2012 in archosaur paleontology

The year 2012 in Archosaur paleontology was eventful. Archosaurs include the only living dinosaur group — birds — and the reptile crocodilians, plus all extinct dinosaurs, extinct crocodilian relatives, and pterosaurs. Archosaur palaeontology is the scientific study of those animals, especially as they existed before the Holocene Epoch began about 11,700 years ago. The year 2012 in paleontology included various significant developments regarding archosaurs.

List of years in archosaur paleontology
In science
2009
2010
2011
2012
2013
2014
2015
In paleontology
2009
2010
2011
2012
2013
2014
2015
In paleobotany
2009
2010
2011
2012
2013
2014
2015
In arthropod paleontology
2009
2010
2011
2012
2013
2014
2015
In paleoentomology
2009
2010
2011
2012
2013
2014
2015
In paleomalacology
2009
2010
2011
2012
2013
2014
2015
In paleoichthyology
2009
2010
2011
2012
2013
2014
2015
In reptile paleontology
2009
2010
2011
2012
2013
2014
2015
In mammal paleontology
2009
2010
2011
2012
2013
2014
2015

This article records new taxa of fossil archosaurs of every kind that have been described during the year 2012, as well as other significant discoveries and events related to paleontology of archosaurs that occurred in the year 2012.

Pseudosuchians

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Research

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New taxa

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Name Novelty Status Authors Age Unit Location Notes Images

Aegisuchus[6]

Gen. et sp. nov

Valid

Holliday & Gardner

Cenomanian

Kem Kem Formation

  Morocco

An aegyptosuchid eusuchian.

 

Aetobarbakinoides[7]

Gen. et sp. nov

Valid

Desojo, Ezcurra & Kischlat

Late Carnian or early Norian

Santa Maria Formation

  Brazil

An aetosaur.

Apachesuchus[8]

Gen. et sp. nov

Valid

Spielmann & Lucas

Late Triassic

  United States

An aetosaur. The type species is Apachesuchus heckerti.

Barreirosuchus[9]

Gen. et sp. nov

Valid

Iori & Garcia

Turonian to Santonian

Adamantina Formation

  Brazil

A trematochampsid. The type species is Barreirosuchus franciscoi.

 

Borealosuchus threeensis[10]

Sp. nov

Valid

Brochu, Parris, Grandstaff, Denton & Gallagher

Maastrichtian or Danian

  USA

A crocodilian from New Jersey.

Bystrowisuchus[11]

Gen. et sp. nov

Valid

Sennikov

Early Triassic

  Russia

A ctenosauriscid. The type species is Bystrowisuchus flerovi.

Crocodylus thorbjarnarsoni[12]

sp nov

Valid

Brochu & Storrs

Pliocene to Pleistocene

  Kenya

A species of Crocodylus.

 

Gasparinisuchus[13]

Gen. et sp. nov

Valid

Martinelli et al.

Late Cretaceous

  Argentina

A peirosaurid. The type species is Gasparinisuchus peirosauroides.

Newly named basal dinosauriforms

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Name Novelty Status Authors Age Unit Location Notes Images

Diodorus[14]

Gen. et sp. nov

Valid

Kammerer, Nesbitt, & Shubin

?Carnian-Norian

Timezgadiouine Formation

  Morocco

A silesaurid.

 

Non-avian dinosaurs

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Research

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  • A study including a large phylogenetic analysis of non-coelurosaurian tetanuran theropod dinosaurs is published by Matthew T. Carrano, Roger B. J. Benson and Scott D. Sampson (2012).[15]
  • A study including a systematic revision of the family Dromaeosauridae and a large phylogenetic analysis of paravian theropod dinosaurs (both avian and non-avian) is published by Alan Turner, Peter Makovicky and Mark Norell (2012).[16]
  • A specimen of Microraptor is described by Quanguo Li et al. (2012), with melanosome imprints making it possible to determine the plumage coloration and iridescence in the plumage.[17]
  • A new specimen of Austroraptor cabazai is described by Philip J. Currie and Ariana Paulina Carabajal (2012).[18]
  • A specimen of Mei long is described by Chunling Gao et al. (2012).[19]
  • A study of Khaan mckennai was published by Amy M. Balanoff and Mark Norell (2012).[20]
  • A new information on Yixianosaurus longimanus is published by T. Alexander Dececchi, Hans C. E. Larsson and David W. E. Hone (2012).[21]
  • Three specimens of Ornithomimus with evidence of feathers are described by Darla K. Zelenitsky et al. (2012).[22]
  • A new information on the anatomy of the holotype specimen of Nqwebasaurus thwazi is published by Jonah N. Choiniere, Catherine A. Forster and William J. de Klerk (2012).[23]
  • A study of Alioramus was published by Stephen Brusatte, Thomas D. Carr and Mark Norell (2012).[24]
  • Abdominal contents of two specimens of Sinocalliopteryx gigas are described by Lida Xing et al. (2012).[25]
  • A study of musculoskeletal anatomy, three-dimensional body proportions and body mass evolution in allosauroid theropod dinosaurs is published by Karl T. Bates, Roger B. J. Benson, and Peter L. Falkingham  (2012).[26]
  • A study of the braincase of Sinraptor dongi is published by Ariana Paulina Carabajal and Philip J. Currie (2012).[27]
  • A study of Kelmayisaurus petrolicus, interpreting it as likely to be a member of Carcharodontosauridae, is published by Stephen L. Brusatte, Roger B.J. Benson and Xing Xu (2012).[28]
  • Description of pectoral girdle and forelimb of Majungasaurus crenatissimus is published by Sara H. Burch and Matthew T. Carrano (2012).[29]
  • A study of Early Cretaceous Australian theropod dinosaurs was published by Roger B. J. Benson et al. (2012).[30]
  • A study including a phylogenetic analysis of titanosauriform sauropod dinosaurs is published by Michael D'Emic (2012).[31]
  • The postcranial skeletal pneumaticity in the skeletons of five taxa of early sauropodomorph dinosaurs is described by Adam M. Yates, Mathew J. Wedel and Matthew F. Bonnan (2012).[32]
  • The study on the presumed course of the recurrent laryngeal nerve in sauropod dinosaurs is published by Mathew J. Wedel (2012).[33]
  • Pachysuchus, previously thought to be an Early Jurassic phytosaur, is reinterpreted as a sauropodomorph dinosaur by Paul M. Barrett and Xu Xing (2012).[34]
  • A study of vertebral laminae of sauropod dinosaurs is published by Jeffrey A. Wilson (2012).[35]
  • A study on the neural spine bifurcation in diplodocoid sauropod dinosaurs is published by D. Cary Woodruff and Denver W. Fowler (2012).[36]
  • A study of the postcranial skeletal pneumaticity in the skeletons of Saltasaurus, Neuquensaurus and Rocasaurus is published by Ignacio A. Cerda, Leonardo Salgado and Jaime E. Powell  (2012).[37]
  • A study of Early Cretaceous sauropod dinosaurs from North America is published by Michael D. D’Emic and Brady Z. Foreman (2012). Among other findings, additional sauropod material from the Cloverly Formation of Wyoming was referred to Sauroposeidon, Paluxysaurus was synonymized with Sauroposeidon, Rugocaudia was considered a nomen dubium and the cause of the North American sauropod extinction in the middle of the Cretaceous period was discussed.[38]
  • The first sauropod dinosaur (a member of Titanosauria) from Antarctica described by Ignacio A. Cerda et al.  (2012).[39]
  • A study of biomechanics, pectoral girdle articulation and body mass of the Triassic dinosaurs from Brazil (Staurikosaurus, Saturnalia, Pampadromaeus, Guaibasaurus and Unaysaurus) is published by Rafael Delcourt, Sergio A. K. de Azevedo, Orlando N. Grillo and Fernanda O. Deantoni (2012).[40]
  • Anatomy of Fruitadens haagarorum is described by Richard J. Butler et al. (2012).[41]
  • A study including a phylogenetic analysis of ankylosaurian dinosaurs is published by Richard S. Thompson et al. (2012).[42]
  • A study including a phylogenetic analysis of iguanodontian ornithopod dinosaurs is published by Andrew T. McDonald (2012).[43]
  • A study of the forearm orientation in hadrosaurids is published by Phil Senter (2012).[44]
  • Skin impressions of two different species of Saurolophus are described by Phil Bell (2012).[45]
  • A new description of Eolambia caroljonesa is published by Andrew T. McDonald et al. (2012).[46]
  • A study of anatomy and relationships of Bolong yixianensis is published by Wu Wenhao and Pascal Godefroit (2012).[47]
  • An overview of Early Cretaceous iguanodontian ornithopod dinosaurs of England and Belgium is published by David B. Norman (2012).[48]
  • A study of the bone histology of Tenontosaurus tilletti is published by Sarah Werning (2012).[49]
  • A study of the bone histology of Dysalotosaurus lettowvorbecki is published by Tom R. Hübner (2012).[50]
  • A study questioning the interpretation of Torosaurus as a junior synonym and a growth stage of Triceratops was published by Nicholas R. Longrich and Daniel J. Field (2012).[51]
  • A study of some of the earliest known dinosaur assemblages is published by Martín D. Ezcurra (2012). Among other findings, Teyuwasu is interpreted as a member of the clade Dinosauriformes of uncertain phylogenetic placement and a nomen dubium.[52]
  • A study of anatomical variability exhibited by major dinosaur groups living during the latest Cretaceous is published by Stephen L. Brusatte et al. (2012).[53]
  • A study of biodiversity of late Maastrichtian non-avian dinosaurs is published by Jean Le Loeuff (2012).[54]

New taxa

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Name Novelty Status Authors Age Unit Location Notes Images

Alnashetri[55]

Gen. et sp. nov

Valid

Makovicky, Apesteguía & Gianechini

Late Cretaceous (Cenomanian or Turonian)

Candeleros Formation

  Argentina

A coelurosaurian, a probable relative of alvarezsaurids. The type species is Alnashetri cerropoliciensis.

Astrophocaudia[56]

Gen. et sp. nov

Valid[57]

D’Emic

Early Cretaceous

Trinity Group

  United States (  Texas)

A titanosauriform sauropod, a member of the clade Somphospondyli. The type species is Astrophocaudia slaughteri.

Batyrosaurus[58]

Gen. et sp. nov

Valid

Godefroit et al.

Late Cretaceous

  Kazakhstan

A basal hadrosauroid. The type species is Batyrosaurus rozhdestvenskyi.

Bicentenaria[59]

Gen. et sp. nov

Valid

Novas et al.

Cenomanian

Candeleros Formation

  Argentina

A coelurosaur. The type species is Bicentenaria argentina.

 

Bonapartenykus[60]

Gen. et sp. nov

Valid

Agnolin, Powell, Novas, & Kundrát

Campanian/Maastrichtian

Allen Formation

  Argentina

An alvarezsaurid.

Comahuesaurus[61]

Gen. et sp. nov

Valid

Carballido et al.

Early Cretaceous (Aptian or Albian)

Lohan Cura Formation

  Argentina

A rebbachisaurid sauropod. The type species is Comahuesaurus windhauseni.

 

Coronosaurus[62]

Gen. et comb. nov

Valid

Ryan, Evans & Shepherd

Late Cretaceous

Oldman Formation

  Canada

A centrosaurine ceratopsian, a new genus for "Centrosaurus" brinkmani Ryan & Russell (2005).

 

Darwinsaurus[63]

Gen. et sp. nov

Valid

Paul

Early Cretaceous (early Valanginian)

Wadhurst Clay Formation

  United Kingdom

A styracosternan ornithopod. The type species is Darwinsaurus evolutionis, and the holotype is an associated skeleton that includes material catalogued under numbers NHMUK R1831 (a dentary), R1833, R1835 and R1836;[63] this skeleton is assigned by Norman (2010) to Hypselospinus fittoni.[64]

Elaltitan[65]

Gen. et sp. nov

Valid

Mannion & Otero

Middle Cenomanian to Turonian

Bajo Barreal Formation

  Argentina

A lithostrotian titanosaur. The type species is Elaltitan lilloi.

Eoabelisaurus[66]

Gen. et sp. nov

Valid

Pol & Rauhut

Aalenian or Bajocian

Cañadon Asfalto Formation

  Argentina

An abelisaurid. The type species is Eoabelisaurus mefi.

 

Gideonmantellia[67]

Gen. et sp. nov

Valid

Ruiz-Omeñaca et al.

Barremian

Camarillas Formation

  Spain

A basal ornithopod. The type species is Gideonmantellia amosanjuanae.

 

Gryphoceratops[68]

Gen. et sp. nov

Valid

Ryan, Evans, Currie, Brown, & Brinkman

Late Santonian

Milk River Formation

  Canada

A leptoceratopsid ceratopsian.

 

Hexing[69]

Gen. et sp. nov

Valid

Jin, Chen & Godefroit

Early Valanginian to early Barremian

Yixian Formation

  China

A basal ornithomimosaur. The type species is Hexing qingyi.

 

Huehuecanauhtlus[70]

Gen. et sp.

Valid

Ramírez-Velasco et al.

Santonian

  Mexico

A basal hadrosauroid. The type species is Huehuecanauhtlus tiquichensis.

 

Huxleysaurus[63]

Gen. et com. nov

Valid

Paul

Early Cretaceous (early Valanginian)

Wadhurst Clay Formation

  United Kingdom

A styracosternan ornithopod, a new genus for "Iguanodon" hollingtoniensis Lydekker (1889);[63] this species is considered by Norman (2010) to be a junior synonym of Hypselospinus fittoni.[64]

Ichthyovenator[71]

Gen. et sp. nov

Valid

Allain et al.

Late Early Cretaceous

Savannakhet Basin

  Laos

A spinosaurid. The type species is Ichthyovenator laosensis.

 

Kaatedocus[72]

Gen. et sp. nov

Valid[73]

Tschopp & Mateus

Late Jurassic (Kimmeridgian)

Morrison Formation

  United States

A diplodocine diplodocid sauropod. The type species is Kaatedocus siberi.

 

Kundurosaurus[74]

Gen. et sp. nov

Valid

Godefroit, Bolotsky & Lauters

Late Cretaceous, possibly late Maastrichtian

Udurchukan Formation

  Russia

A saurolophine hadrosaurid. The type species is Kundurosaurus nagornyi.

 

Lapampasaurus[75]

Gen. et sp. nov

Valid

Coria, Riga & Casadío

Late Cretaceous (late Campanian or early Maastrichthian)

Allen Formation

  Argentina

A hadrosaurid. The type species is Lapampasaurus cholinoi.

Latirhinus[76]

Gen. et sp. nov

Valid

Prieto-Márquez & Brañas

Late Cretaceous (late Campanian)

Cerro del Pueblo Formation

  Mexico

A hadrosaurid of uncertain phylogenetic placement; originally described as a saurolophine, but subsequently reinterpreted as a lambeosaurine.[77] The type species is Latirhinus uitstlani.

 

Magnapaulia[78]

Gen. et comb. nov

Valid

Prieto-Márquez, Chiappe & Joshi

Late Campanian

El Gallo Formation

  Mexico

A lambeosaurine hadrosaurid, a new genus for "Lambeosaurus" laticaudus (Morris, 1981).

 

Mantellodon[63]

Gen. et sp. nov

Valid

Paul

Early Cretaceous (early Aptian)

Lower Greensand Formation

  United Kingdom

A styracosternan ornithopod. The type species is Mantellodon carpenteri and the holotype is the specimen NHMUK R3741 consisting of partial associated skeleton (also known as Gideon Mantell's "Mantel-piece")[63]

Martharaptor[79]

Gen. et sp. nov

Valid

Senter, Kirkland & DeBlieux

Early Aptian

Cedar Mountain Formation

  United States

A possible therizinosauroid. The type species is Martharaptor greenriverensis.

 

Microraptor hanqingi[80]

sp nov

Valid

Gong et al.

Early Cretaceous

  China

A species of Microraptor. Its status as a distinct species is disputed, with Pei et al. (2014) considering the holotype specimen's morphology not to be distinguishable from other Microraptor specimens.[81]

Mochlodon vorosi[82]

Sp. nov

Valid

Ősi et al.

Santonian

Csehbánya Formation

  Hungary

A rhabdodontid ornithopod, a species of Mochlodon.

Ningyuansaurus[83]

Gen. et sp. nov

Valid

Ji et al.

Early Cretaceous

Yixian Formation

  China

An oviraptorosaur. The type species is Ningyuansaurus wangi.

Ostafrikasaurus[84]

Gen. et sp. nov

Valid

Buffetaut

Late Jurassic

Tendaguru Formation

  Tanzania

A spinosaurid. The type species is Ostafrikasaurus crassiserratus.

Pachyrhinosaurus perotorum[85]

sp nov

Valid

Fiorillo & Tykoski

Maastrichtian

Prince Creek Formation

  USA

Third known species of Pachyrhinosaurus.

Pegomastax[86]

Gen. et sp. nov

Valid

Sereno

Hettangian to Sinemurian

Elliot Formation

  South Africa

A heterodontosaurid. The type species is Pegomastax africana.

 

Philovenator[87]

Gen. et sp. nov

Valid

Xu et al.

Campanian

Wulansuhai Formation

  China

A troodontid. Its type species is Philovenator curriei.

 

Proa[88]

Gen. et sp. nov

Valid

McDonald et al.

Early Cretaceous (early Albian)

Escucha Formation

  Spain

An iguanodont ornithopod closely related to Iguanodon and the clade Hadrosauroidea. The type species is Proa valdearinnoensis.

Rugocaudia[89]

Gen. et sp. nov

Valid

Woodruff

Aptian or Albian

Cloverly Formation

  USA

A titanosauriform sauropod. The type species is Rugocaudia cooneyi.

Sauroniops[90]

Gen. et sp. nov

Valid

Cau, Dalla Vecchia & Fabbri

Cenomanian

Kem Kem Beds

  Morocco

A carcharodontosaurid. The type species is Sauroniops pachytholus. Announced in 2012; the final version of the article naming it was published in 2013.

Sciurumimus[91]

Gen. et sp. nov

Valid

Rauhut et al.

Upper Kimmeridgian

  Germany

A megalosauroid. The type species is Sciurumimus albersdoerferi.

 

Unescoceratops[68]

Gen. et sp. nov

Valid

Ryan, Evans, Currie, Brown, & Brinkman

Late Campanian

Dinosaur Park Formation

  Canada

A leptoceratopsid ceratopsian.

Xenoceratops[62]

Gen. et sp. nov

Valid

Ryan, Evans & Shepherd

Late Cretaceous (middle Campanian)

Foremost Formation

  Canada

A centrosaurine ceratopsian. The type species is Xenoceratops foremostensis.

 

Yueosaurus[92]

Gen. et sp. nov

Valid

Zheng, Jin, Shibata, Azuma, & Yu

Aptian-Cenomanian

Liangtoutang Formation

  China

A basal ornithopod.

Yurgovuchia[93]

Gen. et sp. nov

Valid

Senter et al.

Early Cretaceous, possibly Barremian

Cedar Mountain Formation

  USA

A dromaeosaurid. The type species is Yurgovuchia doellingi.

 

Yutyrannus[94]

Gen. et sp. nov

Valid

Xu et al.

Early Cretaceous

Yixian Formation

  China

A basal tyrannosauroid. The type species is Yutyrannus huali.

 

Newly named birds

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Name Novelty Status Authors Age Unit Location Notes Images

Aegolius gradyi [95]

Sp. nov.

Valid

Storrs L. Olson

Pleistocene to Holocene

  Bermuda

A Strigidae.

Aegypius jinniushanensis [96]

Sp. nov.

Valid

Zhang Zihui

Huang Yunping

Helen F. James

Hou Lianhai

Middle Pleistocene

  China

An Accipitridae.

Aix praeclara [97]

Sp. nov.

Valid

Nikita V. Zelenkov

Evgeny N. Kurochkin

Middle Miocene

Oshin Formation

  Mongolia

An Anatidae.

Alauda xerarvensis [98]

Sp. nov.

Valid

Zlatozar Boev

Late Pliocene

Middle Villafranchian

  Bulgaria

An Alaudidae.

Anchigyps voorhiesi [99]

Gen. nov. et Sp. nov.

Valid

Zhang Zihui

Alan Feduccia

Helen F. James

Late Miocene.

late Clarendonian

Ash Hollow Formation

  USA:

  Nebraska

An Accipitridae close in morphology to the Old World Vultures. The type species of the new genus.

Anhinga walterbolesi [100]

Sp. nov.

Valid

Trevor H. Worthy

Late Oligocene or Early Miocene

Etadunna Formation,

24-26 Ma

  Australia:

  South Australia

An Anhingidae.

Anthus antecedens [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Middle Miocene

MN 7-8

  Hungary

A Motacillidae.

Athene vallgornerensis [103]

Sp. nov.

Valid

Carmen Guerra

Pere Bover

Josep A. Alcover

Early Pleistocene

Cave deposits

  Spain:

  Majorca

A Strigidae.

Australopicus nelsonmandelai [104]

Gen. nov. et Sp. nov.

Valid

Albrecht Manegold

Antoine Louchart

Early Pliocene

Varswater Formation

  South Africa

A Picidae, this is the type species of the new genus.

Avolatavis tenens [105]

Gen. nov. et Sp. nov.

Valid

Daniel T. Ksepka

Julia A. Clarke

Eocene

Green River Formation

  USA:

  Wyoming

A stem parrot, a member of Pan-Psittaciformes. The type species of the new genus.

Becassius charadriioides [106]

Gen. nov. et Sp. nov.

Valid

Vanesa L. De Pietri

Gerald Mayr

Early Miocene

Saint-Gérard-le-Puy,

MN 2a

  France

Originally described as a member of the family Scolopacidae or a relative of the Scolopacidae; De Pietri, Mayr & Scofield (2019) transferred this species to the family Glareolidae.[107] The type species of the new genus.

Bombycilla hamori [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Early Miocene

MN 5

  Hungary

A Bombycillidae.

Brodavis americanus [108]

Gen. nov. et Sp. nov.

Valid

Larry D. Martin

Evgeny N. Kurochkin

Tim T. Tokaryk

Late Cretaceous,

Maastrichtian

Frenchman Formation

  Canada:

  Saskatchewan

A Hesperornithiformes Fürbringer, 1888, Brodavidae Martin, Kurochkin et Tokaryk, 2012, this is the type species of the new genus.

Brodavis baileyi [108]

Sp. nov.

Valid

Larry D. Martin

Evgeny N. Kurochkin

Tim T. Tokaryk

Late Cretaceous,

Maastrichtian

Hell Creek Formation

  USA:

  South Dakota

A Hesperornithiformes Fürbringer, 1888, Brodavidae Martin, Kurochkin et Tokaryk, 2012.

Brodavis mongoliensis [108]

Sp. nov.

Valid

Larry D. Martin

Evgeny N. Kurochkin

Tim T. Tokaryk

Late Cretaceous,

Maastrichtian

Nemegt Formation

  Mongolia

A Hesperornithiformes Fürbringer, 1888, Brodavidae Martin, Kurochkin et Tokaryk, 2012.

Certhia janossyi [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Late Miocene

MN 9

  Hungary

Originally described as a species of Certhia; Zelenkov (2017) transferred this species to a new genus Sylvosimadaravis within the superfamily Sylvioidea.[109]

Chenoanas deserta [110]

Gen. nov. et Sp. nov.

Valid

Nikita V. Zelenkov

Middle Miocene

Oshin Formation

  Mongolia

An Anatidae, this is the type species of the new genus.

Cinclus major [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Early Miocene

MN 5

  Hungary

A Cinclidae.

Circaetus rhodopensis [111]

Sp. nov.

Valid

Zlatozar Boev

Late Miocene

Tulorian = Late Meotian,

Late MN 11, ca. 7,5 Mya

  Bulgaria

An Accipitridae.

Crypturellus reai [112]

Sp. nov.

Valid

Robert M. Chandler

Miocene (Santacrucian)

Santa Cruz Formation

  Argentina

A Tinamidae.

?Elorius limosoides [106]

Sp. nov.

Valid

Vanessa L. De Pietri

Gerald Mayr

Early Miocene

Saint-Gérard-le-Puy,

MN 2a

  France

A Scolopacidae, possibly a species of Elorius.

Emberiza bartkoi [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Early Miocene

MN 5

  Hungary

An Emberizidae.

Eremarida xerophila [98]

Gen. nov. et Sp. nov.

Valid

Zlatozar Boev

Late Miocene

Gnilyane Formation

  Bulgaria

An Alaudidae, this is the type species of the new genus.

Eremophila prealpestris [98]

Sp. nov.

Valid

Zlatozar Boev

Late Pliocene

Middle Villafranchian,

MP 17, 2,23-2,40 Mya

  Bulgaria

An Alaudidae.

Erithacus horusitzkyi [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Middle Miocene

MN 7/8

  Hungary

A Muscicapidae, an Erithacus robin.

Galerida bulgarica [98]

Sp. nov.

Valid

Zlatozar Boev

Late Pliocene

Middle Villafranchian

  Bulgaria

An Alaudidae.

Galerida cserhatensis [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Early Miocene

MN 5

  Hungary

An Alaudidae.

Heteroanser vicinus [113]

Gen. nov. et Comb. nov.

Valid

Nikita V. Zelenkov

Late Miocene

Hyargas Nuur Formation

  Mongolia

An Anatidae a new genus for "Heterochen" vicinus Kurochkin, 1976.

Hirundo selengenica [114]

Sp. nov.

Valid

Nikita V. Zelenkov

Evgeny N. Kurochkin

Late Pliocene

Chikoi Formation

  Mongolia

A Hirundinidae.

Jeholornis palmapenis [115]

Sp. nov.

Valid

Jingmai K. O'Connor

Sun Chengkai

Xu Xing

Wang Xiaolin

Zhou Zhonghe

Early Aptian

Jiufotang Formation

  China

A Jeholornithidae Zhou et Zhang, 2006.

Kairuku grebneffi [116]

Sp. nov.

Valid

Daniel T. Ksepka

R. Ewan Fordyce

Tatsuro Ando

Craig M. Jones

Oligocene

Dutroonian

  New Zealand

A Spheniscidae.

Kairuku waitaki [116]

Gen. nov. et Sp. nov

Valid

Daniel T. Ksepka

R. Ewan Fordyce

Tatsuro Ando

Craig M. Jones

Oligocene

Late Whaingaroan or Early Duntroonian

  New Zealand

A Spheniscidae, the type species of the genus.

Lanius schreteri [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Middle Miocene

MN 7-8

  Hungary

A Laniidae.

Leptoptilos lüi [117]

Sp. nov.

Not valid

Zhang Zihui

Huang Yunping

Helen F. James

Hou Lianhai

Middle Pleistocene

Cave deposits

  China

A Ciconiidae, the name is not valid because of the "ü" in it, that must, of course be a plain "u".

Lullula balcanica [98]

Sp. nov.

Valid

Zlatozar Boev

Late Pliocene

Middle Villafranchian

  Bulgaria

An Alaudidae.

Lullula neogradensis [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Middle Miocene

MN 7/8

  Hungary

An Alaudidae.

Lullula slivnicensis [98]

Sp. nov.

Valid

Zlatozar Boev

Late Pliocene

Early Late Villafranchian,

MN 18

  Bulgaria

An Alaudidae, a relative of the woodlark.

Luscinia praeluscinia [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Early Miocene

MN 5

  Hungary

A Muscicapidae.

Lutetodontopteryx tethyensis [118]

Gen. nov. et Sp. nov.

Valid

Gerald Mayr

Evgenij Zvonok

Middle Eocene

Early Lutetian

  Ukraine

A Pelagornithidae, this is the type species of the new genus.

Melanocorypha donchevi [98]

Sp. nov.

Valid

Zlatozar Boev

Late Pliocene

Middle Villafranchian

  Bulgaria

An Alaudidae.

Melanocorypha serdicensis [98]

Sp. nov.

Valid

Zlatozar Boev

Late Miocene

Gnilyane Formation,

Middle Late Pontian

  Bulgaria

An Alaudidae.

Mioquerquedula minutissima [97]

Gen. nov. et Sp. nov.

Valid

Nikita V. Zelenkov

Evgeny N. Kurochkin

Middle Miocene, possibly also Late Miocene

Gobi-Altai Aimag,

Shargyn Govi,

Sharga location

  Mongolia

An Anatidae, this is the type species of the new genus, the new genus also contains "Anas" velox Milne-Edwards, 1868 as a Comb. nov. from France, Germany, Romania and ?Hungary.

Muscicapa leganyii [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Middle Miocene

MN 7/8

  Hungary

A Muscicapidae.

Otus mauli [119]

Sp. nov.

Valid

Carlos Rando

Harald Pieper

Josep A. Alcover

Storrs L. Olson

Quaternary

  Portugal:

  Madeira

A Strigidae.

?Parvelorius calidris [106]

Gen. nov. et Sp. nov.

Valid

Vanessa L. De Pietri

Gerald Mayr

Early Miocene

MN 2a

  France

A Scolopacidae, the new genus is erected for the species "Tringa" gracilis Milne-Edwards, 1868, the type species of the new genus and makes a Com. nov. with it; genus may also contain this new species.

Phylloscopus miocaenicus [101]

Sp. nov.

Valid

Jenö Kessler

János Hír

Middle Miocene

MN 6-8

  Hungary

A Phylloscopidae.

Picavus litencicensis [120]

Gen. nov. et Sp. nov.

Valid

Gerald Mayr

Růžena Gregorová

Early Oligocene

Menilite Formation

  Czech Republic

A stem group representative of the Piciformes, placed in a new family Picavidae Mayr et Gregorová, 2012. it is the type species of the new genus.

Pipilo naufragus [121]

Sp. nov.

Valid

Storrs L. Olson

David B. Wingate

Middle Pleistocene to Holocene

Cave deposits

  Bermuda

A Passerellidae, towhee.

Pliocalcarius orkhonensis[114]

Gen. nov. et Sp. nov

Valid

Nikita V. Zelenkov

Evgeny N. Kurochkin

Late Pliocene

Villafranchian,

Chikoi Formation,

MN 16a

  Mongolia

Initially considered to be a likely close relative of longspurs, Calcariidae, and made the type species of the new genus Pliocalcarius; Palastrova & Zelenkov (2020) reinterpreted this species as a lark and transferred it to the genus Eremophila.[122]

Praealauda hevesensis [98][101][102]

Gen. nov. et Sp. nov.

Valid

Jenö Kessler

János Hír

Middle Miocene

MN 7/8

  Hungary

An Alaudidae. The type species of the new genus.

Primophaps schoddei [123]

Gen. nov. et Sp. nov.

Valid

Trevor H. Worthy

Late Oligocene to early Miocene

Riversleigh

  Australia

  Queensland

A Columbidae related to the bronzewing pigeons. The type species of the new genus.

Pterocnemia mesopotamica [124]

Sp. nov.

Valid

Federico L. Agnolín

Jorge I. Noriega

Late Miocene

Ituzaingó Formation,

Huayquerian

  Argentina

A Rheidae. Transferred to the genus Rhea by Tambussi, Degrange & De Mendoza (2023).[125]

Rallicrex litkensis [126]

Sp. nov.

Valid

Jenö Kessler

János Hír

Early Miocene

MN 5

  Hungary

A Rallidae, a new species of Rallicrex Lambrecht, 1933, the type species is Rallicrex kolozsvarensis Lambrecht, 1933.

Rhodospiza shaamarica [114]

Sp. nov.

Valid

Nikita V. Zelenkov

Evgeny N. Kurochkin

Late Pliocene

Villafranchian,

Chikoi Formation,

MN 16a

  Mongolia
  Russia

Originally described as a species of Rhodospiza; Palastrova & Zelenkov (2020) transferred it to the genus Emberiza.[127]

Sanshuiornis zhangi [128]

Gen. nov. et Sp. nov.

Valid

Wang Min

Gerald Mayr

Zhang Jiangyong

Zhou Zhonghe

Middle Eocene

Huayong Formation

  China

A Ciconiiformes Incertae Sedis.

Schizooura lii [129]

Gen. nov. et Sp. nov

Valid

Zhou Shuang

Zhou Zhonghe

Jingmai K. O'Connor

Aptian

Jiufotang Formation

  China

A basal Ornithuromorpha. The type species of the new genus.

Scolopacimilis lartetianus [106]

Gen. nov. et Comb. nov.

Valid

Vanessa L. De Pietri

Mayr

Early Miocene

MN 2a

  France

A Scolopacidae, a new genus for the species "Totanus" lartetianus, the type species of the genus, creating a Comb. nov.

Shengjingornis yangi [130]

Gen. nov et Sp. nov.

Valid

Li Li

Wang Jinqi

Zhang Xi

Hou Shilin

Early Cretaceous

Jiufotang Formation

  China

A Longipterygidae Zhang, Zhou, Hou L. H. et Gu, 2000, Enantiornithes Walker, 1981. The type species of the new genus.

Songzia acutunguis [131]

Sp. nov.

Valid

Wang Min

Gerald Mayr

Zhang Jiangyong

Zhou Zhonghe

Early Eocene

Yangxi Formation

  China

A Songziidae Hou, 1990, Gruiformes. The type species is Songzia heidangkouensis Hou, 1990.

Sturnus kretzoii [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Late Miocene

MN 9

  Hungary

A Sturnidae.

Tadorna minor [126]

Sp. nov.

Valid

Jenö Kessler

János Hír

Miocene

MN 7/8

  Hungary

An Anatidae.

Turdicus minor [101][102]

Sp. nov.

Valid

Jenö Kessler

János Hír

Early to Middle Miocene

  Hungary

A Turdidae.

Tydea septentrionalis [132]

Gen. nov. et Sp. nov.

Valid

Gerald Mayr

Thierry Smith

Early Oligocene

Rupelian

  Belgium:

  Antwerp

A Diomedeidae. The type species of the new genus.

Xiangornis shenmi [133]

Gen. nov. et Sp. nov.

Valid

Hu Dongyu

Xu Xing

Hou Lianhai

Corwin Sullivan

Early Cretaceous

Jiufotang Formation

  China

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

Pterosaurs

edit

Research

edit
  • A study on the bone histology of Rhamphorhynchus and its implications for inferring life history of members of the genus is published by Prondvai et al. (2012).[134]

New taxa

edit
Name Novelty Status Authors Age Unit Location Notes Images

Aerotitan[135]

Gen. et sp. nov

Valid

Novas et al.

Late Cretaceous

  Argentina

An azhdarchid. The type species is Aerotitan sudamericanus.

Bellubrunnus[136]

Gen. et sp. nov

Valid

Hone et al.

Late Kimmeridgian

Pfraundorf-Heitzenhofen Basin

  Germany

A rhamphorhynchid. The type species is Bellubrunnus rothgaengeri.

 

Dendrorhynchoides mutoudengensis[137]

Sp. nov

Valid

& Hone

Middle Jurassic

Tiaojishan Formation

  China

An anurognathid. Originally described as a species of Dendrorhynchoides, but subsequently transferred to the separate genus Luopterus.[138]

Europejara[139]

Gen. et sp. nov

Valid

Vullo et al.

Upper Barremian

La Huérguina Formation

  Spain

A tapejarid. The type species is Europejara olcadesorum.

 

Gladocephaloideus[140]

Gen. et sp. nov

Valid

, Ji, Wei, & Liu

Barremian

Yixian Formation

  China

A ctenochasmatid ctenochasmatoid.

 

Guidraco[141]

Gen. et sp. nov

Valid

Wang, Kellner, Jiang, & Cheng

Early Cretaceous

Jiufotang Formation

  China

A close relative of Ludodactylus. The type species is Guidraco venator.

 

Jianchangnathus[142]

Gen. et sp. nov

Valid

Cheng, Wang, Jiang, & Kellner

Middle Jurassic

Tiaojishan Formation

  China

A scaphognathid.

 

Moganopterus[143]

Gen. et sp. nov

Valid

et al.

Early Cretaceous

Yixian Formation

  China

A boreopterid. The type species is Moganopterus zhuiana.

Qinglongopterus[144]

Gen. et sp.

Valid

Lü, Unwin, Zhao, Gao & Shen.

Middle Jurassic

Tiaojishan Formation

  China

A rhamphorhynchid.

Newly named archosaurs with uncertain affinities

edit
Name Novelty Status Authors Age Unit Location Notes Images

Samrukia[145]

Gen. et sp. nov

Valid

Naish, Dyke, Cau, Escuillié, Godefroit

Late Cretaceous

Kyzylorda District

  Kazakhstan

A possible basal ornithuromorph;[145] alternatively, it could be a large pterosaur.[146][147]

Smok[148]

Gen. et sp. nov

Valid

Niedźwiedzki, Sulej & Dzik

Latest Norian/Early Rhaetian

Lipie Śląskie clay-pit

  Poland

A large predatory archosaur of uncertain phylogenetic placement, the largest known predatory archosaur from the Late Triassic and Early Jurassic of central Europe.

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edit
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