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2014 in archosaur paleontology

April 11, 2024

This article records new taxa of fossil archosaurs of every kind that are scheduled described during the year 2014, as well as other significant discoveries and events related to paleontology of archosaurs that are scheduled to occur in the year 2014.

List of years in archosaur paleontology
In science
2011
2012
2013
2014
2015
2016
2017
In paleontology
2011
2012
2013
2014
2015
2016
2017
In paleobotany
2011
2012
2013
2014
2015
2016
2017
In arthropod paleontology
2011
2012
2013
2014
2015
2016
2017
In paleoentomology
2011
2012
2013
2014
2015
2016
2017
In paleomalacology
2011
2012
2013
2014
2015
2016
2017
In paleoichthyology
2011
2012
2013
2014
2015
2016
2017
In reptile paleontology
2011
2012
2013
2014
2015
2016
2017
In mammal paleontology
2011
2012
2013
2014
2015
2016
2017

Pseudosuchians edit

Research edit

New taxa edit

Name Novelty Status Authors Age Unit Location Notes Images

Allodaposuchus palustris[6]

Sp. nov

Valid

Blanco et al.

Late Cretaceous (early Maastrichtian)

Tremp Formation

  Spain

A eusuchian crocodylomorph, a species of Allodaposuchus.

Anthracosuchus[7]

Gen. et sp. nov

Valid

Hastings, Bloch & Jaramillo

Paleocene

Cerrejón Formation

  Colombia

A dyrosaurid crocodyliform. The type species is Anthracosuchus balrogus.

Aplestosuchus[8]

Gen. et sp. nov

Valid

Godoy et al.

Late Cretaceous

Adamantina Formation

  Brazil

A baurusuchid crocodylomorph. The type species is Aplestosuchus sordidus.

 

Caipirasuchus stenognathus[9]

Sp. nov

Valid

Pol et al.

Late Cretaceous

Adamantina Formation

  Brazil

A sphagesaurid crocodylomorph, a species of Caipirasuchus.

 

Diplocynodon remensis[10]

Sp. nov

Valid

Martin et al.

Late Paleocene

  France

A member of Alligatoroidea, a species of Diplocynodon.

Machimosaurus buffetauti[11]

Sp. nov

Valid

Young et al.

Late Jurassic (Kimmeridgian)

  France
  Germany
  Poland?
  United Kingdom?

A teleosaurid crocodylomorph, a species of Machimosaurus. Considered to be a junior synonym of Machimosaurus hugii by Martin, Vincent & Falconnet (2015).[12]

  

Nundasuchus[13]

Gen. et sp. nov

Valid

Nesbitt et al.

Middle Triassic (Anisian)

Manda Beds

  Tanzania

A member of Archosauriformes of uncertain phylogenetic placement, possibly a pseudosuchian. The type species is Nundasuchus songeaensis.

Polesinesuchus[14]

Gen. et sp. nov

Disputed

Roberto-da-Silva et al.

Late Triassic

Santa Maria Formation

  Brazil

An aetosaur. The type species is Polesinesuchus aurelioi. Paes-Neto et al. (2021) proposed that P. aurelioi is a junior synonym of Aetosauroides scagliai.[15]

Rukwasuchus[16]

Gen. et sp. nov

Valid

Sertich & O’Connor

Cretaceous (Aptian to Cenomanian)

Galula Formation

  Tanzania

A peirosaurid crocodyliform. The type species is Rukwasuchus yajabalijekundu.

Sahitisuchus[17]

Gen. et sp. nov

Valid

Kellner, Pinheiro & Campos

Paleocene (Itaboraian)

Itaboraí Formation

  Brazil

A sebecid crocodylomorph. The type species is Sahitisuchus fluminensis.

 

Wannchampsus[18]

Gen. et sp. nov

Valid

Adams

Early Cretaceous (late Aptian)

Twin Mountains Formation

  United States

A paralligatorid neosuchian crocodylomorph. The type species is Wannchampsus kirpachi.

 

Non-avian dinosaurs edit

Research edit

  • A study on the patterns of body size evolution in dinosaurs is published by Benson et al. (2014).[19]
  • A study of size changes and rates of anatomical innovation in the theropod lineage ancestral to birds is published by Lee et al. (2014).[20]
  • A study of evolution of body size and forelimb length in birds and nov-avian coelurosaurian theropods is published by Puttick, Thomas and Benton (2014).[21]
  • A phylogenetic analysis of bird and non-avian coelurosaurian theropod relationships and a study of rates of morphological evolution and changes in morphological disparity across the dinosaur-bird transition is published by Brusatte et al. (2014).[22]
  • A description of abelisaurid teeth from the Late Jurassic Lourinhã Formation of Portugal and a phylogenetic analysis of theropod relationships based on dental characters is published by Hendrickx and Mateus (2014).[23]
  • A study of theropod diversity in the Cretaceous (Aptian-Albian) of Tunisia is published by Fanti et al. (2014).[24]
  • A juvenile specimen of Megaraptor namunhuaiquii is described by Porfiri et al. (2014).[25]
  • A study of European fossil record of Ornithomimosauria is published by Allain et al. (2014).[26]
  • A study on the morphological variability and function of manual claws in theropod dinosaurs, especially in therizinosaurs, is published by Lautenschlager (2014).[27]
  • A study of flight ability in some non-avian paravian theropods is published by Sorkin (2014).[28]
  • "Saurornitholestes" robustus, initially thought to be a dromaeosaurid, is reinterpreted as a troodontid by Evans et al. (2014).[29]
  • A well-preserved specimen of Microraptor zhaoianus is described by Pei et al. (2014).[30]
  • A study of anatomy and phylogenetic relationships of Antetonitrus ingenipes is published by McPhee et al. (2014).[31]
  • A study on the differences in skull anatomy of Diplodocus and Camarasaurus, and on their implications for inferring possible niche partitioning between Late Jurassic sauropod taxa known from the Morrison Formation, is published by Button, Rayfield & Barrett (2014).[32]
  • Fragmentary partial skeleton of a small sauropod belonging to the genus Haplocanthosaurus collected from the Rocky Mountains of central Colorado is described by Foster & Wedel (2014).[33]
  • The purported size of the holotype vertebra of Amphicoelias fragillimus is reevaluated by Woodruff and Foster (2014).[34]
  • A study of phylogenetic relationships of Lourinhasaurus alenquerensis is published by Mocho, Royo-Torres and Ortega (2014).[35]
  • A study of anatomy and phylogenetic relationships of Aragosaurus ischiaticus is published by Royo-Torres et al. (2014).[36]
  • A study of titanosaur osteoderms from the Upper Cretaceous Lo Hueco site in Cuenca, Spain is published by Vidal, Ortega and Sanz (2014).[37]
  • A study of species richness of South American titanosaur assemblages during the Late Cretaceous is published by Vieira et al. (2014).[38]
  • A study of the effect of intervertebral cartilage on neck posture of sauropod dinosaurs is published by Taylor (2014).[39]
  • A study of the dentition of Manidens condorensis is published by Becerra et al. (2014).[40]
  • A study of the postcranial anatomy of Heterodontosaurus tucki is published by Galton (2014).[41]
  • A study of the impact of osteoderm placement on the centre of mass of stegosaurs is published by Mallison (2014).[42]
  • A study of Early Cretaceous Spanish iguanodont ornithopod diversity and a description of new remains referrable to Delapparentia is published by Gasca, Canudo and Moreno-Azanza (2014).[43]
  • A specimen of Edmontosaurus regalis with remains of a soft-tissue cranial crest is described by Bell et al. (2014).[44]
  • A juvenile specimen of Edmontosaurus annectens is described by Prieto-Márquez (2014).[45]
  • An assemblage of Psittacosaurus juveniles associated with a larger specimen from the Lujiatun beds of the Yixian Formation in Liaoning, China is described by Hedrick et al. (2014).[46]
  • An aggregation of four juveniles of Protoceratops andrewsi from the Tugrikin Shire locality of the Djadokhta Formation in Central Gobi region, Mongolia and two associated subadults of the same species from the same locality are described by Hone et al. (2014).[47]
  • A study of ontogenetic changes in the craniofacial skeleton of Centrosaurus apertus is published by Frederickson and Tumarkin-Deratzian (2014).[48]
  • A new specimen attributable to Arrhinoceratops brachyops is described by Mallon et al. (2014).[49]
  • A study on the evolution of species belonging to the genus Triceratops, as indicated by their morphological variation and stratigraphic data from the Hell Creek Formation (Montana, United States), is published by Scannella et al. (2014).[50]
  • A new specimen of Spinosaurus is described by Ibrahim et al., with a controversial reconstruction of Spinosaurus as a quadrupedal semi-aquatic genus.[51]
  • Two new specimens of the previous enigma Deinocheirus are described and analysed by Lee et al. (2014).[52]
  • A tiny theropod was found in the South Korea. (2014)

New taxa edit

Name Novelty Status Authors Age Unit Location Notes Images

Adelolophus[53]

Gen. et sp. nov

Valid

Gates et al.

Late Cretaceous (Campanian)

Wahweap Formation

  United States

A lambeosaurine hadrosaurid. The type species is Adelolophus hutchisoni.

Allosaurus lucasi[54]

Sp. nov

Valid

Dalman

Late Jurassic (Tithonian)

Morrison Formation

  United States

An allosauroid theropod, a species of Allosaurus.

Amargastegos[55]

Gen. et sp. nov

Disputed

Ulansky

Early Cretaceous (Barremian-early Aptian)

La Amarga Formation

  Argentina

A stegosaur. The type species is Amargastegos brevicollus. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Andhrasaurus[55]

Gen. et. sp. nov

Disputed

Ulansky

Early Jurassic (Pliensbachian-Toarcian)

Kota Formation

  India

A basal thyreophoran. The type species is Andhrasaurus indicus. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Anzu[57]

Gen. et sp. nov

Valid

Lamanna et al.

Late Cretaceous (late Maastrichtian)

Hell Creek Formation

  United States

A caenagnathid theropod. The type species is Anzu wyliei.

 

Aquilops[58]

Gen. et sp. nov

Valid

Farke et al.

Early Cretaceous (Albian)

Cloverly Formation

  United States

A basal member of Neoceratopsia. The type species is Aquilops americanus.

 

Arcovenator[59]

Gen. et sp. nov

Valid

Tortosa et al.

Late Cretaceous (late Campanian)

  France

An abelisaurid theropod. The type species is Arcovenator escotae.

 

Camarillasaurus[60]

Gen. et sp. nov

Valid

Sánchez-Hernández & Benton

Early Cretaceous (early Barremian)

Camarillas Formation

  Spain

A theropod dinosaur; originally described as a basal ceratosaurian, but subsequently reinterpreted as a spinosaurid.[61] The type species is Camarillasaurus cirugedae.

Changyuraptor[62]

Gen. et sp. nov

Valid

Han et al.

Early Cretaceous

Yixian Formation

  China

A microraptorine dromaeosaurid theropod. The type species is Changyuraptor yangi.

Chuanqilong[63]

Gen. et sp. nov

Valid

Han et al.

Early Cretaceous (Aptian)

Jiufotang Formation

  China

An ankylosaurid. The type species is Chuanqilong chaoyangensis.

Chungkingosaurus giganticus[55]

Sp. nov

Disputed

Ulansky

Late Jurassic (Oxfordian)

Shangshaximiao Formation

  China

A huayangosaurid, a species of Chungkingosaurus. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Chungkingosaurus magnus[55]

Sp. nov

Disputed

Ulansky

Late Jurassic (Oxfordian)

Shangshaximiao Formation

  China

A huayangosaurid, a species of Chungkingosaurus. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Datanglong[64]

Gen. et sp. nov

Valid

Mo et al.

Early Cretaceous

Xinlong Formation

  China

A carcharodontosaur theropod. The type species is Datanglong guangxiensis.

Dreadnoughtus[65]

Gen. et sp. nov

Valid

Lacovara et al.

Late Cretaceous (Campanian or Maastrichtian)

Cerro Fortaleza Formation

  Argentina

A titanosaurian sauropod. The type species is Dreadnoughtus schrani.

Eoplophysis[55]

Gen. et comb. nov

Disputed

Ulansky

Middle Jurassic (Bathonian)

Cornbrash Formation

  England

A stegosaur; a new genus for "Omosaurus" vetustus von Huene (1910). According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Eousdryosaurus[66]

Gen. et sp. nov

Valid

Escaso et al.

Late Jurassic

Alcobaça Formation

  Portugal

A dryosaurid ornithopod. The type species is Eousdryosaurus nanohallucis.

Ferganastegos[55]

Gen. et sp. nov

Disputed

Ulansky

Middle Jurassic (Callovian)

Balabansai Formation

  Kyrgyzstan

A stegosaur. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Fosterovenator[67]

Gen. et sp. nov

Valid

Dalman

Late Jurassic (Kimmeridgian/Tithonian)

Morrison Formation

  United States

A theropod dinosaur. The type species is Fosterovenator churei.

 

Gobivenator[68]

Gen. et sp. nov

Valid

Tsuihiji et al.

Late Cretaceous (Campanian)

Djadochta Formation

  Mongolia

A troodontid theropod. The type species is Gobivenator mongoliensis.

 

Gongpoquansaurus[69]

Gen. et comb. nov

Valid

You, Li & Dodson

Early Cretaceous (Albian)

Zhonggou Formation

  China

A non-hadrosaurid hadrosauroid; a new genus for "Probactrosaurus" mazongshanensis Lü (1997).

Huangshanlong[70]

Gen. et sp. nov

Valid

Huang et al.

Middle Jurassic

Hongqin Formation

  China

A mamenchisaurid sauropod. The type species is Huangshanlong anhuiensis.

Kulindadromeus[71]

Gen. et sp. nov

Valid

Godefroit et al.

Middle or Late Jurassic (Bajocian to Tithonian)

Ukureyskaya Formation

  Russia

A non-cerapodan neornithischian. The type species is Kulindadromeus zabaikalicus.

 

Laquintasaura[72]

Gen. et sp. nov

Valid

Barrett et al.

Early Jurassic

La Quinta Formation

  Venezuela

A basal ornithischian. The type species is Laquintasaura venezuelae.

 

Leinkupal[73]

Gen. et sp. nov

Valid

Gallina et al.

Early Cretaceous (late Berriasian to Valanginian)

Bajada Colorada Formation

  Argentina

A diplodocine diplodocid sauropod. The type species is Leinkupal laticauda.

 

Mercuriceratops[74]

Gen. et sp. nov

Valid

Ryan et al.

Late Cretaceous (Campanian)

Dinosaur Park Formation
Judith River Formation

  Canada
  United States

A chasmosaurine ceratopsid. The type species is Mercuriceratops gemini.

 

Nanuqsaurus[75]

Gen. et sp. nov

Valid

Fiorillo & Tykoski

Late Cretaceous (Maastrichtian)

Prince Creek Formation

  United States

A tyrannosaurid theropod. The type species is Nanuqsaurus hoglundi.

 

Natronasaurus[55]

Gen. et comb. nov

Disputed

Ulansky

Late Jurassic (Kimmeridgian-Tithonian)

Morrison Formation

  United States

A stegosaurid; a new genus for "Stegosaurus" longispinus Gilmore (1914). According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature; Galton and Carpenter made "S." longispinus the type species of a new genus Alcovasaurus.[56]

Panguraptor[76]

Gen. et sp. nov

Valid

You et al.

Early Jurassic

Lufeng Formation

  China

A coelophysoid theropod. The type species is Panguraptor lufengensis.

Pentaceratops aquilonius[77]

Sp. nov

Valid

Longrich

Late Cretaceous (late Campanian)

Dinosaur Park Formation

  Canada

A ceratopsid, a species of Pentaceratops.

Plesiohadros[78]

Gen. et sp. nov

Valid

Tsogtbaatar et al.

Late Cretaceous (probably late Campanian)

Djadochta Formation Beds of Alag Teeg

  Mongolia

A non-hadrosaurid hadrosauroid. The type species is Plesiohadros djadokhtaensis.

Qianzhousaurus[79]

Gen. et sp. nov

Valid

et al.

Late Cretaceous (Maastrichtian)

  China

A tyrannosaurid theropod. The type species is Qianzhousaurus sinensis.

 

Quetecsaurus[80]

Gen. et sp. nov

Valid

González Riga & Ortiz David

Late Cretaceous (Turonian)

Cerro Lisandro Formation

  Argentina

A titanosaur sauropod related to Mendozasaurus and Futalognkosaurus. The type species is Quetecsaurus rusconii.

 

Rhinorex[81]

Gen. et sp. nov

Valid[82]

Gates & Scheetz

Late Cretaceous (Campanian)

Neslen Formation

  United States

A saurolophine hadrosaurid. The type species is Rhinorex condrupus.

 

Rukwatitan[83]

Gen. et sp. nov

Valid

Gorscak et al.

Cretaceous (Aptian to Cenomanian)

Galula Formation

  Tanzania

A titanosaur sauropod. The type species is Rukwatitan bisepultus.

 

Saldamosaurus[55]

Gen. et sp. nov

Disputed

Ulansky

Late Jurassic

Saldam Formation

  Russia

A stegosaur. The type species is Saldamosaurus tuvensis. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Scelidosaurus arizonensis[55]

Sp. nov

Disputed

Ulansky

Early Jurassic (?Sinemurian-Pliensbachian)

Kayenta Formation

  United States

A basal thyreophoran, a species of Scelidosaurus. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Siamodracon[55]

Gen. et sp. nov

Disputed

Ulansky

Late Jurassic

Phu Kradung Formation

  Thailand

A stegosaur. The type species is Siamodracon altispinus. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Sinopeltosaurus[55]

Gen. et sp. nov

Disputed

Ulansky

Early Jurassic (Hettangian-Pliensbachian)

Lufeng Formation

  China

A basal thyreophoran. The type species is Sinopeltosaurus minimus. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Tachiraptor[84]

Gen. et sp. nov

Valid

Langer et al.

Earliest Jurassic

La Quinta Formation

  Venezuela

A stem-averostran theropod. The type species is Tachiraptor admirabilis.

Tambatitanis[85]

Gen. et sp. nov

Valid

Saegusa and Ikeda

Early Cretaceous (probably early Albian)

Sasayama Group

  Japan

A titanosauriform sauropod, a member of Somphospondyli. The type species is Tambatitanis amicitiae.

Torvosaurus gurneyi[86]

Sp. nov

Valid

Hendrickx & Mateus

Late Jurassic (late Kimmeridgian)

Lourinhã Formation

  Portugal

A megalosauroid theropod, a species of Torvosaurus.

 

Vahiny[87]

Gen. et sp. nov

Valid

Curry Rogers & Wilson

Late Cretaceous

Maevarano Formation

  Madagascar

A titanosaur sauropod. The type species is Vahiny depereti.

Wuerhosaurus mongoliensis[55]

Sp. nov.

Disputed

Ulansky

Early Cretaceous (Aptian-Albian)

Khukhtyk Formation

  Mongolia

A stegosaur, a species of Wuerhosaurus. According to Galton and Carpenter (2016) it did not meet the requirements of the International Code of Zoological Nomenclature.[56]

Yongjinglong[88]

Gen. et sp. nov

Valid

Li et al.

Early Cretaceous

Hekou Group

  China

A titanosaur sauropod. The type species is Yongjinglong datangi.

Zaraapelta[89]

Gen. et sp. nov

Valid

Arbour, Currie & Badamgarav

Late Cretaceous

Barun Goyot Formation

  Mongolia

A member of Ankylosauridae. The type species is Zaraapelta nomadis.

Zby[90]

Gen. et sp. nov

Valid

Mateus, Mannion & Upchurch

Late Jurassic (late Kimmeridgian)

Lourinhã Formation

  Portugal

A turiasaurian sauropod. The type species is Zby atlanticus.

 

Zhanghenglong[91]

Gen. et sp. nov

Valid

Xing et al.

Late Cretaceous (Santonian)

Majiacun Formation

  China

A non-hadrosaurid hadrosauroid ornithopod. The type species is Zhanghenglong yangchengensis.

 

Ziapelta[92]

Gen. et sp. nov

Valid

Arbour et al.

Late Cretaceous (late Campanian)

Kirtland Formation

  United States

An ankylosaurid. The type species is Ziapelta sanjuanensis.

 

Birds edit

Research edit

  • A study on the antiquity of birds is published by Lee et al. (2014).[93]
  • A new specimen of Archaeopteryx is described by Foth, Tischlinger and Rauhut (2014).[94]
  • Zhongornis haoae, initially thought to be a bird, is argued to be a non-avian maniraptoran by O'Connor and Sullivan (2014).[95]
  • A study of ecological disparity in Early Cretaceous birds is published by Mitchell and Makovicky (2014).[96]
  • A subadult specimen of Zhouornis hani is described by Zhang et al. (2014).[97]
  • New specimen of Hongshanornis longicresta, providing new information on the anatomy, trophic ecology and aerodynamics of this species is described from the Lower Cretaceous Yixian Formation (China) by Chiappe et al. (2014).[98]
  • A study of the species status of the moa from the genus Euryapteryx is published by Huynen and Lambert (2014).[99]
  • A study of growth in the moa from the genus Euryapteryx is published by Huynen et al. (2014).[100]
  • A study of tbx5 gene of the moa from the genus Dinornis is published by Huynen et al. (2014).[101]
  • New samples of Miocene ratite eggs are described from Namibia by Pickford (2014), who names new ootaxa Tsondabornis psammoides, Tsondabornis minor and Namornis elimensis.[102]
  • Fossil remains of a relative of the hoatzin, possibly a species belonging to the genus Namibiavis, from the middle Miocene of Kenya, are described by Mayr (2014).[103]
  • A specimen of Pumiliornis tessellatus with preserved stomach contents including pollen grains is described by Mayr and Wilde (2014).[104]
  • A Late Pleistocene specimen of griffon vulture (Gyps fulvus) with exceptionally well preserved fossilized soft tissues is described from the Alban Hills volcanic region, Italy by Iurino et al. (2014).[105]

New taxa edit

Name Novelty Status Authors Age Unit Location Notes Images

Aegypius varswaterensis [106]

Sp nov.

Valid

Albrecht Manegold,

Marco Pavia,

Pippa Haarhoff

Early Pliocene

Varswater Formation

  South Africa

An Aegypius sp. related to the cinereous vulture

Anser djuktaiensis[107]

Sp nov.

Valid

Zelenkov & Kurochkin

Late Pleistocene

  Russia

A species of Anser.

Australornis lovei [108]

Gen. et Sp. nov.

Valid

Mayr & R. Paul Scofield

Early Paleocene

Waipara Greensand

  New Zealand

An incertae sedis Neognathae, Monotypic with A. lovei.

Bambolinetta lignitifila [109]

Gen. et Comb. nov.

Valid

Mayr & Pavia

Miocene

  Italy

An Anatinae genus, Comb. nov. for "Anas" lignitifila

Baselrallus intermedius [110]

Gen. et Sp. nov.

Valid

De Pietri,

Gerald Mayr

Early Miocene

  France

A member of the Rallidae. The type species of the new genus.

Caracara seymouri [111]

Sp. nov.

Valid

Suarez & Olson

Quaternary

La Carolina
Talara Tar Seeps

  Ecuador
  Peru

A Caracara, Falconidae.

Cryptopsar ischyrhynchus [112]

Gen. et Sp. nov.

Valid

Hume

Holocene

  Mauritius

A member of the Sturnidae, it is the type species of the new genus.

Eopengornis martini [113]

Gen. et Sp. nov.

Valid

Wang, O'Connor, Zheng,
Wang, Hu, Zhou

Early Cretaceous,

Huajiying Formation

  China

A member of the Enantiornithes, it is the type species of the new genus.

Eudyptes calauina [114]

Sp. nov.

Valid

Hoffmeister, Carrillo Briceño, & Nielsen

Pliocene

Horcón Formation

  Chile

An extinct crested penguin.

Evgenavis nobilis [115]

Gen. et Sp. nov.

Valid

O’Connor, Averianov, & Zelenkov

Barremian-Aptian

Ilek Formation

  Russia

Aves incertae sedis. it is the type species of the new genus.

Falco hezhengensis [116]

Sp. nov.

Valid

Zhiheng, Zhonghe, Tao,
Qiang, & Clarke

Late Miocene

Linxia Basin

  China

A member of the Falconidae.

Fortunguavis xiaotaizicus [117]

Gen. nov. et Sp. nov.

Valid

Wang Min

Jingmai K. O'Connor

Zhou Zhonghe

Early Cretaceous

Jiufotang Formation

  China

A member of Enantiornithes Walker, 1981. This is the type species of the new genus.

Gansus zheni [118]

Sp. nov.

Valid

Di Liu

Luis M. Chiappe

Yuguang Zhang

Alyssa Bell

Qingjin Meng

Qiang Ji

Xuri Wang

Early Cretaceous

Jiufotang Formation

  China

An early member of Ornithuromorpha Chiappe, 2002, a species of Gansus.

Garganornis ballmanni [119]

Gen. nov. et Sp. nov.

Valid

Hanneke J. M. Meijer

Miocene

Fissure fillings

  Italy

A member of the Anseriformes, this is the type species of the new genus.

Genucrassum bransatensis [120]

Gen. nov. et Sp. nov.

Valid

Vanesa L. De Pietri
R. Paul Scofield

Late Oligocene

MP 30; 23.03 Mya

  France

A stone-curlew, Burhinidae, this is the type species of the new genus.

Grabauornis lingyuanensis[121]

Gen. nov. et Sp. nov.

Valid

Johan Dalsätt

Per G.P. Ericson

Zhou Zhonghe

Early Cretaceous

Yixian Formation

  China

A member of Enantiornithes Walker, 1981. This is the type species of the new genus.

?Ibidopodia chavrochensis [122]

Sp. nov.

Valid

Vanesa L. De Pietri

Gerald Mayr

Early Miocene

Chavroches

MN 2

  France

An Idiornithid, Idiornithidae Cariamiformes, possibly a species of Ibidopodia Milne-Edwards, 1868.

?Ibidopodia minuta [122]

Sp. nov.

Valid

Vanesa L. De Pietri

Gerald Mayr

Early Miocene

Saulcet

  France

An Idiornithid, Idiornithidae Cariamiformes, possibly a species of Ibidopodia Milne-Edwards, 1868.

Iteravis huchzermeyeri[123]

Gen. nov. et sp. nov.

Valid

Shuang Zhou

Jingmai K. O'Connor

Min Wang

Early Cretaceous

Yixian Formation

  China

A basal member of the Ornithuromorpha Chiappe, 2002. This is the type species of the new genus.

Jeholornis curvipes [124]

Sp. nov.

Valid

Ulysse Lefèvre

Dongyu Hu

François Escuillié

Gareth Dyke

Pascal Godefroit

Early Cretaceous

Yixian Formation

  China

A member of Avialae Gauthier, 1986, a species of Jeholornis Zhou et Zhang, 2002.

Limnofregata hutchisoni [125]

Sp. nov.

Valid[126]

Thomas A. Stidham

Early Eocene

Wasatch Formation

  United States:

  Wyoming

A member of Fregatidae, a species of Limnofregata.

Longusunguis kurochkini [127]

Gen. nov. et Sp. nov.

Valid

Wang Min

Zhou Zhonghe

Jingmai K. O'Connor

Nikita V. Zelenkov

Early Cretaceous

Jiufotang Formation

  China

A member of Enantiornithes Walker, 1981 related to Bohaiornis. This is the type species of new genus.

Mergellus mochanovi [107]

Sp. nov.

Valid

Nikita V. Zelenkov

Evgeny N. Kurochkin

Late Pleistocene

  Russia

A member of the Anatidae related to the smew, a species of Mergellus.

Mergus milleneri [128]

Sp. nov.

Valid

Murray Williams

Alan J. D. Tennyson

Holocene

Chatham Island

  New Zealand

A member of the Anatidae.

Nectornis africanus [129]

Sp. nov.

Valid

Gerald Mayr

Middle Miocene

MN 5

  Kenya

A cormorant, Phalacrocoracidae, a species of Nectornis Cheneval, 1984.

Nestor chathamensis[130]

Sp. nov.

Valid

Jamie R. Wood

Kieren J. Mitchell

R. Paul Scofield

Alan J. D. Tennyson in Wood et al.

Holocene

Chatham Islands

  New Zealand

A New Zealand parrot belonging to the family Nestoridae Bonaparte, 1849, a species of Nestor.

?Nupharanassa mabokoensis [129]

Sp. nov.

Valid

Gerald Mayr

Middle Miocene

MN 5

  Kenya

A jacana, Jacanidae, possibly a species of Nupharanassa Rasmussen, Olson et Simons, 1987.

Parabohaiornis martini [127]

Gen. nov. et Sp. nov.

Valid

Wang Min

Zhou Zhonghe

Jingmai K. O'Connor

Nikita V. Zelenkov

Early Cretaceous

Jiufotang Formation

  China

A member of Enantiornithes Walker, 1981 related to Bohaiornis. The type species of the new genus, placed in the family Bohaiornithidae Wang, Zhou, O’Connor et Zelenkov, 2014 with de genera Shenqiornis Wang, O’Connor, Zhao, Chiappe, Gao et Cheng, 2010, Sulcavis O’Connor, Zhang, Chiappe, Meng, Quanguo et Di, 2013, Zhouornis Zhang, Chiappe, Han et Chinsamy, 2013, Longusunguis Wang, Zhou, O’Connor et Zelenkov, 2014 and Bohaiornis Hu, Hou L. H. et Xu, 2011.

Parvavis chuxiongensis [131]

Gen. nov. et Sp. nov.

Valid

Wang Min

Zhou Zhonghe

Xu Guanghui

Late Cretaceous,

Turonian to Santonian

Jiangdihe Formation

  China

A member of Enantiornithes Walker, 1981. The type species of the new genus.

Pelagornis sandersi [132]

Sp. nov.

Valid

Daniel T. Ksepka

Late Oligocene

Chandler Bridge Formation,

Early Chattian

  USA:

  South Carolina

A member of the Pelagornithidae Fürbringer, 1888, a species of Pelagornis Lartet, 1857; the bird with the biggest wingspan known up to now.

Piscivoravis lii [133]

Gen. nov. et Sp. nov.

Valid

Zhou Shuang

Zhou Zhonghe

Jingmai K. O'Connor

Early Cretaceous

Jiufotang Formation

  China

A basal member of the Ornithuromorpha Chiappe, 2002. This is the type species the new genus.

Plotornis graculoides [109]

Comb. nov.

Valid

Gerald Mayr

Marco Pavia

Miocene

MN 1–2

  Italy

A member of the Diomedeidae, a new name for "Chenornis" graculoides Portis 1884, creating a Comb. nov.

Protoazin parisiensis [134]

Gen. nov. et Sp. nov.

Valid

Gerald Mayr

Vanesa L. De Pietri

Late Eocene

Priabonian,

MP 20

  France

A relative of the hoatzin, Opisthocomidae. This is the type species of the new genus.

Sobniogallus albinojamrozi [135]

Gen. et Sp. nov.

Valid

Tomek, Bocheński, Wertz, & Świdnicka

Rupelian

Krosno Formation

  Poland

Galliformes incertae sedis. This is the type species of the new genus.

Tianyuornis cheni [136]

Gen. et Sp. nov.

Valid

Xiao-Ting, O'Connor,
Xiao-Li, Xiao-Mei, & Yan

Early Cretaceous

Yixian Formation

  China

A member of the Hongshanornithidae, the type species of the new genus.

Pterosaurs edit

Research edit

  • A study of pneumaticity of pterosaur wing bones is published by Martin and Palmer (2014).[137]
  • A complete and fully articulated juvenile specimen of Scaphognathus crassirostris is described by Bennett (2014).[138]
  • Partial 3D egg of Pterodaustro guinazui is described by Grellet-Tinner et al. (2014).[139]
  • Cearadactylus atrox is redescribed by Vila Nova et al. (2014).[140]
  • The taxonomy and distribution of the family Azhdarchidae is reviewed by Averianov (2014).[141]
  • A reevaluation of the fossil material attributed to Bakonydraco galaczi, indicating that the fossils actually represent at least two pterosaur taxa, is published by Prondvai, Bodor and Ősi (2014).[142]
  • A study of medullary bone-like tissue in the mandibular symphyses of Bakonydraco galaczi is published by Prondvai and Stein (2014).[143]
  • New postcranial remains belonging to thalassodromine pterosaurs from the Romualdo Formation in the Araripe Basin of Brazil are described by Aires et al. (2014).[144]
  • The morphology and evolution of the pelvis in pterosaurs is reviewed by Hyder et al. (2014), who also find significant differences that correlate well with several pterosaur clades.[145]
  • Bantim et al. (2014) analyze the skull variation and the shape of the sagittal premaxillary crests in anhanguerid pterosaurs using bidimensional geometric morphometrics.[146]
  • Costa et al. (2014) perform the myological reconstruction of the pelvic girdle and hindlimb of the pterosaur species Anhanguera piscator using three-dimensional virtual animation.[147]
  • Based on a digital three-dimensional osteological model of the species Anhanguera piscator, Costa et al. (2014) demonstrate that these types pterosaurs were quadrupedal animals.[148]

New taxa edit

Name Novelty Status Authors Age Unit Location Notes Images

Aerodactylus[149]

Gen. et comb. nov

Valid

Vidovic & Martill

Late Jurassic

Solnhofen Limestone

  Germany

A member of Pterodactyloidea related to Gladocephaloideus, Cycnorhamphus, Ardeadactylus and Aurorazhdarcho; a new genus for "Pterodactylus" scolopaciceps Meyer (1860).

 

Boreopterus giganticus[150]

Sp. nov

Valid

Jiang et al.

Early Cretaceous

  China

A species of Boreopterus.

Caiuajara[151]

Gen. et sp. nov

Valid

Manzig et al.

Late Cretaceous

Bauru Basin, Caiuá Group, Goio-Erê Formation

  Brazil

A tapejarid. The type species is Caiuajara dobruskii.

 

Hamipterus[152]

Gen. et sp. nov

Valid

Wang et al.

Early Cretaceous

Tugulu Group

  China

A member of Pteranodontoidea of uncertain phylogenetic placement. The type species is Hamipterus tianshanensis.

 

Ikrandraco[153]

Gen. et sp. nov

Valid

Wang et al.

Early Cretaceous (Aptian)

Jiufotang Formation

  China

A non-anhanguerian pteranodontoid. The type species is Ikrandraco avatar. Announced in 2014; the correction including evidence of registration in ZooBank within the work itself was published in 2020.[154]

  

Kryptodrakon[155]

Gen. et sp. nov

Valid

Andres, Clark & Xu

Middle-Late Jurassic boundary

  China

An early member of Pterodactyloidea. The type species is Kryptodrakon progenitor.

 

Maaradactylus[156]

Gen. et sp. nov

Valid

Bantim et al.

Early Cretaceous (Aptian or Albian)

Romualdo Formation

  Brazil

A member of Anhangueridae. The type species is Maaradactylus kellneri.

 

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April 11, 2024
2014, archosaur, paleontology, this, article, records, taxa, fossil, archosaurs, every, kind, that, scheduled, described, during, year, 2014, well, other, significant, discoveries, events, related, paleontology, archosaurs, that, scheduled, occur, year, 2014, . This article records new taxa of fossil archosaurs of every kind that are scheduled described during the year 2014 as well as other significant discoveries and events related to paleontology of archosaurs that are scheduled to occur in the year 2014 List of years in archosaur paleontology 2011 2012 2013 2014 2015 2016 2017 In science 2011 2012 2013 2014 2015 2016 2017In paleontology 2011 2012 2013 2014 2015 2016 2017In paleobotany 2011 2012 2013 2014 2015 2016 2017In arthropod paleontology 2011 2012 2013 2014 2015 2016 2017In paleoentomology 2011 2012 2013 2014 2015 2016 2017In paleomalacology 2011 2012 2013 2014 2015 2016 2017In paleoichthyology 2011 2012 2013 2014 2015 2016 2017In reptile paleontology 2011 2012 2013 2014 2015 2016 2017In mammal paleontology 2011 2012 2013 2014 2015 2016 2017Art Archaeology Architecture Literature Music Philosophy Science Paleontology portalHistory of science portaldinosaurs portalContents 1 Pseudosuchians 1 1 Research 1 2 New taxa 2 Non avian dinosaurs 2 1 Research 2 2 New taxa 3 Birds 3 1 Research 3 2 New taxa 4 Pterosaurs 4 1 Research 4 2 New taxa 5 ReferencesPseudosuchians editResearch edit A study of anatomy and phylogenetic relationships of Gracilisuchus stipanicicorum Turfanosuchus dabanensis and Yonghesuchus sangbiensis is published by Butler et al 2014 1 A study on the impact of sea level variations and sea surface temperatures on the evolution of marine crocodylomorphs is published by Martin et al 2014 2 A study of jaw mechanism and dental function in heterodont crocodyliforms is published by Osi 2014 3 A study on the types of serration in the teeth of members of the genus Machimosaurus is published by Young et al 2014 4 The atoposaurid crocodyliform genus Alligatorellus is revised by Tennant and Mannion 2014 5 New taxa edit Name Novelty Status Authors Age Unit Location Notes ImagesAllodaposuchus palustris 6 Sp nov Valid Blanco et al Late Cretaceous early Maastrichtian Tremp Formation nbsp Spain A eusuchian crocodylomorph a species of Allodaposuchus Anthracosuchus 7 Gen et sp nov Valid Hastings Bloch amp Jaramillo Paleocene Cerrejon Formation nbsp Colombia A dyrosaurid crocodyliform The type species is Anthracosuchus balrogus Aplestosuchus 8 Gen et sp nov Valid Godoy et al Late Cretaceous Adamantina Formation nbsp Brazil A baurusuchid crocodylomorph The type species is Aplestosuchus sordidus nbsp Caipirasuchus stenognathus 9 Sp nov Valid Pol et al Late Cretaceous Adamantina Formation nbsp Brazil A sphagesaurid crocodylomorph a species of Caipirasuchus nbsp Diplocynodon remensis 10 Sp nov Valid Martin et al Late Paleocene nbsp France A member of Alligatoroidea a species of Diplocynodon Machimosaurus buffetauti 11 Sp nov Valid Young et al Late Jurassic Kimmeridgian nbsp France nbsp Germany nbsp Poland nbsp United Kingdom A teleosaurid crocodylomorph a species of Machimosaurus Considered to be a junior synonym of Machimosaurus hugii by Martin Vincent amp Falconnet 2015 12 nbsp Nundasuchus 13 Gen et sp nov Valid Nesbitt et al Middle Triassic Anisian Manda Beds nbsp Tanzania A member of Archosauriformes of uncertain phylogenetic placement possibly a pseudosuchian The type species is Nundasuchus songeaensis Polesinesuchus 14 Gen et sp nov Disputed Roberto da Silva et al Late Triassic Santa Maria Formation nbsp Brazil An aetosaur The type species is Polesinesuchus aurelioi Paes Neto et al 2021 proposed that P aurelioi is a junior synonym of Aetosauroides scagliai 15 Rukwasuchus 16 Gen et sp nov Valid Sertich amp O Connor Cretaceous Aptian to Cenomanian Galula Formation nbsp Tanzania A peirosaurid crocodyliform The type species is Rukwasuchus yajabalijekundu Sahitisuchus 17 Gen et sp nov Valid Kellner Pinheiro amp Campos Paleocene Itaboraian Itaborai Formation nbsp Brazil A sebecid crocodylomorph The type species is Sahitisuchus fluminensis nbsp Wannchampsus 18 Gen et sp nov Valid Adams Early Cretaceous late Aptian Twin Mountains Formation nbsp United States A paralligatorid neosuchian crocodylomorph The type species is Wannchampsus kirpachi nbsp Non avian dinosaurs editResearch edit A study on the patterns of body size evolution in dinosaurs is published by Benson et al 2014 19 A study of size changes and rates of anatomical innovation in the theropod lineage ancestral to birds is published by Lee et al 2014 20 A study of evolution of body size and forelimb length in birds and nov avian coelurosaurian theropods is published by Puttick Thomas and Benton 2014 21 A phylogenetic analysis of bird and non avian coelurosaurian theropod relationships and a study of rates of morphological evolution and changes in morphological disparity across the dinosaur bird transition is published by Brusatte et al 2014 22 A description of abelisaurid teeth from the Late Jurassic Lourinha Formation of Portugal and a phylogenetic analysis of theropod relationships based on dental characters is published by Hendrickx and Mateus 2014 23 A study of theropod diversity in the Cretaceous Aptian Albian of Tunisia is published by Fanti et al 2014 24 A juvenile specimen of Megaraptor namunhuaiquii is described by Porfiri et al 2014 25 A study of European fossil record of Ornithomimosauria is published by Allain et al 2014 26 A study on the morphological variability and function of manual claws in theropod dinosaurs especially in therizinosaurs is published by Lautenschlager 2014 27 A study of flight ability in some non avian paravian theropods is published by Sorkin 2014 28 Saurornitholestes robustus initially thought to be a dromaeosaurid is reinterpreted as a troodontid by Evans et al 2014 29 A well preserved specimen of Microraptor zhaoianus is described by Pei et al 2014 30 A study of anatomy and phylogenetic relationships of Antetonitrus ingenipes is published by McPhee et al 2014 31 A study on the differences in skull anatomy of Diplodocus and Camarasaurus and on their implications for inferring possible niche partitioning between Late Jurassic sauropod taxa known from the Morrison Formation is published by Button Rayfield amp Barrett 2014 32 Fragmentary partial skeleton of a small sauropod belonging to the genus Haplocanthosaurus collected from the Rocky Mountains of central Colorado is described by Foster amp Wedel 2014 33 The purported size of the holotype vertebra of Amphicoelias fragillimus is reevaluated by Woodruff and Foster 2014 34 A study of phylogenetic relationships of Lourinhasaurus alenquerensis is published by Mocho Royo Torres and Ortega 2014 35 A study of anatomy and phylogenetic relationships of Aragosaurus ischiaticus is published by Royo Torres et al 2014 36 A study of titanosaur osteoderms from the Upper Cretaceous Lo Hueco site in Cuenca Spain is published by Vidal Ortega and Sanz 2014 37 A study of species richness of South American titanosaur assemblages during the Late Cretaceous is published by Vieira et al 2014 38 A study of the effect of intervertebral cartilage on neck posture of sauropod dinosaurs is published by Taylor 2014 39 A study of the dentition of Manidens condorensis is published by Becerra et al 2014 40 A study of the postcranial anatomy of Heterodontosaurus tucki is published by Galton 2014 41 A study of the impact of osteoderm placement on the centre of mass of stegosaurs is published by Mallison 2014 42 A study of Early Cretaceous Spanish iguanodont ornithopod diversity and a description of new remains referrable to Delapparentia is published by Gasca Canudo and Moreno Azanza 2014 43 A specimen of Edmontosaurus regalis with remains of a soft tissue cranial crest is described by Bell et al 2014 44 A juvenile specimen of Edmontosaurus annectens is described by Prieto Marquez 2014 45 An assemblage of Psittacosaurus juveniles associated with a larger specimen from the Lujiatun beds of the Yixian Formation in Liaoning China is described by Hedrick et al 2014 46 An aggregation of four juveniles of Protoceratops andrewsi from the Tugrikin Shire locality of the Djadokhta Formation in Central Gobi region Mongolia and two associated subadults of the same species from the same locality are described by Hone et al 2014 47 A study of ontogenetic changes in the craniofacial skeleton of Centrosaurus apertus is published by Frederickson and Tumarkin Deratzian 2014 48 A new specimen attributable to Arrhinoceratops brachyops is described by Mallon et al 2014 49 A study on the evolution of species belonging to the genus Triceratops as indicated by their morphological variation and stratigraphic data from the Hell Creek Formation Montana United States is published by Scannella et al 2014 50 A new specimen of Spinosaurus is described by Ibrahim et al with a controversial reconstruction of Spinosaurus as a quadrupedal semi aquatic genus 51 Two new specimens of the previous enigma Deinocheirus are described and analysed by Lee et al 2014 52 A tiny theropod was found in the South Korea 2014 New taxa edit Name Novelty Status Authors Age Unit Location Notes ImagesAdelolophus 53 Gen et sp nov Valid Gates et al Late Cretaceous Campanian Wahweap Formation nbsp United States A lambeosaurine hadrosaurid The type species is Adelolophus hutchisoni Allosaurus lucasi 54 Sp nov Valid Dalman Late Jurassic Tithonian Morrison Formation nbsp United States An allosauroid theropod a species of Allosaurus Amargastegos 55 Gen et sp nov Disputed Ulansky Early Cretaceous Barremian early Aptian La Amarga Formation nbsp Argentina A stegosaur The type species is Amargastegos brevicollus According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Andhrasaurus 55 Gen et sp nov Disputed Ulansky Early Jurassic Pliensbachian Toarcian Kota Formation nbsp India A basal thyreophoran The type species is Andhrasaurus indicus According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Anzu 57 Gen et sp nov Valid Lamanna et al Late Cretaceous late Maastrichtian Hell Creek Formation nbsp United States A caenagnathid theropod The type species is Anzu wyliei nbsp Aquilops 58 Gen et sp nov Valid Farke et al Early Cretaceous Albian Cloverly Formation nbsp United States A basal member of Neoceratopsia The type species is Aquilops americanus nbsp Arcovenator 59 Gen et sp nov Valid Tortosa et al Late Cretaceous late Campanian nbsp France An abelisaurid theropod The type species is Arcovenator escotae nbsp Camarillasaurus 60 Gen et sp nov Valid Sanchez Hernandez amp Benton Early Cretaceous early Barremian Camarillas Formation nbsp Spain A theropod dinosaur originally described as a basal ceratosaurian but subsequently reinterpreted as a spinosaurid 61 The type species is Camarillasaurus cirugedae Changyuraptor 62 Gen et sp nov Valid Han et al Early Cretaceous Yixian Formation nbsp China A microraptorine dromaeosaurid theropod The type species is Changyuraptor yangi Chuanqilong 63 Gen et sp nov Valid Han et al Early Cretaceous Aptian Jiufotang Formation nbsp China An ankylosaurid The type species is Chuanqilong chaoyangensis Chungkingosaurus giganticus 55 Sp nov Disputed Ulansky Late Jurassic Oxfordian Shangshaximiao Formation nbsp China A huayangosaurid a species of Chungkingosaurus According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Chungkingosaurus magnus 55 Sp nov Disputed Ulansky Late Jurassic Oxfordian Shangshaximiao Formation nbsp China A huayangosaurid a species of Chungkingosaurus According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Datanglong 64 Gen et sp nov Valid Mo et al Early Cretaceous Xinlong Formation nbsp China A carcharodontosaur theropod The type species is Datanglong guangxiensis Dreadnoughtus 65 Gen et sp nov Valid Lacovara et al Late Cretaceous Campanian or Maastrichtian Cerro Fortaleza Formation nbsp Argentina A titanosaurian sauropod The type species is Dreadnoughtus schrani Eoplophysis 55 Gen et comb nov Disputed Ulansky Middle Jurassic Bathonian Cornbrash Formation nbsp England A stegosaur a new genus for Omosaurus vetustus von Huene 1910 According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Eousdryosaurus 66 Gen et sp nov Valid Escaso et al Late Jurassic Alcobaca Formation nbsp Portugal A dryosaurid ornithopod The type species is Eousdryosaurus nanohallucis Ferganastegos 55 Gen et sp nov Disputed Ulansky Middle Jurassic Callovian Balabansai Formation nbsp Kyrgyzstan A stegosaur According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Fosterovenator 67 Gen et sp nov Valid Dalman Late Jurassic Kimmeridgian Tithonian Morrison Formation nbsp United States A theropod dinosaur The type species is Fosterovenator churei nbsp Gobivenator 68 Gen et sp nov Valid Tsuihiji et al Late Cretaceous Campanian Djadochta Formation nbsp Mongolia A troodontid theropod The type species is Gobivenator mongoliensis nbsp Gongpoquansaurus 69 Gen et comb nov Valid You Li amp Dodson Early Cretaceous Albian Zhonggou Formation nbsp China A non hadrosaurid hadrosauroid a new genus for Probactrosaurus mazongshanensis Lu 1997 Huangshanlong 70 Gen et sp nov Valid Huang et al Middle Jurassic Hongqin Formation nbsp China A mamenchisaurid sauropod The type species is Huangshanlong anhuiensis Kulindadromeus 71 Gen et sp nov Valid Godefroit et al Middle or Late Jurassic Bajocian to Tithonian Ukureyskaya Formation nbsp Russia A non cerapodan neornithischian The type species is Kulindadromeus zabaikalicus nbsp Laquintasaura 72 Gen et sp nov Valid Barrett et al Early Jurassic La Quinta Formation nbsp Venezuela A basal ornithischian The type species is Laquintasaura venezuelae nbsp Leinkupal 73 Gen et sp nov Valid Gallina et al Early Cretaceous late Berriasian to Valanginian Bajada Colorada Formation nbsp Argentina A diplodocine diplodocid sauropod The type species is Leinkupal laticauda nbsp Mercuriceratops 74 Gen et sp nov Valid Ryan et al Late Cretaceous Campanian Dinosaur Park FormationJudith River Formation nbsp Canada nbsp United States A chasmosaurine ceratopsid The type species is Mercuriceratops gemini nbsp Nanuqsaurus 75 Gen et sp nov Valid Fiorillo amp Tykoski Late Cretaceous Maastrichtian Prince Creek Formation nbsp United States A tyrannosaurid theropod The type species is Nanuqsaurus hoglundi nbsp Natronasaurus 55 Gen et comb nov Disputed Ulansky Late Jurassic Kimmeridgian Tithonian Morrison Formation nbsp United States A stegosaurid a new genus for Stegosaurus longispinus Gilmore 1914 According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature Galton and Carpenter made S longispinus the type species of a new genus Alcovasaurus 56 Panguraptor 76 Gen et sp nov Valid You et al Early Jurassic Lufeng Formation nbsp China A coelophysoid theropod The type species is Panguraptor lufengensis Pentaceratops aquilonius 77 Sp nov Valid Longrich Late Cretaceous late Campanian Dinosaur Park Formation nbsp Canada A ceratopsid a species of Pentaceratops Plesiohadros 78 Gen et sp nov Valid Tsogtbaatar et al Late Cretaceous probably late Campanian Djadochta Formation Beds of Alag Teeg nbsp Mongolia A non hadrosaurid hadrosauroid The type species is Plesiohadros djadokhtaensis Qianzhousaurus 79 Gen et sp nov Valid Lu et al Late Cretaceous Maastrichtian nbsp China A tyrannosaurid theropod The type species is Qianzhousaurus sinensis nbsp Quetecsaurus 80 Gen et sp nov Valid Gonzalez Riga amp Ortiz David Late Cretaceous Turonian Cerro Lisandro Formation nbsp Argentina A titanosaur sauropod related to Mendozasaurus and Futalognkosaurus The type species is Quetecsaurus rusconii nbsp Rhinorex 81 Gen et sp nov Valid 82 Gates amp Scheetz Late Cretaceous Campanian Neslen Formation nbsp United States A saurolophine hadrosaurid The type species is Rhinorex condrupus nbsp Rukwatitan 83 Gen et sp nov Valid Gorscak et al Cretaceous Aptian to Cenomanian Galula Formation nbsp Tanzania A titanosaur sauropod The type species is Rukwatitan bisepultus nbsp Saldamosaurus 55 Gen et sp nov Disputed Ulansky Late Jurassic Saldam Formation nbsp Russia A stegosaur The type species is Saldamosaurus tuvensis According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Scelidosaurus arizonensis 55 Sp nov Disputed Ulansky Early Jurassic Sinemurian Pliensbachian Kayenta Formation nbsp United States A basal thyreophoran a species of Scelidosaurus According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Siamodracon 55 Gen et sp nov Disputed Ulansky Late Jurassic Phu Kradung Formation nbsp Thailand A stegosaur The type species is Siamodracon altispinus According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Sinopeltosaurus 55 Gen et sp nov Disputed Ulansky Early Jurassic Hettangian Pliensbachian Lufeng Formation nbsp China A basal thyreophoran The type species is Sinopeltosaurus minimus According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Tachiraptor 84 Gen et sp nov Valid Langer et al Earliest Jurassic La Quinta Formation nbsp Venezuela A stem averostran theropod The type species is Tachiraptor admirabilis Tambatitanis 85 Gen et sp nov Valid Saegusa and Ikeda Early Cretaceous probably early Albian Sasayama Group nbsp Japan A titanosauriform sauropod a member of Somphospondyli The type species is Tambatitanis amicitiae Torvosaurus gurneyi 86 Sp nov Valid Hendrickx amp Mateus Late Jurassic late Kimmeridgian Lourinha Formation nbsp Portugal A megalosauroid theropod a species of Torvosaurus nbsp Vahiny 87 Gen et sp nov Valid Curry Rogers amp Wilson Late Cretaceous Maevarano Formation nbsp Madagascar A titanosaur sauropod The type species is Vahiny depereti Wuerhosaurus mongoliensis 55 Sp nov Disputed Ulansky Early Cretaceous Aptian Albian Khukhtyk Formation nbsp Mongolia A stegosaur a species of Wuerhosaurus According to Galton and Carpenter 2016 it did not meet the requirements of the International Code of Zoological Nomenclature 56 Yongjinglong 88 Gen et sp nov Valid Li et al Early Cretaceous Hekou Group nbsp China A titanosaur sauropod The type species is Yongjinglong datangi Zaraapelta 89 Gen et sp nov Valid Arbour Currie amp Badamgarav Late Cretaceous Barun Goyot Formation nbsp Mongolia A member of Ankylosauridae The type species is Zaraapelta nomadis Zby 90 Gen et sp nov Valid Mateus Mannion amp Upchurch Late Jurassic late Kimmeridgian Lourinha Formation nbsp Portugal A turiasaurian sauropod The type species is Zby atlanticus nbsp Zhanghenglong 91 Gen et sp nov Valid Xing et al Late Cretaceous Santonian Majiacun Formation nbsp China A non hadrosaurid hadrosauroid ornithopod The type species is Zhanghenglong yangchengensis nbsp Ziapelta 92 Gen et sp nov Valid Arbour et al Late Cretaceous late Campanian Kirtland Formation nbsp United States An ankylosaurid The type species is Ziapelta sanjuanensis nbsp Birds editResearch edit A study on the antiquity of birds is published by Lee et al 2014 93 A new specimen of Archaeopteryx is described by Foth Tischlinger and Rauhut 2014 94 Zhongornis haoae initially thought to be a bird is argued to be a non avian maniraptoran by O Connor and Sullivan 2014 95 A study of ecological disparity in Early Cretaceous birds is published by Mitchell and Makovicky 2014 96 A subadult specimen of Zhouornis hani is described by Zhang et al 2014 97 New specimen of Hongshanornis longicresta providing new information on the anatomy trophic ecology and aerodynamics of this species is described from the Lower Cretaceous Yixian Formation China by Chiappe et al 2014 98 A study of the species status of the moa from the genus Euryapteryx is published by Huynen and Lambert 2014 99 A study of growth in the moa from the genus Euryapteryx is published by Huynen et al 2014 100 A study of tbx5 gene of the moa from the genus Dinornis is published by Huynen et al 2014 101 New samples of Miocene ratite eggs are described from Namibia by Pickford 2014 who names new ootaxa Tsondabornis psammoides Tsondabornis minor and Namornis elimensis 102 Fossil remains of a relative of the hoatzin possibly a species belonging to the genus Namibiavis from the middle Miocene of Kenya are described by Mayr 2014 103 A specimen of Pumiliornis tessellatus with preserved stomach contents including pollen grains is described by Mayr and Wilde 2014 104 A Late Pleistocene specimen of griffon vulture Gyps fulvus with exceptionally well preserved fossilized soft tissues is described from the Alban Hills volcanic region Italy by Iurino et al 2014 105 New taxa edit Name Novelty Status Authors Age Unit Location Notes ImagesAegypius varswaterensis 106 Sp nov Valid Albrecht Manegold Marco Pavia Pippa Haarhoff Early Pliocene Varswater Formation nbsp South Africa An Aegypius sp related to the cinereous vultureAnser djuktaiensis 107 Sp nov Valid Zelenkov amp Kurochkin Late Pleistocene nbsp Russia A species of Anser Australornis lovei 108 Gen et Sp nov Valid Mayr amp R Paul Scofield Early Paleocene Waipara Greensand nbsp New Zealand An incertae sedis Neognathae Monotypic with A lovei Bambolinetta lignitifila 109 Gen et Comb nov Valid Mayr amp Pavia Miocene nbsp Italy An Anatinae genus Comb nov for Anas lignitifilaBaselrallus intermedius 110 Gen et Sp nov Valid De Pietri Gerald Mayr Early Miocene nbsp France A member of the Rallidae The type species of the new genus Caracara seymouri 111 Sp nov Valid Suarez amp Olson Quaternary La CarolinaTalara Tar Seeps nbsp Ecuador nbsp Peru A Caracara Falconidae Cryptopsar ischyrhynchus 112 Gen et Sp nov Valid Hume Holocene nbsp Mauritius A member of the Sturnidae it is the type species of the new genus Eopengornis martini 113 Gen et Sp nov Valid Wang O Connor Zheng Wang Hu Zhou Early Cretaceous Huajiying Formation nbsp China A member of the Enantiornithes it is the type species of the new genus Eudyptes calauina 114 Sp nov Valid Hoffmeister Carrillo Briceno amp Nielsen Pliocene Horcon Formation nbsp Chile An extinct crested penguin Evgenavis nobilis 115 Gen et Sp nov Valid O Connor Averianov amp Zelenkov Barremian Aptian Ilek Formation nbsp Russia Aves incertae sedis it is the type species of the new genus Falco hezhengensis 116 Sp nov Valid Zhiheng Zhonghe Tao Qiang amp Clarke Late Miocene Linxia Basin nbsp China A member of the Falconidae Fortunguavis xiaotaizicus 117 Gen nov et Sp nov Valid Wang MinJingmai K O ConnorZhou Zhonghe Early Cretaceous Jiufotang Formation nbsp China A member of Enantiornithes Walker 1981 This is the type species of the new genus Gansus zheni 118 Sp nov Valid Di LiuLuis M ChiappeYuguang ZhangAlyssa BellQingjin MengQiang JiXuri Wang Early Cretaceous Jiufotang Formation nbsp China An early member of Ornithuromorpha Chiappe 2002 a species of Gansus Garganornis ballmanni 119 Gen nov et Sp nov Valid Hanneke J M Meijer Miocene Fissure fillings nbsp Italy A member of the Anseriformes this is the type species of the new genus Genucrassum bransatensis 120 Gen nov et Sp nov Valid Vanesa L De PietriR Paul Scofield Late Oligocene MP 30 23 03 Mya nbsp France A stone curlew Burhinidae this is the type species of the new genus Grabauornis lingyuanensis 121 Gen nov et Sp nov Valid Johan DalsattPer G P EricsonZhou Zhonghe Early Cretaceous Yixian Formation nbsp China A member of Enantiornithes Walker 1981 This is the type species of the new genus Ibidopodia chavrochensis 122 Sp nov Valid Vanesa L De PietriGerald Mayr Early Miocene ChavrochesMN 2 nbsp France An Idiornithid Idiornithidae Cariamiformes possibly a species of Ibidopodia Milne Edwards 1868 Ibidopodia minuta 122 Sp nov Valid Vanesa L De PietriGerald Mayr Early Miocene Saulcet nbsp France An Idiornithid Idiornithidae Cariamiformes possibly a species of Ibidopodia Milne Edwards 1868 Iteravis huchzermeyeri 123 Gen nov et sp nov Valid Shuang ZhouJingmai K O ConnorMin Wang Early Cretaceous Yixian Formation nbsp China A basal member of the Ornithuromorpha Chiappe 2002 This is the type species of the new genus Jeholornis curvipes 124 Sp nov Valid Ulysse LefevreDongyu HuFrancois EscuillieGareth DykePascal Godefroit Early Cretaceous Yixian Formation nbsp China A member of Avialae Gauthier 1986 a species of Jeholornis Zhou et Zhang 2002 Limnofregata hutchisoni 125 Sp nov Valid 126 Thomas A Stidham Early Eocene Wasatch Formation nbsp United States nbsp Wyoming A member of Fregatidae a species of Limnofregata Longusunguis kurochkini 127 Gen nov et Sp nov Valid Wang MinZhou ZhongheJingmai K O ConnorNikita V Zelenkov Early Cretaceous Jiufotang Formation nbsp China A member of Enantiornithes Walker 1981 related to Bohaiornis This is the type species of new genus Mergellus mochanovi 107 Sp nov Valid Nikita V ZelenkovEvgeny N Kurochkin Late Pleistocene nbsp Russia A member of the Anatidae related to the smew a species of Mergellus Mergus milleneri 128 Sp nov Valid Murray WilliamsAlan J D Tennyson Holocene Chatham Island nbsp New Zealand A member of the Anatidae Nectornis africanus 129 Sp nov Valid Gerald Mayr Middle Miocene MN 5 nbsp Kenya A cormorant Phalacrocoracidae a species of Nectornis Cheneval 1984 Nestor chathamensis 130 Sp nov Valid Jamie R WoodKieren J MitchellR Paul ScofieldAlan J D Tennyson in Wood et al Holocene Chatham Islands nbsp New Zealand A New Zealand parrot belonging to the family Nestoridae Bonaparte 1849 a species of Nestor Nupharanassa mabokoensis 129 Sp nov Valid Gerald Mayr Middle Miocene MN 5 nbsp Kenya A jacana Jacanidae possibly a species of Nupharanassa Rasmussen Olson et Simons 1987 Parabohaiornis martini 127 Gen nov et Sp nov Valid Wang MinZhou ZhongheJingmai K O ConnorNikita V Zelenkov Early Cretaceous Jiufotang Formation nbsp China A member of Enantiornithes Walker 1981 related to Bohaiornis The type species of the new genus placed in the family Bohaiornithidae Wang Zhou O Connor et Zelenkov 2014 with de genera Shenqiornis Wang O Connor Zhao Chiappe Gao et Cheng 2010 Sulcavis O Connor Zhang Chiappe Meng Quanguo et Di 2013 Zhouornis Zhang Chiappe Han et Chinsamy 2013 Longusunguis Wang Zhou O Connor et Zelenkov 2014 and Bohaiornis Hu Hou L H et Xu 2011 Parvavis chuxiongensis 131 Gen nov et Sp nov Valid Wang MinZhou ZhongheXu Guanghui Late Cretaceous Turonian to Santonian Jiangdihe Formation nbsp China A member of Enantiornithes Walker 1981 The type species of the new genus Pelagornis sandersi 132 Sp nov Valid Daniel T Ksepka Late Oligocene Chandler Bridge Formation Early Chattian nbsp USA nbsp South Carolina A member of the Pelagornithidae Furbringer 1888 a species of Pelagornis Lartet 1857 the bird with the biggest wingspan known up to now Piscivoravis lii 133 Gen nov et Sp nov Valid Zhou ShuangZhou ZhongheJingmai K O Connor Early Cretaceous Jiufotang Formation nbsp China A basal member of the Ornithuromorpha Chiappe 2002 This is the type species the new genus Plotornis graculoides 109 Comb nov Valid Gerald MayrMarco Pavia Miocene MN 1 2 nbsp Italy A member of the Diomedeidae a new name for Chenornis graculoides Portis 1884 creating a Comb nov Protoazin parisiensis 134 Gen nov et Sp nov Valid Gerald MayrVanesa L De Pietri Late Eocene Priabonian MP 20 nbsp France A relative of the hoatzin Opisthocomidae This is the type species of the new genus Sobniogallus albinojamrozi 135 Gen et Sp nov Valid Tomek Bochenski Wertz amp Swidnicka Rupelian Krosno Formation nbsp Poland Galliformes incertae sedis This is the type species of the new genus Tianyuornis cheni 136 Gen et Sp nov Valid Xiao Ting O Connor Xiao Li Xiao Mei amp Yan Early Cretaceous Yixian Formation nbsp China A member of the Hongshanornithidae the type species of the new genus Pterosaurs editResearch edit A study of pneumaticity of pterosaur wing bones is published by Martin and Palmer 2014 137 A complete and fully articulated juvenile specimen of Scaphognathus crassirostris is described by Bennett 2014 138 Partial 3D egg of Pterodaustro guinazui is described by Grellet Tinner et al 2014 139 Cearadactylus atrox is redescribed by Vila Nova et al 2014 140 The taxonomy and distribution of the family Azhdarchidae is reviewed by Averianov 2014 141 A reevaluation of the fossil material attributed to Bakonydraco galaczi indicating that the fossils actually represent at least two pterosaur taxa is published by Prondvai Bodor and Osi 2014 142 A study of medullary bone like tissue in the mandibular symphyses of Bakonydraco galaczi is published by Prondvai and Stein 2014 143 New postcranial remains belonging to thalassodromine pterosaurs from the Romualdo Formation in the Araripe Basin of Brazil are described by Aires et al 2014 144 The morphology and evolution of the pelvis in pterosaurs is reviewed by Hyder et al 2014 who also find significant differences that correlate well with several pterosaur clades 145 Bantim et al 2014 analyze the skull variation and the shape of the sagittal premaxillary crests in anhanguerid pterosaurs using bidimensional geometric morphometrics 146 Costa et al 2014 perform the myological reconstruction of the pelvic girdle and hindlimb of the pterosaur species Anhanguera piscator using three dimensional virtual animation 147 Based on a digital three dimensional osteological model of the species Anhanguera piscator Costa et al 2014 demonstrate that these types pterosaurs were quadrupedal animals 148 New taxa edit Name Novelty Status Authors Age Unit Location Notes ImagesAerodactylus 149 Gen et comb nov Valid Vidovic amp Martill Late Jurassic Solnhofen Limestone nbsp Germany A member of Pterodactyloidea related to Gladocephaloideus Cycnorhamphus Ardeadactylus and Aurorazhdarcho a new genus for Pterodactylus scolopaciceps Meyer 1860 nbsp Boreopterus giganticus 150 Sp nov Valid Jiang et al Early Cretaceous nbsp China A species of Boreopterus Caiuajara 151 Gen et sp nov Valid Manzig et al Late Cretaceous Bauru Basin Caiua Group Goio Ere Formation nbsp Brazil A tapejarid The type species is Caiuajara dobruskii nbsp Hamipterus 152 Gen et sp nov Valid Wang et al Early Cretaceous Tugulu Group nbsp China A member of Pteranodontoidea of uncertain phylogenetic placement The type species is Hamipterus tianshanensis nbsp Ikrandraco 153 Gen et sp nov Valid Wang et al Early Cretaceous Aptian Jiufotang Formation nbsp China A non anhanguerian pteranodontoid The type species is Ikrandraco avatar Announced in 2014 the correction including evidence of registration in ZooBank within the work itself was published in 2020 154 nbsp Kryptodrakon 155 Gen et sp nov Valid Andres Clark amp Xu Middle Late Jurassic boundary nbsp China An early member of Pterodactyloidea The type species is Kryptodrakon progenitor nbsp Maaradactylus 156 Gen et sp nov Valid Bantim et al Early Cretaceous Aptian or Albian Romualdo Formation nbsp Brazil A member of Anhangueridae The type species is Maaradactylus kellneri nbsp References edit Richard J Butler Corwin Sullivan Martin D Ezcurra Jun Liu Agustina Lecuona Roland B Sookias 2014 New clade of enigmatic early archosaurs yields insights into early pseudosuchian phylogeny and the biogeography of the archosaur radiation BMC Evolutionary Biology 14 1 128 Bibcode 2014BMCEE 14 128B doi 10 1186 1471 2148 14 128 PMC 4061117 PMID 24916124 Jeremy E Martin Romain Amiot Christophe Lecuyer Michael J Benton 2014 Sea surface temperature contributes to marine crocodylomorph evolution Nature Communications 5 Article number 4658 Bibcode 2014NatCo 5 4658M doi 10 1038 ncomms5658 hdl 1983 32ec65d4 bc2b 40dc 933a 2bfa9d12e5a1 PMID 25130564 S2CID 205328896 Attila Osi 2014 The evolution of jaw mechanism and dental function in heterodont 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