belonging to the family Aulophyllidae. | |||||
Sp. nov | Valid | Fedorowski | A rugose coral belonging to the family Aulophyllidae. | |||||
Sp. nov | Valid | Bamber & Rodríguez in Bamber et al. | A rugose coral. | |||||
Gen. et sp. nov | Valid | Melnikova & Roniewicz | Early Jurassic (Hettangian/Sinemurian–Pliensbachian) | A stony coral belonging to the family Latomeandridae. The type species is Fungiaphyllia communis. | ||||
Nom. nov | Valid | Lathuilière, Charbonnier & Pacaud | A coral; a replacement name for Palaeocyathus Alloiteau (1956). | |||||
Sp. nov | Valid | Melnikova & Roniewicz | Early Jurassic (Hettangian/Sinemurian) | A stony coral belonging to the family Tropiastraeidae, a species of Guembelastraea. | ||||
Sp. nov | Valid | Rodríguez & Somerville in Rodríguez, Somerville & Said | Azrou-Khenifra Basin | A rugose coral belonging to the family Lithostrotionidae. | ||||
Sp. nov | Valid | Coen-Aubert | A rugose coral belonging to the family Phillipsastreidae. | |||||
Nina[11] | Gen. et 3 sp. et comb. nov | Junior homonym | Fedorowski | A rugose coral belonging to the family Bothrophyllidae. The type species is N. donetsiana; genus also includes new species N. dibimitaria and N. magna, as well as "Bothrophyllum" berestovensis Vassilyuk (1960). The generic name is preoccupied by Nina Horsfield (1829). | ||||
Sp. nov | Valid | Melnikova & Roniewicz | Early Jurassic (Hettangian/Sinemurian) | A stony coral belonging to the family Oppelismiliidae, a species of Oppelismilia. | ||||
Sp. nov | Valid | Melnikova & Roniewicz | Early Jurassic (Hettangian–early Sinemurian) | A stony coral belonging to the family Parepismiliidae, a species of Parepismilia. | ||||
Sp. nov | Valid | Melnikova & Roniewicz | Early Jurassic (Hettangian/Sinemurian) | A stony coral belonging to the family Parepismiliidae, a species of Parepismilia. | ||||
Gen. et comb. et sp. nov | Valid | Cairns | A flabellid coral. Genus includes P. deltoideus (Duncan, 1864), P. corniculatus (Dennant, 1899), P. elongatus (Duncan, 1864), P. pueblensis (Dennant, 1903), P. inflectus (Dennant, 1903) and P. magnus (Dennant, 1904), as well as new species P. cudmorei. | |||||
Sp. nov | Valid | Niko, Suzuki & Taguchi | Bihoku Group | A stony coral. | ||||
Sp. nov | Valid | Niko | Early Permian | Funafuseyama Limestone | A tabulate coral belonging to the order Favositida and the family Micheliniidae. | |||
Gen. et sp. nov | Valid | Liu et al. | A probable crown jellyfish belonging to the family Olivooidae. The type species is Q. necopinus. | |||||
Sp. nov | Valid | Fedorowski | A rugose coral belonging to the family Aulophyllidae. | |||||
Sp. nov | Valid | Niko, Ibaraki & Tazawa | Middle Devonian | A tabulate coral belonging to the order Favositida and the family Alveolitidae. | ||||
Gen. et sp. nov | Valid | Wang et al. | Early Cambrian | A member of Medusozoa belonging to the family Olivooidae. The type species is S. petalon. | ||||
Sp. nov | Valid | Baron-Szabo | Early Cretaceous (late Aptian to Albian) | A stony coral belonging to the family Micrabaciidae. | ||||
Gen. et sp. nov | Valid | Baliński & Sun | Ordovician (early Floian) | A black coral related to Sinopathes reptans. The type species is S. radicatus. | ||||
Gen. et sp. nov | Valid | Fedorowski | A rugose coral belonging to the family Aulophyllidae. The type species is V. cavum. | |||||
Sp. nov | Valid | Bamber & Rodríguez in Bamber et al. | Carboniferous (Mississippian) | A rugose coral. | ||||
Zaphrentites lerandi[15] | Sp. nov | Valid | Bamber & Rodríguez in Bamber et al. | Carboniferous (Mississippian) | A rugose coral. |
Arthropods[edit]
Bryozoans[edit]
Research[edit]
- Epizoic bryozoans are reported on fossil crabs from the Miocene Mishan Formation (Iran) by Key et al. (2017).[27]
New taxa[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Sp. nov | Valid | Ernst & Vachard | Carboniferous (middle Pennsylvanian) | |||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Adeonidae. | ||||
Sp. nov | Valid | Martha, Niebuhr & Scholz | Late Cretaceous (mid-late Turonian) | Strehlen Formation | ||||
Sp. nov | Valid | Ernst et al. | A bryozoan. | |||||
Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Chasmatoporidae. | |||||
Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Semicosciniidae. | |||||
Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Semicosciniidae. | |||||
Gen. et sp. nov | Valid | Di Martino et al. | A cheilostome bryozoan. Genus includes new species B. pseudofedora. | |||||
Sp. nov | Valid | Di Martino et al. | Nukumaru Limestone | A member of Ctenostomatida belonging to the superfamily Vesicularioidea and the family Buskiidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Cheiloporinidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Colatooeciidae. | ||||
Sp. nov | Valid | Ernst et al. | Devonian (Frasnian) | |||||
Sp. nov | Valid | Viskova & Pakhnevich | A bryozoan belonging to the class Stenolaemata and the order Tubuliporida. | |||||
Sp. nov | Valid | Sonar & Pawar | A member of the family Catenicellidae. | |||||
Sp. nov | Valid | Tolokonnikova, Kalvoda & Kumpan | ||||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Romancheinidae. | ||||
Sp. nov | Valid | Ernst et al. | Devonian (Frasnian) | A rhabdomesine cryptostome bryozoan. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Exechonellidae. | ||||
Sp. nov | Valid | Zágoršek, Yazdi & Bahrami | Miocene | Qom Formation | ||||
Sp. nov | Valid | Ernst & Vachard | Carboniferous (middle Pennsylvanian) | |||||
Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Semicosciniidae. | |||||
Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Acanthocladiidae. | |||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Onychocellidae. | ||||
Sp. nov | Valid | Taylor & Martha | Late Cretaceous (Cenomanian) | Beer Head Limestone Formation | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Cheiloporinidae. | ||||
Sp. nov | Valid | Di Martino et al. | ||||||
Gen. et sp. nov | Valid | Martha, Niebuhr & Scholz | Late Cretaceous (mid-late Turonian) | Strehlen Formation | A cheilostome bryozoan genus belonging to the family Calloporidae. Type species H. pavonina; genus also includes Membranipora procurrens Brydone, 1929. | |||
Gen. et sp. nov | Valid | Martha & Taylor | A cheilostome bryozoan. The type species is J. kidwellae. | |||||
Kalvariella antiqua[32] | Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Acanthocladiidae. | ||||
Sp. nov | Valid | Di Martino et al. | ||||||
Sp. nov | Valid | Di Martino et al. | ||||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Margarettidae. | ||||
Sp. nov | Valid | Ramalho, Távora & Zagorsek | Early Miocene | Pirabas Formation | A member of Lepralielloidea belonging to the family Metrarabdotosidae. | |||
Sp. nov | Valid | Ramalho, Távora & Zagorsek | Early Miocene | Pirabas Formation | A member of Lepralielloidea belonging to the family Metrarabdotosidae. | |||
Sp. nov | Valid | Ramalho, Távora & Zagorsek | Early Miocene | Pirabas Formation | A member of Lepralielloidea belonging to the family Metrarabdotosidae. | |||
Sp. nov | Valid | Viskova & Pakhnevich | A bryozoan belonging to the suborder Tubuliporina and the family Oncousoeciidae. | |||||
Sp. nov | Valid | Di Martino et al. | Nukumaru Limestone | A member of the family Microporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Quadricellariidae. | ||||
Sp. nov | Valid | Zágoršek, Yazdi & Bahrami | Miocene | Qom Formation | ||||
Sp. nov | Valid | Martha, Niebuhr & Scholz | Late Cretaceous (late Cenomanian) | Dölzschen Formation | A cheilostome bryozoan. Taylor, Martha & Gordon (2018) transferred this species to the genus Kamilocella.[43] | |||
Sp. nov | Valid | Martha, Niebuhr & Scholz | Late Cretaceous (late Cenomanian) | Dölzschen Formation | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Candidae. | ||||
Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Septoporidae. | |||||
Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Septoporidae. | |||||
Gen. et sp. nov | Valid | Wyse Jackson, Ernst & Suárez Andrés | A member of Cryptostomata belonging to the family Rhabdomesidae. The type species is P. regularis. | |||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Phidoloporidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Phidoloporidae. | ||||
Sp. nov | Valid | Zágoršek, Yazdi & Bahrami | Miocene | Qom Formation | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Cribrilinidae. | ||||
Sp. nov | Valid | Fedorov, Koromyslova & Martha | An esthonioporate bryozoan belonging to the family Revalotrypidae. | |||||
Sp. nov | Valid | Fedorov, Koromyslova & Martha | An esthonioporate bryozoan belonging to the family Revalotrypidae. | |||||
Gen. et sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A Schizoporella-like cheilostome bryozoan of uncertain phylogenetic placement. The type species is S. nancyae. | ||||
Sp. nov | Valid | López-Gappa, Pérez & Griffin | Early Miocene | A bryozoan belonging to the family Selenariidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Cribrilinidae. | ||||
Sp. nov | Valid | Gordon, Voje & Taylor | Early Pleistocene | A member of Cheilostomata belonging to the family Steginoporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Schizoporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Schizoporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Thalamoporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Thalamoporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Thalamoporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Thalamoporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Thalamoporellidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Trypostegidae. | ||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Celleporidae. | ||||
Sp. nov | Valid | Suárez Andrés & Wyse Jackson | A member of Fenestrata belonging to the family Semicosciniidae. | |||||
Sp. nov | Valid | Di Martino, Taylor & Portell | Early Miocene | A cheilostome bryozoan belonging to the family Vicidae. | ||||
Sp. nov | Valid | Taylor & Martha | Late Cretaceous (Cenomanian) | Beer Head Limestone Formation | ||||
Sp. nov | Valid | Martha, Niebuhr & Scholz | Late Cretaceous (mid-late Turonian) | Strehlen Formation |
Brachiopods[edit]
Research[edit]
- A study on the selectivity of brachiopod extinctions during the Ordovician–Silurian extinction events is published by Finnegan, Rasmussen & Harper (2017).[48]
- A study on the patterns of biomineralization of Late Permian brachiopod shells and on their implications for inferring the environmental disruptions associated with the Permian–Triassic extinction event is published by Garbelli, Angiolini & Shen (2017).[49]
New taxa[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Sp. nov | Valid | Skovsted et al. | A member of Acrotretida belonging to the family Acrotretidae. | |||||
Sp. nov | Valid | Pálfy et al. | ||||||
Sp. nov | Valid | Liljeroth et al. | Dunabrattin Limestone Formation | A member of Strophomenata belonging to the order Billingsellida and the family Clitambonitidae. | ||||
Gen. et sp. nov | Valid | Baeza-Carratalá, Reolid & García Joral | Early Jurassic (late Pliensbachian–early Toarcian) | Zegrí Formation | A member of Rhynchonellida belonging to the family Norellidae. The type species is A. falsiorigo. | |||
Gen. et sp. nov | Valid | Baranov | The type species is A. mica. | |||||
Sp. nov | Valid | Madison | A member of Strophomenida. | |||||
Gen. nov | Valid | Popov & Zakharov | A member of Terebratulida. | |||||
Sp. nov | Valid | Bitner & Müller | A member of Terebratulida belonging to the family Megathyrididae. | |||||
Sp. nov | Valid | Gaspard | A member of Rhynchonellida belonging to the family Tetrarhynchiidae. | |||||
Sp. nov | Valid | Liljeroth et al. | Tramore Limestone Formation | A member of Strophomenida belonging to the family Rafinesquinidae. | ||||
Sp. nov | Valid | Lü & Ma | Devonian (late Frasnian) | A member of Spiriferinida. | ||||
Sp. nov | Valid | Tazawa, Inose & Kaneko | Late Devonian | A member of Spiriferida belonging to the family Cyrtospiriferidae. | ||||
Sp. nov | Valid | Tazawa | Late Devonian | A member of Spiriferida belonging to the family Cyrtospiriferidae. | ||||
Sp. nov | Valid | Liljeroth et al. | Dunabrattin Limestone Formation | A member of Strophomenida belonging to the family Strophomenidae. | ||||
Sp. nov | Valid | Popov & Cocks | A strophomenoid brachiopod. | |||||
Sp. nov | Valid | Smirnova et al. | ||||||
Sp. nov | Valid | Smirnova in Smirnova et al. | A brachiopod belonging to the family Discinidae, a species of Discinisca. | |||||
Gen. et sp. nov | Valid | Copper & Jin | An athyride brachiopod. The type species is E. pallula. | |||||
Sp. nov | Valid | Popov & Cocks | A porambonitoid brachiopod. | |||||
Sp. nov | Valid[67] | Holmer et al. | A member of Obolidae. | |||||
Sp. nov | Valid | Lü & Ma | Devonian (late Frasnian) | A member of Pentamerida. | ||||
Sp. nov | Valid | Liljeroth et al. | Dunabrattin Limestone Formation | A member of Orthida belonging to the family Hesperorthidae. | ||||
Gen. et comb. nov | Valid | Shen in Shen et al. | Miaoling Formation | A member of Productida belonging to the family Rugosochonetidae. The type species is "Hemichonetes" hemipleura Li & Su in Li et al. (1980); genus also includes "Hemichonetes guangxingensis Li & Su in Li et al. (1980), "Hemichonetes subquadrata Li & Su in Li et al. (1980) and "Hemichonetes yanjiensis Li & Su in Li et al. (1980). | ||||
Gen. et comb. nov | Valid | Liljeroth et al. | Dunabrattin Limestone Formation | A member of Pentamerida belonging to the family Porambonitidae. The type species is "Atrypa" filosa M'Coy (1846); genus might also include "Porambonites" dubius Williams & Curry (1985). | ||||
Sp. nov | Valid | Liljeroth et al. | Dunabrattin Limestone Formation | A member of Orthida belonging to the family Dalmanellidae. | ||||
Sp. nov | Valid | Liljeroth et al. | Dunabrattin Limestone Formation | A member of Strophomenida belonging to the family Plectambonitidae. | ||||
Sp. nov | Valid | Bitner & Müller | A member of Terebratulida belonging to the family Megathyrididae. | |||||
Sp. nov | Valid | Halamski & Cherif | Argiles de Saïda Formation | A member of Terebratulida belonging to the family Muirwoodellidae. | ||||
Gen. et comb. nov | Valid | Jin & Holmer | A new genus for "Pentamerus" gothlandicus Lebedev (1892). | |||||
Sp. nov | Valid | Baeza-Carratalá, Reolid & García Joral | Early Jurassic (late Pliensbachian–early Toarcian) | Zegrí Formation | A member of Athyridida belonging to the family Koninckinidae. | |||
Nom. nov | Valid | Shen in Shen et al. | Permian (late Cisuralian) | Chihsia Formation | A member of Spiriferida belonging to the family Skelidorygmidae; a replacement name for Litothyris Chang (1987). The type species is "Litothyris" anhuiensis Chang (1987). | |||
Sp. nov | Valid | Skovsted et al. | A member of Linguloidea belonging to the family Kyrshabaktellidae. | |||||
Sp. nov | Valid[67] | Holmer et al. | Ordovician (early Darriwilian) | A paterinid brachiopod. | ||||
Sp. nov | Valid | Gaspard | A member of Rhynchonellida belonging to the family Cyclothyrididae. | |||||
Sp. nov | Valid | Mottequin & Simon | A member of Strophomenoidea belonging to the family Rafinesquinidae. | |||||
Sp. nov | Valid | Lü & Ma | Devonian (late Frasnian) | A member of Rhynchonellida. | ||||
Nom. nov | Valid | Shen in Shen et al. | A member of Productida belonging to the family Productellidae. A replacement name for Tarimella Chen (2004). The type species is "Tarimella" tarimensis Chen (2004). | |||||
Gen. et sp. nov | Valid | Wang et al. | Genus includes new species L. lichuanensis. | |||||
Sp. nov | Valid | Modzalevskaya et al. | Devonian (Lochkovian) | |||||
Sp. nov | Valid | Mao et al. | Cambrian | A brachiopod belonging to the subphylum Rhynchonelliformea, order Kutorginida and the family Nisusiidae. | ||||
Nom. nov | Valid | Mottequin & Simon | A member of Athyridida belonging to the family Nucleospiridae; a replacement name for Athyris globulina de Koninck (1887). | |||||
Sp. nov | Valid | Harper, Parkes & Zhan | Raheen Formation | A dalmanelloid brachiopod belonging to the family Dalmanellidae. | ||||
Gen. et sp. nov | Valid | Modzalevskaya et al. | Devonian (Lochkovian) | A brachiopod. Genus includes new species O. dronovi. | ||||
Gen. et comb. nov | Valid | Shen & Grunt in Shen et al. | Permian (late Cisuralian and Guadalupian) | Chihsia Formation | A member of Athyridida belonging to the family Athyrididae. The type species is "Cryptospirifer" omeishanensis Huang (1933); genus also includes "Cryptospirifer" minor Yang (1984) and "Cryptospirifer" shawanensis Jin et al. (1974). | |||
Sp. nov | Valid | Popov & Zakharov | A member of Rhynchonellida. | |||||
Sp. nov | Valid | Liljeroth et al. | Tramore Limestone Formation | A member of Orthida belonging to the family Platystrophiidae. | ||||
Gen. et sp. nov | Valid | Skovsted et al. | A member of Linguloidea belonging to the family Eoobolidae. The type species is P. triangulus. | |||||
Gen. et sp. nov | Valid | Lü & Ma | Devonian (late Frasnian) | A member of Terebratulida. The type species is Q. tani. | ||||
Sp. nov | Valid | Cisterna et al. | Carboniferous (late Serpukhovian–Bashkirian) | A brachiopod belonging to the group Orthida and the family Rhipidomellidae. | ||||
Sp. nov | Valid | Radwańska | A member of Thecideida belonging to the family Thecidellinidae. | |||||
Sp. nov | Valid | Harper, Parkes & Zhan | Raheen Formation | A plectambonitoid brachiopod belonging to the family Sowerbyellidae. | ||||
Sp. nov | Valid | Mottequin & Simon | A member of Orthotetida belonging to the family Schuchertellidae. | |||||
Gen. et sp. nov | Valid | Kebria-Ee Zadeh, Popov & Ghobadi Pour | A member of Orthida belonging to the family Hesperorthidae. Genus includes new species S. fascicostellata. | |||||
Sp. nov | Valid | Mukherjee & Shome | ||||||
Gen. et sp. nov | Valid | Baranov | The type species is S. settedabanica. | |||||
Sp. nov | Valid | García-Alcalde & Herrera | A member of Rhynchonellida belonging to the superfamily Ancistrorhynchoidea and the family Iberirhynchiidae. | |||||
Sp. nov | Valid | Lü & Ma | Devonian (late Frasnian) | A member of Spiriferida. | ||||
Sp. nov | Valid | Lü & Ma | Devonian (late Frasnian) | A member of Spiriferida. | ||||
Sp. nov | Valid | Feldman | A member of Terebratulida belonging to the family Dielasmatidae. | |||||
Sp. nov | Valid | Mergl et al. | ||||||
Xiangia[59] | Gen. et sp. nov | Junior homonym | Lü & Ma | Devonian (late Frasnian) | A member of Spiriferida. The type species is X. liaoi. The generic name is preoccupied by Xiangia Peng (1987). | |||
Gen. et sp. nov | Valid | Popov & Cocks | An orthoid brachiopod. Genus includes new species Z. gerdkuhensis. | |||||
Nom. nov | Valid | Shen in Shen et al. | Early Carboniferous | Zhaojiashan Formation | A member of Spiriferida belonging to the family Choristitidae; a replacement name for Quizhouspirifer Xian (1982). The type species is "Quizhouspirifer" ziyunensis Xian (1982). |
Molluscs[edit]
Echinoderms[edit]
Research[edit]
- Systematic revision of the North American members of the diploporitan family Holocystitidae is published by Sheffield & Sumrall (2017).[84]
- Triassic members of the otherwise Paleozoic groups of sea urchins (the family Proterocidaridae), brittle stars (the family Eospondylidae) and starfish are reported by Thuy, Hagdorn & Gale (2017).[85][86][87][88][89][90][91]
- Phylogenetic analysis and systematic revision of early to middle Paleozoic non-camerate crinoids published by Wright (2017).[92]
- Systematic revision of Ordovician camerate crinoids published by Cole (2017).[93]
- Major revision to the classification of fossil and extant Crinoidea by Wright et al. (2017), including the presentation of new phylogeny-based and rank-based classifications.[94]
- A study on large-scale patterns of morphologic evolution in the Paleozoic radiation of eucladid crinoids is published by Wright (2017).[95]
- A study on the internal morphology of the water vascular system in a specimen of a stem-ophiuroid species Protasterina flexuosa from the Ordovician (Katian) Kope Formation (Kentucky, United States) is published by Clark et al. (2017).[96]
- A study on the paleoecology of the echinoderm species known from the upper Campanian Pierre Shale (including the crinoid Lakotacrinus brezinai), especially on their adaptations to the cold seep environment, is published by Kato, Oji & Shirai (2017).[97][98][99]
New taxa[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Sp. nov | Valid | Ali | Middle Miocene | A sea urchin. | ||||
Gen. et sp. nov | Valid | Cole et al. | Ordovician (Katian) | A diplobathrid camerate crinoid. Genus includes new species A. decorus. | ||||
Sp. nov | Valid | Hess & Thuy | Early Jurassic | |||||
Gen. et sp. nov | Valid | Blake | Gilmore City Formation | A starfish belonging to the family Urasterellidae. Genus includes new species A. mikrotero. | ||||
Sp. nov | Valid | Ali | Middle Eocene | A sea urchin. | ||||
Sp. nov | Valid | Ewin & Thuy | Jurassic | A brittle star. | ||||
Ateleocystites? lansae[106] | Sp. nov | Valid | McDermott & Paul | Ordovician (Katian) | Slade and Redhill Beds | A mitrate belonging to the family Anomalocystitidae, possibly a species of Ateleocystites. | ||
Sp. nov. | Valid | Polonkai et al. | Middle Miocene | Leitha Limestone Formation | A heart urchin belonging to the family Brissidae. | |||
Sp. nov | Valid | Blake, Donovan & Harper | A brittle star belonging to the group Oegophiurida and the family Encrinasteridae. | |||||
Gen. et sp. nov | Valid | Cole et al. | Ordovician (Katian) | A diplobathrid camerate crinoid. Genus includes new species D. hammanni. | ||||
Sp. nov | Valid | Silva-Martínez et al. | Late Cretaceous (early Campanian) | A heart urchin belonging to the family Brissidae. | ||||
Sp. nov | Valid | Ali | Middle Eocene | A sea urchin. | ||||
Sp. nov | Valid | Ewin & Thuy | Jurassic | A brittle star. | ||||
Sp. nov | Valid | Cole et al. | Ordovician (Katian) | |||||
Sp. nov | Valid | Thompson in Thompson, Petsios & Bottjer | A sea urchin. The name first appeared in the publication of Thompson et al. (2015);[111] however, it was published in an online only journal Scientific Reports and it was not registered with ZooBank, making it invalid until it was validated by Thompson, Petsios & Bottjer (2017).[110] | |||||
Gen. et sp. nov | Valid | Nardin et al. | A transitional form between calyx-bearing and theca-bearing blastozoans. Genus includes new species F. luckae. | |||||
Gen. et sp. nov | Valid | Cole et al. | Ordovician (Katian) | A diplobathrid camerate crinoid. Genus includes new species F. nodulus. | ||||
Gen. et sp. nov | Valid | Hess & Thuy | Early Jurassic | An isocrinid crinoid. Genus includes new species F. normannicus. | ||||
Sp. nov | Valid | Carrasco | A sea urchin related to members of the genus Conulus. | |||||
Sp. nov | Valid | Forner i Valls | A sea urchin belonging to the group Arbacioida and the family Acropeltidae. | |||||
Gen. et comb. nov | Valid | Müller & Hahn | Early Devonian | A member of Edrioasteroidea belonging to the family Agelacrinitidae; a new genus for "Agelacrinites" curvatus Grigo (1995). | ||||
Gen. et sp. nov | Valid | Cole et al. | Ordovician (Katian) | A diplobathrid camerate crinoid. Genus includes new species G. gutierrezi. | ||||
Gen. et sp. nov | Valid | Briggs et al. | A rhenopyrgid edrioasteroid. The type species is H. disterminus. | |||||
Sp. nov | Valid | Sheffield, Ausich & Sumrall | A member of Diploporita belonging to the group Sphaeronitida and the family Holocystitidae. | |||||
Sp. nov | Valid | Ali | Middle Eocene | A sea urchin. | ||||
Sp. nov | Valid | Sadler, Martin & Gallagher | Miocene | Colville Sandstone | A sea urchin. | |||
Sp. nov | Valid | Sadler, Martin & Gallagher | Miocene | Colville Sandstone | A sea urchin. | |||
Sp. nov | Valid | Sadler, Martin & Gallagher | Miocene | Colville Sandstone | A sea urchin. | |||
Gen. et sp. nov | Valid | Reich et al. | A cyclocystoid echinoderm. Genus includes new species M. smithi. | |||||
Sp. nov | Valid | Donovan & Fearnhead | Early Devonian | Looe Basin | A crinoid belonging to the group Monobathrida and the family Hexacrinitidae. | |||
Sp. nov | Valid | Ewin & Thuy | Jurassic | A brittle star. | ||||
Sp. nov | Valid | Zachos | A sea urchin. | |||||
Gen. et sp. nov | Valid | Wright & Toom | A crinoid. Genus includes new species P. arvosus. | |||||
Sp. nov | Valid | Hess & Thuy | Early Jurassic | |||||
Gen. et sp. nov | Valid | Rozhnov & Parsley | A member of Cornuta. Genus includes new species P. jefferiesi. | |||||
Sp. nov | Valid | Forner i Valls | A sea urchin belonging to the group Cassiduloida and the family Faujasidae. | |||||
Sp. nov | Valid | Mao et al. | Silurian (Aeronian) | A crinoid belonging to the family Petalocrinidae. | ||||
Gen. et sp. nov | Valid | Cole et al. | Ordovician (Katian) | |||||
Gen. et sp. nov | Valid | Cordie & Witzke | A camerate crinoid belonging to the family Melocrinitidae. Genus includes new species R. rabia. | |||||
Sp. nov | Valid | Zachos | Clayton Formation | A sea urchin. | ||||
Gen. et sp. nov | Valid | Zamora et al. | Cambrian (Furongian) | A stemmed echinoderm. The type species is S. sinensis. | ||||
Sp. nov | Valid | Hess & Thuy | Early Jurassic | |||||
Sp. nov | Valid | Hess & Thuy | Early Jurassic | |||||
Gen. et sp. nov | Valid | Hess & Thuy | Early Jurassic | A comatulid crinoid. Genus includes new species S. chesnieri. | ||||
Sp. nov | Valid | Mao et al. | Silurian (Aeronian) | A crinoid belonging to the family Petalocrinidae. | ||||
Sp. nov | Valid | Mao et al. | Silurian (Aeronian) | A crinoid belonging to the family Petalocrinidae. | ||||
Gen. et sp. nov | Valid | Blake | Keokuk Formation | A starfish belonging to the family Urasterellidae. Genus includes new species S. elegans. | ||||
Gen. et sp. nov | Valid | Müller & Hahn | Early Devonian | Seifen Formation | A member of Edrioasteroidea. Genus includes new species S. rseiberti. | |||
Gen. et sp. nov | Valid | Villier et al. | A starfish. Genus includes new species S. promissor. | |||||
Gen. et sp. nov | Valid | Hunter & McNamara | A brittle star. Genus includes new species T. creasyi. | |||||
Gen. et sp. nov | Valid | Wright & Toom | A crinoid. Genus includes new species T. estoniensis. | |||||
Gen. et sp. nov | Valid | Néraudeau et al. | Late Cretaceous (Cenomanian) | A sea urchin belonging to the family Archiaciidae. Genus includes new species U. sarthacensis. | ||||
Sp. nov | Valid | Schlüter & Wiese | Late Cretaceous (early Campanian) | A sea urchin belonging to the family Echinolampadidae. |
Conodonts[edit]
Research[edit]
- A study on the conodont assemblage from the Silurian (Homerian) Rootsiküla Formation (Estonia), interpreted as occurring in the evaporite-bearing strata, and on the conodont diversity in various environments, is published by Jarochowska et al. (2017).[132]
- Articulated skeletal remains of Hindeodus parvus, providing direct evidence of the number and arrangement of elements in the apparatus, are described from the Lower Triassic of China by Zhang et al. (2017).[133][134][135]
New taxa[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Sp. nov | Valid | Voldman & Albanesi in Voldman et al. | Early Ordovician | |||||
Gen. et sp. nov | Valid | Miller et al. | A member of Balognathidae. Genus includes new species A. manniki. | |||||
Subsp. nov | Valid | Söte, Hartenfels & Becker | ||||||
Sp. nov | Valid | Dong & Zhang | A euconodont. | |||||
Sp. nov | Valid | Ovnatanova et al. | Late Devonian | Kedzyrschor Formation | ||||
Sp. nov | Valid | Feltes & Albanesi in Serra et al. | Ordovician (Darriwilian) | Gualcamayo Formation | ||||
Sp. nov | Valid | Dong & Zhang | A member of Paraconodontida. | |||||
Sp. nov | Valid | Voldman & Albanesi in Voldman et al. | Early Ordovician | |||||
Gen. et comb. nov | Valid | Plasencia et al. | Mukheiris Formation | A member of the family Gondolellidae. The type species is "Neospathodus" shagami Benjamini & Chepstow-Lusty (1986); genus also includes "Pseudofurnishius" siyalaensis Sadeddin & Kozur (1992). | ||||
Sp. nov | Valid | Sun et al. | Permian | |||||
Sp. nov | Valid | Lüddecke, Hartenfels & Becker | ||||||
Sp. nov | Valid | Suttner, Kido & Suttner | Middle Devonian | |||||
Sp. nov | Valid | Hogancamp & Barrick | Heebner Shale | |||||
Sp. nov | Valid | Cardoso, Sanz-López & Blanco-Ferrera | Carboniferous (Pennsylvanian) | Tapajós Group | ||||
Sp. nov | Valid | Hu & Qi in Hu et al. | ||||||
Gen. et sp. nov | Valid | Liu et al. | Ordovician (Whiterock Stage) | Winneshiek Konservat-Lagerstätte | Genus includes new species I. grandis. | |||
Gen. et comb. nov | Valid | Plasencia et al. | Austria | A member of the family Gondolellidae. The type species is "Polygnathus" mungoensis Diebel (1956); genus also includes "Tardogondolella" diebeli Kozur & Mostler (1971), "Epigondolella" mostleri Kozur in Kozur & Mock (1972) and "Metapolygnathus" longobardicus Kovács (1983). | ||||
Sp. nov | Valid | Dong & Zhang | A member of Paraconodontida. | |||||
Sp. nov | Valid | Dong & Zhang | Cambrian (Guzhangian and Paibian) | A member of Paraconodontida. | ||||
Gen. et sp. nov | Valid | Izokh in Izokh & Yazikov | Early Carboniferous | Genus includes new species L. bakharevi. | ||||
Gen. et sp. nov | Valid | Dong & Zhang | Cambrian Stage 10 and Early Ordovician (Tremadocian) | A member of Paraconodontida. Genus includes new species L. hunanensis. | ||||
Gen. et comb. nov | Valid | Plasencia et al. | Austria | A member of the family Gondolellidae. The type species is "Gladigondolella" truempyi Hirsch (1971); genus also includes "Polygnathus" japonicus Hayashi (1968). | ||||
Gen. et sp. nov | Valid | Zhang, Jowett & Barnes | Cape Phillips Formation | A conodont of uncertain phylogenetic placement. The type species is M. melchini. | ||||
Gen. et sp. nov | Valid | Dong & Zhang | A member of Paraconodontida. Genus includes new species M. multicostatus. | |||||
Gen. et sp. nov | Valid | Dong & Zhang | A euconodont. Genus includes new species M. intermedius. | |||||
Sp. nov | Valid | Chen & Lukeneder | ||||||
Subsp. nov | Valid | Izokh in Izokh & Yazikov | Early Carboniferous | |||||
Sp. nov | Valid | Plotitsyn & Zhuravlev | ||||||
Sp. nov | In press | Rigo et al. | A member of Ozarkodinida. | |||||
Gen. et sp. nov | Valid | Miller et al. | A member of Balognathidae. Genus includes new species O. daiqaensis. | |||||
Sp. nov | Valid | Soboleva | ||||||
Nom. nov | Valid | Klapper et al. | A replacement name for Palmatolepis nodosa Klapper et al. (2004). | |||||
Sp. nov | Valid | Soboleva | ||||||
Sp. nov | Valid | Plotitsyn & Zhuravlev | ||||||
Sp. nov | Junior homonym | Ovnatanova et al. | Sortomael' Formation | Ovnatanova et al. (2019) coined a replacement name Polygnathus sharyuensis.[157] | ||||
Sp. nov | Valid | Plotitsyn & Zhuravlev | ||||||
Sp. nov | Valid | Dong & Zhang | Cambrian (Guzhangian and Paibian) | A member of Paraconodontida. | ||||
Sp. nov | Valid | Sun et al. | Permian | |||||
Sp. nov | Valid | Zhang et al. | Triassic | |||||
Sp. nov | Valid | Zhang et al. | Triassic | |||||
Sp. nov | Valid | Zhuravlev | Idzhid Formation | |||||
Sp. nov | Valid | Kaiser, Kumpan & Cígler | Líšeň Formation | A member of Ozarkodinida belonging to the family Elictognathidae. | ||||
Sp. nov | Valid | Sun et al. | Permian | |||||
Gen. et sp. nov | Valid | Dong & Zhang | A euconodont. Genus includes new species T. gracilis. | |||||
Sp. nov | Valid | Wang et al. | ||||||
Gen. et sp. nov | Valid | Dong & Zhang | A euconodont. Genus includes new species W. conicus. | |||||
Gen. et sp. nov | Valid | Dong & Zhang | A member of Paraconodontida. Genus includes new species W. elegans. | |||||
Sp. nov | Valid | Dong & Zhang | A member of Paraconodontida. | |||||
Sp. nov | Valid | Dong & Zhang | A member of Paraconodontida. | |||||
Sp. nov | Valid | Dong & Zhang | A member of Paraconodontida. | |||||
Gen. et comb. nov | Valid | Voldman & Albanesi in Voldman et al. | Early Ordovician | A new genus for "Trapezognathus" primitivus Voldman, Albanesi & Zeballo in Voldman et al. (2013); genus also includes "Trapezognathus" argentinensis Rao et al. (1994) |
Fishes[edit]
Amphibians[edit]
Research[edit]
- 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).[163]
- A study on the evolution of forelimb musculature from the lobe-finned fish to early tetrapods is published online by Molnar et al. (2017).[164]
- A study on the influence of habitat traits on the persistence length of living and fossil amphibian species is published by Tietje & Rödel (2017).[165]
- A study on the development of the vertebral intercentrum and pleurocentrum in fossil amphibians is published by Danto et al. (2017).[166]
- A study on the probable function of the interpterygoid vacuities (holes in the palate) in temnospondyls as the site of muscle attachment is published by Witzmann & Werneburg (2017).[167]
- A study on the earliest larval development in temnospondyls, as indicated by specimens from the Permian (Sakmarian) lake sediments near Obermoschel (Saar–Nahe Basin, Germany), is published by Werneburg (2017).[168]
- A study on the histology of the small palatal plates and their denticles in a Permian dissorophoid temnospondyl from the Dolese Brothers Limestone Quarry near Richards Spur (Oklahoma, United States) is published by Gee, Haridy & Reisz (2017).[169]
- Taxonomic revision of all described rhinesuchids and a study on the phylogenetic relationships of members of Rhinesuchidae is published by Marsicano et al. (2017), who transfer the species "Rhinesuchus" capensis Haughton (1925) to the genus Rhinesuchoides.[170]
- New specimen of the rhinesuchid Australerpeton cosgriffi (a skull and mandible) is described from the Permian Rio do Rasto Formation (Brazil) by Azevedo, Vega & Soares (2017).[171]
- A description of the anatomy of the braincase and middle ear regions of an exceptionally well-preserved skull of Stanocephalosaurus amenasensis from the Triassic of Algeria is published by Arbez, Dahoumane & Steyer (2017).[172]
- A study on the anatomy of the skulls of metoposaurid species Metoposaurus krasiejowensis and Apachesaurus gregorii, as well as its implications for establishing whether metoposaurids were active or ambush predators is published by Fortuny, Marcé-Nogué & Konietzko-Meier (2017).[173]
- An analysis of the microanatomy and histology of metoposaurid vertebra from the Petrified Forest National Park is published by Gee, Parker & Marsh (2017), who interpret Apachesaurus gregorii as more likely to be an early ontogenetic stage of a large metoposaurid, such as Koskinonodon perfectus rather than a distinct species.[174]
- A juvenile specimen of Koskinonodon perfectus is described from the Norian Petrified Forest Member of the Late Triassic Chinle Formation (Arizona, United States) by Gee & Parker (2017).[175]
- A study on the physiology (especially metabolic rate, body temperature, breathing, feeding, digestion, osmoregulation and excretion) of Archegosaurus decheni is published by Witzmann & Brainerd (2017).[176]
- A study on the histology of the dermal skull roof bones in Kokartus honorarius is published by Skutschas & Boitsova (2017).[177]
- Fossilized soft tissues preserved with the type specimen of the salamander Phosphotriton sigei are described by Tissier, Rage & Laurin (2017).[178]
- A study on the bite force in extant Cranwell's horned frog (Ceratophrys cranwelli) and its implications for estimating the bite force in the Late Cretaceous species Beelzebufo ampinga is published by Lappin et al. (2017).[179]
- Frog fossils, including the first known fossils of shovelnose frogs, are described from the early Pliocene of Kanapoi (Kenya) by Delfino (2017).[180]
- A study on the morphology of the skull of Lethiscus stocki and on the phylogenetic relationships of early tetrapods, recovering lepospondyls as a polyphyletic group, is published by Pardo et al. (2017).[181]
New taxa[edit]
Temnospondyls[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Sp. nov | Valid | Fortuny et al. | ||||||
Gen. et sp. nov | Valid | Pardo, Small & Huttenlocker | A member of Stereospondyli, possibly a stem-caecilian. The type species is C. jenkinsi. | |||||
Sp. nov | Valid | Marzola et al. | ||||||
Gen. et sp. nov | Valid | Eltink, Stock Da-Rosa, & Dias-da-Silva | A capitosaur. |
Lissamphibians[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Gen. et sp. nov | Valid | Nicoli | Oligocene | A member of Odontophrynidae. The type species is C. lynchi. | ||||
Gen. et sp. nov | Valid | Gao & Chen | Early Cretaceous | Guanghua (upper part of Longjiang) Formation | A crown-group frog. The type species is G. baoshanensis. | |||
Gen. et sp. nov | Valid | Wang, Roček & Dong | Early Eocene | A pelobatoid frog of uncertain phylogenetic placement. Genus includes new species S. sinensis. |
Other amphibians[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Sp. nov | Valid | Smithson et al. | A member of the superfamily Baphetoidea. | |||||
Gen. et sp. nov | Valid | Jiang, Ji & Mo | Middle Permian | A bystrowianid chroniosuchian. The type species is Y. yangi. |
Reptiles[edit]
Synapsids[edit]
Non-mammalian synapsids[edit]
Research[edit]
- Phreatophasma aenigmaticum is argued to be a member of Caseidae by Brocklehurst & Fröbisch (2017).[191]
- New fossil material of the caseid Alierasaurus ronchii is described from the Permian deposits of Cala del Vino Formation (Sardinia, Italy) by Romano et al. (2017).[192]
- A study on the histology of the humeri of Ophiacodon, revealing the existence of fibrolamellar bone in the postcranial bones of this taxon, is published by Shelton & Sander (2017).[193]
- A study on the body size evolution of edaphosaurids and sphenacodontids is published by Brocklehurst & Brink (2017).[194]
- A study on the evolution of the endothermy in non-mammalian therapsids as indicated by oxygen isotope composition of bone and tooth phosphate in Permian and Triassic therapsids is published by Rey et al. (2017).[195]
- A study on the brain morphology of non-mammaliaform therapsids based on skull endocasts of Moschops capensis and a number of biarmosuchians (including Herpetoskylax hopsoni and members of the genera Hipposaurus and Lemurosaurus) is published by Benoit et al. (2017).[196]
- A study on the morphology of the bony labyrinth of five biarmosuchian specimens is published by Benoit et al. (2017).[197]
- A study on the anatomy of the skull of Moschops capensis, revealing adaptations of the central nervous system related to head-to-head fighting, is published by Benoit et al. (2017).[198]
- A study on the resting metabolic rate in Moghreberia nmachouensis is published by Olivier et al. (2017).[199]
- A study on the contents of the depression known as the "unossified zone" in the brain cavity of Diictodon feliceps is published by Laaß, Schillinger & Kaestner (2017).[200]
- A reassessment of the skull morphology and phylogenetic position of Compsodon helmoedi is published by Angielczyk & Kammerer (2017).[201]
- A skeleton of Lystrosaurus curvatus in a fossilized burrow, preserved with taphonomic evidence indicating that this individual was the burrow maker, is described from the Lower Triassic of the South African Karoo Basin by Botha-Brink (2017).[202]
- A structure analogous to the mammalian neocortex is reported in Kawingasaurus fossilis by Laaß & Kaestner (2017).[203]
- A gorgonopsian dentary affected by a condition closely resembling compound odontoma is reported from the Upper Permian of Tanzania by Whitney, Mose & Sidor (2017).[204]
- A detailed description of the braincase of two gorgonopsian specimens (a probable specimen of Aelurosaurus wilmanae from South Africa and a possible specimen of Arctognathus? nasuta from Tanzania) is published by Araújo et al. (2017).[205]
- A redescription and revision of the gorgonopsian genus Arctops is published by Kammerer (2017).[206]
- Rediscovered holotype of the gorgonopsian species Clelandina major is described by Kammerer (2017), who considers this species to be a junior synonym of Clelandina rubidgei.[207]
- A study on the anatomy of the teeth and maxilla of Euchambersia mirabilis and its implications for the hypothesis that venom gland were present in this species is published by Benoit et al. (2017).[208]
- A redescription and a study on the phylogenetic relationships of Silphoictidoides ruhuhuensis is published by Maisch (2017), who considers the species to be a basal member of Baurioidea.[209]
- A study on the internal morphology of the interorbital region of the skull of basal cynodonts, including rarely fossilized orbitosphenoid elements, is published by Benoit et al. (2017).[210]
- A study on the anatomy of the nasal regions of the non-mammalian cynodonts Massetognathus, Probainognathus and Elliotherium, comparing it to the nasal regions of fossil mammaliaforms and extant mammals, is published by Crompton et al. (2017).[211]
- A survey of the aggregations of the specimens of Galesaurus planiceps and Thrinaxodon liorhinus, with emphasis on whether the aggregations consist of individuals of similar age or representing a mixture of different age classes, is published by Jasinoski & Abdala (2017).[212]
- A study on the ontogenetic changes in the skull and mandible of Galesaurus planiceps is published by Jasinoski & Abdala (2017).[213]
- A description of the postcranial skeleton of Boreogomphodon from the Triassic Pekin Formation (North Carolina, United States) and a review of the postcranial variation across members of the family Traversodontidae is published by Liu, Schneider & Olsen (2017).[214]
- A study on the jaw movement of Exaeretodon argentinus as indicated by its dental microwear is published by Kubo, Yamada & Kubo (2017).[215]
- A study on the morphology of the teeth of the cynodont Candelariodon barberenai, as well as on the phylogenetic relationships of the species, is published by Martinelli et al. (2017).[216]
- A description of the anatomy of the postcranial skeleton of Tritylodon longaevus is published by Gaetano, Abdala & Govender (2017).[217]
- A reassessment of the anatomy of the postcanine teeth of Stereognathus, based upon all available material from the United Kingdom, is published by Panciroli et al. (2017), who consider the species S. hebridicus to be a junior synonym of the species S. ooliticus.[218]
- Cast of a burrow which was probably made by a tritheledontid cynodont is described from the Early Jurassic upper Elliot Formation (South Africa) by Bordy et al. (2017).[219]
- A study on the evolution of jaw muscles across the cynodont–mammaliaform transition is published by Lautenschlager et al. (2017).[220]
New taxa[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Gen. et sp. nov | Valid | Martinelli et al. | Late Triassic (late Carnian) | A cynodont belonging to the group Prozostrodontia. The type species is A. huebneri. | ||||
Sp. nov | Valid | Martinelli et al. | A cynodont belonging to the family Chiniquodontidae. | |||||
Gen. et sp. nov | Valid | Kammerer & Smith | Late Permian | A dicynodont belonging to the family Geikiidae. The type species is B. phylloxyron. | ||||
Gen. et sp. nov | Valid | Liu & Abdala | Late Permian | A therocephalian. The type species is D. fuae. | ||||
Gen. et sp. nov | Valid | Huttenlocker & Smith | A whaitsiid therocephalian. The type species is M. mendrezi. | |||||
Gen. et sp. nov | Valid | Velazco, Buczek & Novacek | Ulan Malgait Sequence | A tritylodontid cynodont. The type species is N. baruunensis. | ||||
Gen. et sp. nov | Valid | Huttenlocker & Smith | A whaitsioid therocephalian of uncertain phylogenetic placement. The type species is O. tatarinovi. | |||||
Gen. et sp. nov | Valid | Kurkin | Permian (Severodvinian) | An anomodont related to Suminia. Genus includes new species P. ivakhnenkoi. | ||||
Sp. nov | Valid | Melo, Martinelli & Soares | Santa Maria Supersequence | |||||
Gen. et sp. nov | Valid | Velazco, Buczek & Novacek | Ulan Malgait Sequence | A tritylodontid cynodont. The type species is S. altai. | ||||
Gen. et sp. nov | Valid | Liu & Abdala | Late Permian | An akidnognathid therocephalian. The type species is S. wangi. |
Mammals[edit]
Other animals[edit]
Research[edit]
- A study on a succession of Ediacaran to Cambrian fossil assemblages from the eastern Siberian Platform (Russia) is published by Zhu et al. (2017), who argue that so-called Ediacaran and earliest Cambrian skeletal biotas overlap without notable biotic turnover.[230]
- A study on the Ediacaran taxon Parvancorina minchami, indicating that this animal was capable of performing rheotaxis, is published by Paterson et al. (2017).[231]
- A study on the water flow around the body of the Ediacaran taxon Parvancorina and its implications for the feeding mode and mobility of this animal is published by Darroch et al. (2017).[232]
- Fossils of members of the genus Namacalathus (co-occurring with Cloudina and Corumbella) are reported from the Ediacaran Tagatiya Guazú Formation (Itapucumi Group, Paraguay) by Warren et al. (2017), extending known geographic range of the taxon.[233]
- A study on the morphology, growth and development of Dickinsonia costata is published by Evans, Droser & Gehling (2017).[234]
- A study on the growth and development of Dickinsonia is published by Hoekzema et al. (2017), who interpret this taxon as an animal.[235]
- A study on the anatomy of Dickinsonia costata and D. tenuis is published by Zakrevskaya & Ivantsov (2017), who interpret D. costata as probably descended from D. tenuis by neoteny.[236]
- Description of newly discovered disc-shaped, soft-bodied fossils from the early Cambrian Carrara Formation (California, United States), tentatively assigned to the genus Discophyllum (an animal of uncertain phylogenetic placement, might be a chondrophore or an eldoniid) is published by Lieberman et al. (2017).[237]
- Specimens of Cloudina associated with microbial mat textures are reported from the Ediacaran Tamengo Formation (Brazil) by Becker-Kerber et al. (2017).[238]
- An assemblage of trace fossils from Ediacaran–Cambrian siltstones in Brazil, probably produced by a nematoid-like organism, is described by Parry et al. (2017).[239]
- A diverse fauna dominated by sponges living immediately after the Hirnantian extinction is described from China by Botting et al. (2017).[240]
- A diverse Early Triassic (Olenekian) marine assemblage (Paris biota), including leptomitid protomonaxonid sponges (a group otherwise known only from Cambrian and Ordovician), new forms of the crinoid order Holocrinida displaying advanced characters, a probable basal ophiodermatid and gladius-bearing coleoids (previously unknown in Early Triassic strata) is reported from Paris (Idaho, United States) by Brayard et al. (2017).[241]
- A study on the muscle anatomy of Pambdelurion whittingtoni is published by Young & Vinther (2017).[242]
- Cambrian species Zhenghecaris shankouensis, originally classified as a bivalved arthropod, is reinterpreted as a member of Radiodonta by Zeng et al. (2017).[243]
- The holotype specimen of a putative lobopodian species Aysheaia prolata is reinterpreted as an isolated frontal appendage of a radiodontan belonging to the genus Stanleycaris by Pates, Daley & Ortega-Hernández (2017).[244]
- A revision of the radiodontan genus Caryosyntrips is published by Pates & Daley (2017), who interpret the holotype specimen of a putative lobopodian species Mureropodia apae as a partial isolated appendage of a member of the genus Caryosyntrips.[245]
- Description of the morphology of Amplectobelua symbrachiata, with a focus on its head region, is published by Cong et al. (2017).[246]
- A study on the anatomy of the Cambrian hyolith Haplophrentis, as well as on the phylogenetic relationships of the hyoliths, is published by Moysiuk, Smith & Caron (2017).[247]
- A study on the phylogenetic relationships of Tullimonstrum gregarium, challenging its interpretation as a vertebrate, is published by Sallan et al. (2017).[248]
- New exceptionally preserved fossils of Vetulicola longbaoshanensis are described from the Lower Cambrian Wulongqing Formation (China) by Li, Liu & Ou (2017).[249]
- Putative trematode metacercariae preserved at the base of the femora of an agamid lizard are described from the Cretaceous Burmese amber (Myanmar) by Poinar et al. (2017).[250]
New taxa[edit]
Name | Novelty | Status | Authors | Age | Unit | Location | Notes | Images |
---|---|---|---|---|---|---|---|---|
Sp. nov | Valid | Wu | Permian (Changhsingian) | A calcareous sponge belonging to the order Inozoa and the family Acoeliidae. | ||||
Gen. et sp. nov | Valid | Melchin, Lenz & Kozłowska | Silurian | A graptolite. Genus includes new species A. cancellatus. | ||||
Nom. et sp. nov | Valid | Geyer | Jbel Wawrmast Formation | A member of Hyolitha; a replacement name for Oxyprymna Kiderlen (1933). Genus includes A. schloppensis (Wurm, 1925) and a new species A. ougnatensis. | ||||
Sp. nov | Valid | Yun, Zhang & Li | Chengjiang Lagerstätte | |||||
Gen. et sp. nov | Valid | Hints et al. | A polychaete described on the basis of |