2021 in paleontology

List of years in paleontology (table)
In paleobotany
2018
2019
2020
2021
2022
2023
2024
In arthropod paleontology
2018
2019
2020
2021
2022
2023
2024
In paleoentomology
2018
2019
2020
2021
2022
2023
2024
In paleomalacology
2018
2019
2020
2021
2022
2023
2024
In reptile paleontology
2018
2019
2020
2021
2022
2023
2024
In archosaur paleontology
2018
2019
2020
2021
2022
2023
2024
In mammal paleontology
2018
2019
2020
2021
2022
2023
2024
In paleoichthyology
2018
2019
2020
2021
2022
2023
2024

Paleontology or palaeontology is the study of prehistoric life forms on Earth through the examination of plant and animal fossils. This includes the study of body fossils, tracks (ichnites), burrows, cast-off parts, fossilised feces (coprolites), palynomorphs and chemical residues. Because humans have encountered fossils for millennia, paleontology has a long history both before and after becoming formalized as a science. This article records significant discoveries and events related to paleontology that occurred or were published in the year 2021.

Flora

Plants

Fungi

New taxa

Name Novelty Status Authors Age Type locality Location Notes Images

Allocordyceps

Gen. et sp. nov

In press

Poinar & Maltier

Eocene

Baltic amber

Europe (Baltic Sea region)

A fungus belonging to the group Hypocreales and the family Clavicipitaceae. Genus includes new species A. baltica.

Bleximothyrium

Gen. et sp. nov

Valid

Le Renard et al.

Early Cretaceous (Aptian)

Potomac Group

 United States
( Virginia)

A dothideomycete fly-speck fungus. Type species B. ostiolatum.

Chaenothecopsis polissica

Sp. nov

Valid

Heluta & Sukhomlyn in Sukhomlyn et al.

Late Eocene

Rovno amber

 Ukraine

A species of Chaenothecopsis.

Columnomyces electri

Sp. nov

Valid

Haelewaters & Perreau in Perreau, Haelewaters & Tafforeau

Miocene

Dominican amber

 Dominican Republic

A laboulbeniale fungus,
parasitic on the beetle Proptomaphaginus alleni.

Glomites oqoti

Sp. nov

In press

Lalica & Tomescu

Devonian (Emsian)

Battery Point Formation

 Canada
( Quebec)

Spores with affinities to the Glomeromycotina.

Meliolinites scanicus

Sp. nov

In press

McLoughlin et al.

Late Cretaceous (Santonian–early Campanian)

 Sweden

A member of the family Meliolaceae.

Nyssopsora eocaenica

Sp. nov

Valid

Tykhonenko & Hayova in Tykhonenko et al.

Middle Eocene

Naibuchi Formation
(Sakhalinian amber)

 Russia
( Sakhalin Oblast)

A member of Pucciniales.

Rhizophydites

Gen. et sp. nov

Valid

Krings, Serbet & Harper

Early Devonian

Rhynie chert

 United Kingdom

A Chytridiomycotan fungus. Type species R. matryoshkae.

Stomatothyrium

Gen. et sp. nov

Valid

Le Renard et al.

Early Cretaceous (Aptian)

Potomac Group

 United States
( Virginia)

A member of Dothideomycetes. Genus includes new species S. placocentrum.

Stomiopeltites ivoeensis

Sp. nov

In press

McLoughlin et al.

Late Cretaceous (Santonian–early Campanian)

 Sweden

A member of the family Micropeltidaceae.

Yongnicta

Gen. et sp. nov

In press

Tobias & Maslova in Xu et al.

Late Oligocene

Yongning Formation

 China

A member of Ascomycota described on the basis of fungal fruiting bodies preserved on fossil tupelo endocarps. Genus includes new species Y. nyssae.

Research

  • Exceptionally preserved specimens of Tawuia, providing new information on the anatomy of this organism, are described from the Tonian Liulaobei and Shiwangzhuang formations (China) by Tang et al. (2021), who interpret Tawuia as a coenocytic eukaryote, possibly a macroalga.
  • Microfossils which may represent early terrestrial fungi are described from the Ediacaran Doushantuo Formation (China) by Gan et al. (2021).
  • A Rhynie chert fossil Mycokidstonia sphaerialoides, originally interpreted as an ascomycete, is reclassified as a member of Glomeromycota belonging to the family Ambisporaceae by Walker et al. (2021).
  • Carboniferous organism Oochytrium lepidodendri, originally classified as a fungus, is reinterpreted as an oomycete by Strullu-Derrien et al. (2021).
  • Probable fossils of multicellular eukaryotic macroalgae (possibly with a green algal affinity) are described from the Tonian Dolores Creek Formation in the Wernecke Mountains (Canada) by Maloney et al. (2021), who interpret these fossils as likely to be some of the few green algae and some of the largest macroscopic eukaryotes yet recognized in the early Neoproterozoic, indicating that eukaryotic algae colonized marine environments by the early Neoproterozoic.
  • Fossil material of macroalgae, providing information on the early evolution of holdfast morphologies and attachment strategies of benthic macroalgae, is described from the Ediacaran Lantian biota and Miaohe biota (China) by Wang et al. (2021).

Cnidarians

New taxa

Name Novelty Status Authors Age Type locality Country Notes Images

Agastophyllum parvum

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Ankhelasma canadense

Sp. nov

In press

Chwieduk

Carboniferous (Viséan)

Flett Formation

 Canada

A rugose coral belonging to the group Stauriida and the family Zaphrentoididae.

Apocladophyllia guigouensis

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Cladophylliidae.

Apoplacophyllia asiatica

Sp. nov

Valid

Baron-Szabo

Early Cretaceous (Albian)

Langshan Formation

 China

A stony coral belonging to the family Heterocoeniidae.

Axosmilia amellagouensis

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Axosmiliidae.

Balkhanomeandra

Gen. et sp. nov

Valid

Bugrova

Early Cretaceous

 Azerbaijan
 Turkmenistan

A stony coral belonging to the family Latomeandridae. The type species is B. roniewiczae.

Calcariastraea

Gen. et comb. nov

Valid

McLean & Wright

Devonian

 Australia

A rugose coral. The type species is "Phillipsastrea" currani Etheridge; genus also includes "P." speciosa Chapman, "P." maculosa Hill, "P." linearis Hill and "P." oculoides Hill.

Cantabriastraea orourkei

Sp. nov

Valid

McLean & Wright

A rugose coral.

Catenatus

Gen. et sp. nov

Valid

Carrera et al.

Ordovician (FloianDarriwilian)

San Juan Formation

 Argentina

A member of Octocorallia, possibly belonging to the group Alcyonacea. The type species is C. argentinus.

Cladochonus nagatoensis

Sp. nov

Valid

Niko

Early Carboniferous

 Japan

A tabulate coral.

Columnocoenia falkenbergensis

Sp. nov

Valid

Baron-Szabo

Early Cretaceous (Aptian)

Schrattenkalk Formation

 Germany
 Romania

A stony coral.

Confusaforma prima

Sp. nov

Valid

Löser in Löser et al.

Early Cretaceous (Valanginian)

Sierra del Pozo Formation

 Spain

A coral belonging to the family Solenocoeniidae.

Cordilleria

Gen. et comb. nov

Valid

Fedorowski, Bamber & Richards

Carboniferous (Mississippian)

Lower Rundle Group

 Canada
 United States

A rugose coral belonging to the group Stauriida and the family Lithostrotionidae. The type species is "Diphyphyllum" mutabile Kelly (1942); genus also includes "Lithostrotion" flexuosum Warren (1927), "Lithostrotion (Siphonodendron)" warreni Nelson (1960) and "Lithostrotion (Siphonodendron)" oculinum Sando (1963).

Coryphyllia bicuneiformis

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Coryphylliidae.

Coryphyllia capillaria

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 France
 Morocco

A stony coral belonging to the family Coryphylliidae.

Crebriphyllum

Gen. et comb. et 3 sp. nov

Valid

McLean & Wright

Devonian

 Australia

A rugose coral. The type species is "Phillipsastrea" callosa Hill; genus also includes new species C. duni, C. jelli and C. struszi.

Cyathoclisia sukhensis

Sp. nov

Valid

Ohar & Denayer

Carboniferous (Viséan)

 Ukraine

A rugose coral belonging to the family Aulophyllidae.

Cystiphylloides calnanense

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Cystiphylloides tetsaense

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Cystiplasma curraense

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Decimoconularia

Gen. et sp. nov

Valid

Guo et al.

Cambrian Stage 2

Yanjiahe Formation

 China

A hexangulaconulariid. Genus includes new species D. isofacialis.

Digonophyllum clarkense

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Distichophyllia pauciseptata

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Reimaniphylliidae.

Ekvasophyllum variabilis

Sp. nov

In press

Chwieduk

Carboniferous (Viséan)

Flett Formation

 Canada

A rugose coral belonging to the group Stauriida and the family Ekvasophyllidae.

Eopreverastrea

Gen. et sp. nov

Valid

Löser in Löser et al.

Early Cretaceous (Valanginian)

Sierra del Pozo Formation

 Spain

A coral belonging to the family Aulastraeoporidae. The type species is E. llanoensis.

Epismiliopsis paraeudesi

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Stylophyllidae.

Favia misakiensis

Sp. nov

Valid

Niko & Suzuki

Miocene

Katsuta Group

 Japan

A species of Favia.

Floriastrea iberica

Sp. nov

Valid

Löser in Löser et al.

Early Cretaceous (Valanginian)

Sierra del Pozo Formation

 Spain

A coral belonging to the family Actinastreidae.

Fungiaphyllia praecursor

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Deltocyathiidae.

Fungiaphyllia rotunda

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Deltocyathiidae.

Gyrosmilia maltensis

Sp. nov

Valid

Saint Martin et al.

Oligocene (Chattian)

Lower Coralline Limestone

 Malta

A species of Gyrosmilia.

Julfamichelinia

Gen. et comb. nov

Valid

Niko & Badpa

Permian (Wuchiapingian)

Dzhulfa Formation

 Armenia
 Azerbaijan
 Iran
 Afghanistan?

A tabulate coral belonging to the family Micheliniidae. The type species is "Michelinopora" allata Tchudinova in Ruzhentsev & Sarycheva (1965).

Kluaphyllum

Gen. et sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae. Genus includes new species K. sulcatum.

Lekanophyllum nordlingense

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Lekanophyllum robbense

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Loboplasma sutchersense

Sp. nov

Valid

McLean & Wright in McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Margarosmilia dividenda

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Margarophylliidae.

Microplasma fromense

Sp. nov

Valid

McLean & Wright in McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Microplasma hedingeri

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Microplasma nabeschense

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Miophora naxxarensis

Sp. nov

Valid

Saint Martin et al.

Oligocene (Chattian)

Lower Coralline Limestone

 Malta

A stony coral.

Monopachyphyllia

Gen. et sp. nov

Valid

Kołodziej & Marian

Early Cretaceous (Aptian)

 Romania

A colonial coral belonging to the group Pachythecaliina, possibly belonging to the superfamily Heterocoenioidea and the family Carolastraeidae. Genus includes new species M. roniewiczae.

Nailiana

Gen. et sp. nov

Valid

Ou & Shu in Ou et al.

Cambrian Stage 3

Heilinpu Formation

 China

An early anthozoan. The type species is N. elegans.

Nardophyllum cavanense

Sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Nerthastraea maltensis

Sp. nov

Valid

Saint Martin et al.

Oligocene (Chattian)

Lower Coralline Limestone

 Malta

A stony coral.

Ogmophylloides

Gen. et sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae. Genus includes new species O. taylori.

Palaeodiphasia

Gen et comb. nov

Valid

Song et al.

Late Cambrian

Fengshan Formation

 China

A member of Leptothecata belonging to the group Macrocolonia; a new genus for "Siberiograptus" simplex Lin (1985).

Paraconularia abagaensis

Sp. nov

In press

Min et al.

Permian

 China

A conulariid.

Paravolzeia calabrensis

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Italy

A stony coral belonging to the family Protoheterastraeidae.

Phacelostylophyllum arbustulum

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 France

A stony coral belonging to the family Stylophyllidae.

Phillipsastrea chapmani

Sp. nov

Valid

McLean & Wright

Devonian (Pragian)

 Australia

A rugose coral.

Phillipsastrea mcraeorum

Sp. nov

Valid

McLean & Wright

A rugose coral.

Phillipsastrea pedderi

Sp. nov

Valid

McLean & Wright

A rugose coral.

Podosmilia

Gen. et sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 France
 Morocco

A stony coral belonging to the family Stylophyllidae. The type species is P. horologium.

Prismastrea

Gen. et sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Thecosmiliidae. The type species is P. organum.

Proleptophyllia calix

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Dermosmiliidae.

Proleptophyllia magna

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Dermosmiliidae.

Proleptophyllia subphaceloida

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Dermosmiliidae.

Retiophyllia zizensis

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Reimaniphylliidae.

Siderohelia

Gen. et sp. nov

Valid

Löser in Löser et al.

Cretaceous (Hauterivian to Santonian)

 Spain

A stony coral belonging to the family Rhizangiidae. The type species is S. aquilai.

Spongiocoenia

Gen. et comb. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Sinemurian-Pliensbachian)

 Spain

A stony coral of uncertain affinities. The type species is "Coccophyllum" liasicum Turnšek & Geyer in Turnšek, Seyfried & Geyer (1975).

Stylophyllopsis bovista

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 France

A stony coral belonging to the family Stylophyllidae.

Stylophyllopsis veracolumella

Sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 France

A stony coral belonging to the family Stylophyllidae.

Sutherlandia khachikensis

Sp. nov

Valid

Niko & Badpa

Permian (Capitanian)

Khachik Formation

 Iran

A tabulate coral belonging to the family Favositidae.

Trigerastraea sikharulidzeae

Sp. nov

Valid

Baron-Szabo

Early Cretaceous (Albian)

 France

A stony coral belonging to the family Latomeandridae.

Tropalicystis

Gen. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae.

Tubulosmilia

Gen. et sp. nov

Valid

Vasseur & Lathuilière

Early Jurassic (Pliensbachian)

 Morocco

A stony coral belonging to the family Stylophyllidae. The type species is T. regularis.

Variocystis

Gen. et sp. nov

Valid

McLean

Devonian

A rugose coral belonging to family Cystiphyllidae. Genus includes new species V. caribouensis.

Research

  • Anatomical evidence indicative of a close relationship between cloudinids and Cambrian animals with cnidarian affinities: Cambroctoconus, Lipopora and Tretocylichne is published by Park et al. (2021).
  • A study on the morphology, embryonic development and phylogenetic relationships of Quadrapyrgites is published by Zhao et al. (2021), who interpret this taxon and its probable relative Olivooides as more likely to be diploblastic cnidarians than triploblastic cycloneuralians.
  • An exceptionally preserved conulariid specimen, keeping its aperture semi-closed and making it possible to see most of the internal part of the closure with rib continuation inwards, is described from the Ordovician of southeastern Brandenburg (Germany) by Sendino & Bochmann (2021).
  • Revision of Palaenigma wrangeli is published by Kröger et al. (2021), who argue that this organism can be best interpreted as a conulariid, and name a new family Palaenigmaidae.
  • A study on the earliest growth stages and branching process in specimens of Oligophylloides from the Devonian (Famennian) of Morocco, and on the implications of these specimens for the knowledge of the phylogenetic relationships of Heterocorallia, is published by Berkowski et al. (2021).

Arthropods

Bryozoans

New taxa

Name Novelty Status Authors Age Type locality Location Notes Images

Acoscinopleura beniamovski

Sp. nov

Valid

Koromyslova, Taylor & Pakhnevich

Late Cretaceous (Maastrichtian)

 Kazakhstan

A cheilostome bryozoan.

Antropora guajirensis

Sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A species of Antropora.

Atoichos

Gen. et sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A member of the family Onychocellidae. The type species is A. magnus.

Calpensia caribensis

Sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A member of the family Microporidae.

Conopeum flumineum

Sp. nov

Valid

Taylor & Rogers

Late Cretaceous (Campanian)

Judith River Formation

 United States
( Montana)

A species of Conopeum.

Cribrilaria multicostata

Sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A member of the family Cribrilinidae.

Cribrilaria nixor

Sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A member of the family Cribrilinidae.

Cycloavicularia

Gen. et sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A member of the family Teuchoporidae. The type species C. parva.

Ditaxiporina colombiana

Sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A member of the family Catenicellidae.

Escharifora? invisibilia

Sp. nov

Valid

Koromyslova, Taylor & Pakhnevich

Late Cretaceous (Maastrichtian)

 Kazakhstan

A cheilostome bryozoan.

Figularia bragai

Sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

Figularia elcanoi

Sp. nov

Valid

López-Gappa et al.

Early Miocene

 Argentina

A member of Cheilostomatida.

Gymnophorella

Gen. et sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A member of the family Steginoporellidae. The type species is G. hadra.

Jolietina victoria

Sp. nov

Valid

López-Gappa et al.

Early Miocene

 Argentina

A member of Cheilostomatida.

Parafigularia pigafettai

Sp. nov

Valid

López-Gappa et al.

Early Miocene

 Argentina

A member of Cheilostomatida.

Poricella paulae

Sp. nov

Valid

Flórez, Di Martino & Ramalho

Early Miocene

Siamaná Formation

 Colombia

A member of the family Arachnopusiidae.

Research

  • Protomelission gatehousei is reinterpreted as a potential stem-group bryozoan by Zhang et al. (2021).
  • A study on the evolutionary history of cyclostome and cheilostome bryozoans over the past 150 million years, focusing on causes of cheilostome taxonomic richness surpassing the richness of once dominant cyclostomes, is published by Lidgard et al. (2021).

Brachiopods

New taxa

Name Novelty Status Authors Age Type locality Location Notes Images

?Becscia pentagona

Sp. nov

Valid

Baarli

Solvik Formation

 Norway

Bellistrophia askarensis

Sp. nov

Valid

Popov & Nikitina in Popov et al.

Cambrian (Wuliuan)

Athei Formation

 Kazakhstan

A kutorginide brachiopod.

Carinagypa robecki

Sp. nov

Valid

Blodgett et al.

Devonian (Emsian)

 United States
( Alaska)

A member of Pentamerida belonging to the family Gypidulidae.

Crinisarina pseudoglobularis

Sp. nov

Valid

Serobyan et al.

Devonian (Famennian)

 Armenia

An athyride brachiopod.

Eisaella

Gen. et sp. nov

Valid

Baarli

Solvik Formation

 Norway

Genus includes new species E. uniplicata.

Eoconulus tucunucoensis

Sp. nov

Valid

Lavié, Mestre & Carrera

Ordovician

San Juan Formation

 Argentina

An acrotretid brachiopod.

Ferronirhynchia

Gen. et sp. nov

Valid

García-Alcalde

Devonian (Emsian)

Moniello Formation

 Spain

A member of Rhynchonellida belonging to the family Trigonirhynchiidae. The type species is F. pulgari.

Kermanirhyncha

Gen. et sp. nov

Valid

Popov et al.

Silurian (Aeronian)

Shabdjereh Formation

 Iran

A rhynchonellide brachiopod. Genus includes new species K. granulata.

Levanispirifer

Gen. et sp. nov

Valid

Popov et al.

Silurian (Aeronian)

Shabdjereh Formation

 Iran

A spiriferide brachiopod. Genus includes new species L. alatus.

Longtancunella xiazhuangensis

Sp. nov

In press

Wang et al.

Cambrian Stage 3

Hongjingshao Formation

 China

Luthieria

Gen. et sp. nov

Valid

Lavié, Mestre & Carrera

Ordovician

San Juan Formation

 Argentina

An obolid brachiopod. Genus includes new species L. diminuta.

Mictospirifer obtusus

Sp. nov

Valid

Popov et al.

Silurian (Aeronian)

Shabdjereh Formation

 Iran

A spiriferide brachiopod.

Orbiculoidea verum

Sp. nov

Valid

Masunaga & Shiino

Middle Permian

Hoso-o Formation

 Japan

Paterula (?) vasilievae

Sp. nov

Valid

Smirnova & Zhegallo

Devonian (Frasnian)

 Russia

A member of Linguloidea belonging to the family Paterulidae.

Psiloria karasuensis

Sp. nov

Valid

Popov & Nikitina in Popov et al.

Cambrian (Wuliuan)

Athei Formation

 Kazakhstan

A protorthide brachiopod.

Schellwienella clarkei

Sp. nov

Valid

Rezende & Isaacson

Devonian

Ponta Grossa Formation

 Brazil

A member of Orthotetida.

Sepkoskirhynchia

Gen. et sp. nov

In press

Radulović

Early Jurassic (Pliensbachian)

 Montenegro

A rhynchonellide brachiopod belonging to the family Basiliolidae. Genus includes new species S. sphaerica.

Shelvothyris bivittata

Sp. nov

Valid

Baarli

Solvik Formation

 Norway

Thulatrypa huangi

Sp. nov

Valid

Baarli

Solvik Formation

 Norway

Thulatrypa vikenensis

Sp. nov

Valid

Baarli

Solvik Formation

 Norway

Xanastur

Nom. nov

Valid

García-Alcalde

Early Devonian

 Spain

A terebratulid brachiopod; a replacement name for Xana García-Alcalde (1972).

Xinjiangiproductus? junggarensis

Sp. nov

In press

Guo, Chen & Liao

Early Carboniferous

Hongshanzui Formation

 China

Research

  • Revision and a study on the biogeography of brachiopod faunas from the Early Ordovician Mediterranean Province is published by Cocks & Popov (2021).
  • A study on the evolution of the strophomenoid brachiopods, aiming to determine whether environmental changes at the time of the Great Ordovician Biodiversification Event correlated with the diversification of this group, is published by Congreve, Patzkowsky & Wagner (2021).
  • A study on the selectivity of extinction of rhynchonelliform brachiopods from the Appalachian Foreland Basin during the two pulses of the Frasnian–Famennian mass extinction, aiming to determine the primary kill mechanism in this fauna, is published by Pier et al. (2021).
  • A study on the phylogenetic relationships and evolutionary history of late Permian and Triassic rhynchonellides is published by Guo et al. (2021).

Molluscs

Echinoderms

New taxa

Name Novelty Status Authors Age Type locality Country Notes Images

Amphoracrinus tenax

Sp. nov

Valid

Ausich et al.

Carboniferous (Viséan)

Borden Formation

 United States
( Kentucky)

A monobathrid camerate belonging to the family Amphoracrinidae.

Archiacia ramitaensis

Sp. nov

Valid

Néraudeau & Mouty

Late Cretaceous (Cenomanian)

 Syria

A sea urchin belonging to the family Archiaciidae.

Barbaraster

Gen. et 2 sp. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Toarcian)

Posidonia Shale

 Luxembourg

A brittle star belonging to the group Ophiurida. The type species is B. colbachi; genus also includes B. muenzbergerae.

Boxaster

Gen. et sp. nov

In press

Loba & Radwańska

Late Jurassic (Kimmeridgian)

 Poland

A starfish belonging to the group Paxillosida, possibly a member of the family Astropectinidae. The type species is B. wapienensis.

Bulbosphaeraster

Gen. et sp. nov

Valid

Gale

Middle Jurassic (Bathonian)

 France

A starfish belonging to the family Sphaerasteridae. The type species is B. valettei.

Calvaticrinus

Gen. et comb. nov

In press

Gale & Matrion

Early Cretaceous (Albian)

 France
 United Kingdom

A microcrinoid belonging to the family Roveacrinidae. The type species is "Plotocrinus" monocarinatus Destombes (1984); genus also includes C. subplanatus (Destombes, 1984) and "Discocrinus integer Hess (2010).

Cantabrigiaster

Gen. et sp. nov

Disputed

Hunter & Ortega-Hernández

Early Ordovician

Fezouata Formation

 Morocco

A somasteroid asterozoan. The type species is C. fezouataensis. Blake & Hotchkiss (2022) considered Cantabrigiaster to be a junior synonym of the chinianasterid genus Villebrunaster, though the authors maintained C. fezouataensis as a distinct species within the latter genus.

Cherbonniericrinus requiensis

Sp. nov

Valid

Roux, Martinez & Vizcaïno

Eocene (Ypresian)

 France

A crinoid belonging to the family Rhizocrinidae.

Chomataster breizh

Sp. nov

Valid

Jagt et al.

Late Cretaceous (Campanian)

Spiennes Chalk Formation

 Belgium

A starfish belonging to the family Goniasteridae.

Chrispaulia spinosa

Sp. nov

Valid

Gale & Wesener

Early Cretaceous (Hauterivian)

Tealby Clay

 Germany
 United Kingdom

A starfish belonging to the family Goniopectinidae.

Chrispaulia wrightorum

Sp. nov

Valid

Gale & Wesener

Early Cretaceous (Albian)

Hunstanton Formation

 United Kingdom

A starfish belonging to the family Goniopectinidae.

Costatocrinus fragilis

Sp. nov

In press

Gale

Late Cretaceous (Campanian)

 United Kingdom

A crinoid.

Dermacantha reolidi

Sp. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Toarcian)

Posidonia Shale

 Luxembourg

A brittle star belonging to the family Ophionereididae.

Douglasicrinus

Gen. et sp. nov

In press

Gale

Late Cretaceous (Campanian)

 United Kingdom

A crinoid. Genus includes new species D. alumensis.

Echinosphaeraster

Gen. et comb. nov

Valid

Gale

Late Jurassic (Kimmeridgian)

 Germany
  Switzerland

A starfish belonging to the family Sphaerasteridae. The type species is "Asterias" scutatus Goldfuss (1833).

Eosphaeraster

Gen. et sp. nov

Valid

Gale

Early Jurassic (Pliensbachian)

 Morocco

A starfish belonging to the family Sphaerasteridae. The type species is E. amellagensis.

Gastecrinus

Gen. et sp. nov

Valid

Roux & Philippe

Early Miocene

 France

A stalked crinoid of uncertain phylogenetic placement. Genus includes new species G. vinealis.

Gennaeocrinus tariatensis

Sp. nov

Valid

Waters & Ausich

Devonian (Emsian)

Tariat Formation

 Mongolia

A monobathrid crinoid.

Globator aegyptiaca

Sp. nov

In press

El Qot

Early Cretaceous (Albian)

 Egypt

A sea urchin.

Globulocrinus

Gen. et sp. nov

Valid

Roux, Martinez & Vizcaïno

Eocene (Ypresian)

 France

A crinoid belonging to the family Rhizocrinidae. Genus includes new species G. amphoraformis.

Halocrinites heinorum

Sp. nov

Valid

Bohatý & Ausich

Devonian (EifelianGivetian)

 Germany

A crinoid belonging to the group Eucladida.

Hessicrinus vectensis

Sp. nov

In press

Gale

Late Cretaceous (Campanian)

 United Kingdom

A crinoid.

Holopus plaziati

Sp. nov

Valid

Roux, Martinez & Vizcaïno

Eocene (Ypresian)

 France

A crinoid belonging to the family Holopodidae.

Hrabalicrinus

Gen. et sp. nov

Valid

Salamon & Płachno

Late Jurassic (Oxfordian)

 Czech Republic

A comatulid crinoid. Genus includes new species H. zitti.

Ikerus

Gen. et sp. nov

Valid

Jell & Sprinkle

Cambrian

Thorntonia Limestone

 Australia

An edrioblastoid. Genus includes new species I. edgari

Imagdacrinus

Gen. et sp. et comb. nov

Valid

Rozhnov

Silurian

 Russia

A myelodactylid disparid crinoid. Genus includes new species I. minutus, as well as "Myelodactylus" flexibilis Stukalina (1982) and "Myelodactylus" rimatus Stukalina (2000).

Inexpectacantha ullmanni

Sp. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Toarcian)

Posidonia Shale

 Luxembourg

A brittle star belonging to the group Euryophiurida.

Jurapecten dhondtae

Sp. nov

Valid

Gale & Wesener

Late Cretaceous (Maastrichtian)

Maastricht Formation

 Belgium

A starfish belonging to the family Benthopectinidae.

Jurapecten infrajurensis

Sp. nov

Valid

Gale & Wesener

Jurassic (ToarcianAalenian)

 France
 Germany

A starfish belonging to the family Benthopectinidae.

Kholokholnyacrinus

Gen. et sp. nov

Valid

Mirantsev

Carboniferous (Pennsylvanian)

Smedva Formation

 Russia
( Tver Oblast)

A cladid crinoid. Genus includes new species K. ilkhovskyi.

Kunmingeocrinus

Gen. et sp. nov

In press

Zhao et al.

Cambrian Stage 4

 China

A gogiid eocrinoid. Genus includes new species K. cupuliformis.

Lapidaster hougardae

Sp. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Toarcian)

Posidonia Shale

 Luxembourg

A brittle star belonging to the group Ophioscolecida and the family Ophioscolecidae.

Mooreocrinus liaoi

Sp. nov

In press

Mao & Li in Mao et al.

Carboniferous (Pennsylvanian)

Outangdi Formation

 China

A cladid crinoid.

Nafarroina

Gen. et sp. nov

Valid

Forner i Valls, Arbilla Karasatorre & Moreno Alcalde

Late Cretaceous (Coniacian)

 Spain

A sea urchin belonging to the group Holasteroida and the family Stegasteridae. The type species is N. singularis.

Nymphaster mudzborgh

Sp. nov

Valid

Jagt et al.

Late Cretaceous (Campanian)

 Germany

A starfish belonging to the family Goniasteridae, a species of Nymphaster.

Ophioduplantiera

Gen. et sp. nov

Valid

Thuy, Numberger-Thuy & Pineda-Enríquez

Early Jurassic (Sinemurian to Pliensbachian)

Adnet Formation

 Austria

A brittle star belonging to the family Ophiuridae. The type species is O. noctiluca.

Ophiogojira

Gen. et 3 sp. nov

Valid

Thuy, Numberger-Thuy & Pineda-Enríquez

Early Jurassic (Pliensbachian to Toarcian)

Aubange Formation

 France
 Luxembourg

A brittle star belonging to the group Ophiurina. The type species is O. labadiei Thuy, Numberger-Thuy & Pineda-Enríquez; genus also includes new species O. andreui Thuy, Numberger-Thuy & Pineda-Enríquez and O. aliorbis Thuy & Numberger-Thuy.

Ophiomisidium pratchettae

Sp. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Toarcian)

Posidonia Shale

 Luxembourg

A brittle star belonging to the group Ophiurida and the family Astrophiuridae.

Ophiomusa perezi

Sp. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Toarcian)

Posidonia Shale

 Luxembourg

A brittle star belonging to the group Ophiurida and the family Ophiomusaidae.

Ophiosuperstes

Gen. et sp. nov

Valid

Thuy, Maxwell & Pruss

Early Triassic

Moenkopi Formation

 United States
( Nevada)

A brittle star belonging to the group Ophintegrida. The type species is O. praeparvus.

Ophiotardis

Gen. et sp. et comb. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Sinemurian-Toarcian)

 Luxembourg  United Kingdom  France?  Germany?

A brittle star belonging to the group Ophiurida and the family Ophiopyrgidae. The type species is O. tennanti; genus also includes "Ophiura" astonensis Hess (1964).

Palaeocoma kortei

Sp. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Toarcian)

Posidonia Shale

 Luxembourg

A brittle star belonging to the group Ophiurida and the family Ophiopyrgidae.

Papacrinus

Gen. et sp. nov

Valid

Roux & Philippe

Early Miocene

 France

A stalked crinoid belonging to the family Balanocrininae. Genus includes new species P. avignonensis.

Paraconocrinus rhodanicus

Sp. nov

Valid

Roux & Philippe

Early Miocene

 France

A stalked crinoid belonging to the family Rhizocrinidae.

Perikefalea

Gen. et 2 sp. nov

Valid

Lefebvre & Ausich

Silurian?-Devonian

Santa Rosa Formation

 Bolivia
 Canada?

A mitrate. Genus includes new species P. racheboeufi and possibly P? cybeleae

Pouzaster

Gen. et sp. nov

Valid

Gale

Jurassic (Toarcian to Bathonian)

 France

A starfish belonging to the family Sphaerasteridae. The type species is P. pocknotata.

Pseudobystrowicrinus

Gen. et sp. nov

Valid

Donovan, Deckers & Jagt

Devonian

 United Kingdom

A crinoid columnal. The type species is P. fionae.

Pseudoconocrinus lavadensis

Sp. nov

Valid

Roux, Martinez & Vizcaïno

Eocene (Ypresian)

 France

A crinoid belonging to the family Rhizocrinidae.

Pseudodiplocidaris

Gen. et comb. nov

Valid

Hostettler et al.

Late Jurassic (Oxfordian)

St-Ursanne Formation

  Switzerland

A sea urchin belonging to the group Cidaroida and the family Diplocidaridae. The type species is "Diplocidaris" bernasconii Bischof, Hostettler & Menkveld-Gfeller (2018).

Punkaster

Gen. et 2 sp. nov

Valid

Gale & Wesener

Late Cretaceous

Tor Formation

 Belgium
 Czech Republic
 Denmark
 Germany
 United Kingdom

A starfish belonging to the family Benthopectinidae. The type species is P. spinifera; genus also includes P. ruegenensis.

Rugosphaeraster

Gen. et sp. nov

Valid

Gale

Late Cretaceous (Campanian and Maastrichtian)

 Germany
 Sweden

A starfish belonging to the family Sphaerasteridae. The type species is R. ruegenensis.

Sagittacrinus rotundacutus

Sp. nov

In press

Gale

Late Cretaceous (Campanian)

 United Kingdom

A crinoid.

Scolechinus sossanensis

Sp. nov

Valid

Borghi, Bottazzi & Caporiondo

Eocene (Priabonian)

 Italy

A sea urchin belongint to the family Trigonocidaridae.

Sidericrinus (col.) plymouthensis

Sp. nov

Valid

Donovan & Fearnhead

Early Devonian

 United Kingdom

A crinoid.

Sinaiosalenia

Gen. et sp. nov

In press

El Qot

Late Cretaceous (Cenomanian)

 Egypt

A sea urchin. Genus includes new species S. rhombohedralis.

Sinosura dieschbourgae

Sp. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Toarcian)

Posidonia Shale

 Luxembourg

A brittle star belonging to the group Ophioscolecida and the family Ophioleucidae.

Thanataster

Gen. et sp. et comb. nov

Valid

Thuy & Numberger-Thuy

Early Jurassic (Sinemurian to Toarcian)

 Luxembourg

A brittle star belonging to the group Ophiurida. The type species is T. desdemonia; genus also includes "Ophiomusium" sinemurensis Kutscher & Hary (1991).

Thorntonites

Gen. et sp. nov

Valid

Jell & Sprinkle

Cambrian

Thorntonia Limestone

 Australia

A stalked eocrinoid. Genus includes new species T. dowlingi

Tiburtocrinus

Gen. et sp. nov

Valid

Manni & Di Nardo

Early Jurassic (Toarcian)

Corniola Formation

 Italy

A crinoid belonging to the group Isocrinida and the family Paracomatulidae. The type species is T. toarcensis.

Trecrinus

Gen. et sp. nov

Valid

Semenov et al.

Ordovician (Darriwilian)

 Russia

A hybocrinid crinoid. Genus includes new species T. schmidti.

Valettaster planus

Sp. nov

In press

Loba & Radwańska

Late Jurassic (Kimmeridgian)

 Poland

A starfish belonging to the family Sphaerasteridae.

Valettaster thuyi

Sp. nov

Valid

Gale

Early Jurassic (Toarcian)

 France

A starfish belonging to the family Sphaerasteridae.

Valimocrinus

Gen. et sp. nov

Valid

Rozhnov

Ordovician

 Russia
( Leningrad Oblast)

A crinoid, possibly a myelodactylid disparid. Genus includes new species V. terentyevi

Zoroaster marambioensis

Sp. nov

Valid

Palópolo et al.

Eocene

La Meseta Formation

Antarctica

A starfish belonging to the family Zoroasteridae.

Zuravlicrinus

Gen. et sp. nov

Valid

Rozhnov

Silurian

 Russia

A crinoid, possibly a myelodactylid disparid. Genus includes new species Z. milicinae

Research

  • Fossil material of Dendrocystites belonging or related to the species D. sedgwicki is described from the Ordovician Lower Ktaoua Formation (Morocco) by Nohejlová & Lefebvre (2021), representing the first record of Soluta from Morocco and Africa in general reported to date.
  • A study on the anatomy of Glyptosphaerites is published by Paul & Toom (2021).
  • Redescription of the anatomy of Cystoblastus, and a study on the phylogenetic relationships of glyptocystitoids and hemicosmitoids, is published by Paul & Toom (2021).
  • A study on the functional efficiency of hydrospires of blastoids, evaluating their potential significance for longer survival of blastoids than other blastozoan echinoderms, is published by Paul (2021).
  • A study on extinction selectivity and changes in taxonomic, morphological and ecological diversity of diplobathrid crinoids throughout their evolutionary history is published by Cole & Hopkins (2021).
  • A brittle star specimen (belonging to the group Oegophiurida and probably to the genus Protaster) preserving the body cavity in three dimensions and soft tissues, including the tube feet and internal structures, is described from the Silurian Herefordshire Lagerstätte (United Kingdom) by Carter et al. (2021).

Conodonts

New taxa

Name Novelty Status Authors Age Type locality Country Notes Images

Ancyrogondolella? bohorensis

Sp. nov

Valid

Karádi et al.

Late Triassic (Norian)

 Slovenia

A member of the family Gondolellidae.

Ancyrogondolella goldingi

Sp. nov

Valid

Karádi et al.

Late Triassic (Norian)

 Slovenia

A member of the family Gondolellidae.

Apsidognathus yanbianensis

Sp. nov

Valid

Yan & Wu

Silurian

 China

Borinella? curvata

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 Canada
( British Columbia)

Carbogondolella

Gen. nov

Valid

Golding & Orchard

Carboniferous (Pennsylvanian)

A member of family Gondolellidae.

Caudicriodus anitae

Sp. nov

Valid

Barrick, Sundgren & McAdams

Devonian (Lochkovian)

 United States

Caudicriodus murphyi

Sp. nov

Valid

Barrick, Sundgren & McAdams

Devonian (Lochkovian)

 United States

Columbitella brevis

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 Canada
( British Columbia)

Columbitella talpa

Sp. nov

In press

Golding

Early Triassic (Olenekian)

 Canada
( British Columbia)

Columbitella weitschati

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 United States
( Idaho)

Declinognathodus benedictus

Sp. nov

Valid

Golding & Orchard

Carboniferous

 Canada
( British Columbia)

Dollymae peregrina

Sp. nov

In press

Świś

Devonian (Famennian)

 Poland

Drepanoistodus iommii

Sp. nov

Valid

Rasmussen, Eriksson & Lindskog

Middle Ordovician

Lynna Formation

 Russia

A member of Protopanderodontida belonging to the family Drepanoistodontidae.

Drepanoistodus svendi

Sp. nov

Valid

Rasmussen, Eriksson & Lindskog

Middle Ordovician

Volkhov Formation

 Russia

A member of Protopanderodontida belonging to the family Drepanoistodontidae.

Drepanoistodus viirae

Sp. nov

Valid

Rasmussen, Eriksson & Lindskog

Middle Ordovician

Sillaoru Formation

 Russia

A member of Protopanderodontida belonging to the family Drepanoistodontidae.

Epigondolella buseri

Sp. nov

Valid

Karádi et al.

Late Triassic (Norian)

 Slovenia

A member of the family Gondolellidae.

Epigondolella kozjanskoensis

Sp. nov

Valid

Karádi et al.

Late Triassic (Norian)

 Slovenia

A member of the family Gondolellidae.

Epigondolella ritae

Sp. nov

Valid

Karádi et al.

Late Triassic (Norian)

 Austria
 Slovenia

A member of the family Gondolellidae.

Epigondolella senovoensis

Sp. nov

Valid

Karádi et al.

Late Triassic (Norian)

 Slovenia

A member of the family Gondolellidae.

Epigondolella slovenica

Sp. nov

Valid

Karádi et al.

Late Triassic (Norian)

 Slovenia

A member of the family Gondolellidae.

Guangxidella minuta

Sp. nov

Valid

Maekawa & Jenks

Early Triassic (Olenekian)

Thaynes Group

 United States
( Nevada)

Idiognathodus coffeyvillensis

Sp. nov

Valid

Rosscoe & Barrick

Carboniferous (Kasimovian)

Atrasado Formation

 United States
( New Mexico
 Oklahoma)

Idiognathodus grubbsi

Sp. nov

Valid

Golding & Orchard

 Canada
( British Columbia)

Idiognathodus kinneyensis

Sp. nov

Valid

Rosscoe & Barrick

Carboniferous (Kasimovian)

Atrasado Formation

 United States
( New Mexico)

Magnigondolella acuminata

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 Canada
( British Columbia)

Magnigondolella incurva

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 Canada
( British Columbia)

Magnigondolella? minuta

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 United States
( Nevada)

Magnigondolella mutata

Sp. nov

In press

Orchard & Goudemand in Orchard

Early Triassic (Olenekian)

 United States
( California)

Magnigondolella peribola

Sp. nov

In press

Orchard & Golding in Orchard

Early Triassic (Olenekian)

 Canada
( British Columbia)

Magnigondolella tozeri

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 Canada
( British Columbia)

Magnigondolella trutchensis

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 Canada
( British Columbia)

Mesogondolella qiangtangensis

Sp. nov

In press

Yuan et al.

Permian (Kungurian)

Lugu Formation

 China

Mosherella longnanensis

Sp. nov

Valid

Li & Lai in Li et al.

Late Triassic (Carnian)

Dengdengqiao Formation

 China

Neognathodus brulensis

Sp. nov

Valid

Golding & Orchard

Carboniferous

 Canada
( British Columbia)

Neogondolella bucheri

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 United States
( Nevada)

Neogondolella darwinensis

Sp. nov

In press

Orchard & Goudemand in Orchard

Early Triassic (Olenekian)

 United States
( California)

Neogondolella gradinarui

Sp. nov

Valid

Golding & Orchard in Golding

Middle Triassic (Anisian)

 China
 Romania

Neogondolella praeacuta

Sp. nov

In press

Orchard & Goudemand in Orchard

Early Triassic (Olenekian)

 United States
( California)

Neogondolella sinuosa

Sp. nov

In press

Orchard & Goudemand in Orchard

Early Triassic (Olenekian)

 United States
( California)

Neogondolella spathiconstricta

Sp. nov

In press

Orchard

Early Triassic (Olenekian)

 United States
( Nevada)

Norigondolella imperfecta

Sp. nov

Valid

Golding & Orchard

 Canada
( British Columbia)

Ozarkodina huenickeni

Sp. nov

In press

Gómez et al.

Silurian (Ludfordian) to Devonian (Lochkovian)

Los Espejos Formation

 Argentina

Paragondolella ebruae

Sp. nov

Valid

Kılıç

Middle Triassic (Anisian)

 Turkey

Paragondolella hirschii

Sp. nov

Valid

Kılıç & Budurov in Kılıç

Middle Triassic (Anisian)

 Turkey

Paragondolella nyoromo

Sp. nov

Valid

Golding & Orchard

 Canada
( British Columbia)

Paragondolella praecornuta

Sp. nov

Valid

Kılıç et al. in Kılıç

Middle Triassic (Anisian)

 Turkey

Parvigondolella ciarapicae

Sp. nov

Valid

Rigo & Du in Du et al.

Late Triassic (Norian and Rhaetian)

Gabbs Formation
San Hipolito Formation
Scillato Formation

 Hungary
 Italy
 Mexico
 United States
( Nevada)

Pelekysgnathus soarae

Sp. nov

Valid

Over et al.

Devonian–Carboniferous transition

Dyer Formation

 United States
( Colorado)

Praeicriodus simpsoni

Sp. nov

Valid

Barrick, Sundgren & McAdams

Silurian (LudlowPridoli)

 Australia

Pseudosweetognathus accensus

Sp. nov

Valid

Golding & Orchard

Permian

 Canada
( British Columbia)

Tasmanognathus coronatus

Sp. nov

Valid

Yang et al.

Ordovician (Katian)

 China

Research

  • A study aiming to resolve the nature, porosity and permeability of conodont white matter is published by Atakul-Özdemir et al. (2021).
  • A study aiming to determine feeding behavior, growth patterns and possible changes of feeding behavior during ontogeny in Proconodontus muelleri and Panderodus equicostatus is published by Leonhard et al. (2021).
  • An exceptionally preserved specimen of Panderodus unicostatus is described from the Waukesha Lagerstätte (Wisconsin, United States) by Murdock & Smith (2021), who evaluate the implications of this specimen for the knowledge of the homology within conodont feeding apparatuses and body anatomy of primitive conodonts, and interpret P. unicostatus as a macrophagous predator.
  • A study on the phylogenetic relationships of Early Triassic conodonts is published by Bai et al. (2021).
  • Han et al. (2021) reconstruct ontogenetic series for seven stratigraphically important Early Triassic conodont species, on the basis of fossil material from the Salt Range and Surghar Range (Pakistan), and study the phylogenetic relationships among these taxa.

Fish

Amphibians

New taxa

Name Novelty Status Authors Age Type locality Location Notes Images

Bermanerpeton

Gen. et sp. nov

Valid

Werneburg, Schneider & Lucas

Carboniferous (Kasimovian)

Atrasado Formation

 United States
( New Mexico)

A dvinosauroid temnospondyl. The type species is B. kinneyi.

Euronecturus

Gen. et sp. nov

Valid

Macaluso, Villa & Mörs

Miocene

Ville Formation

 Germany

A proteid salamander. The type species is E. grogu.

Joermungandr

Gen. et sp. nov

Valid

Mann, Calthorpe & Maddin

Carboniferous (Moscovian)

Mazon Creek fossil beds

 United States
( Illinois)

A member of Recumbirostra. The type species is J. bolti.

Laosuchus hun

Sp. nov

Valid

Liu & Chen

Late Permian

Naobaogou

 China

A chroniosuchian.

Leiopelma bishopi

Sp. nov

Valid

Easton, Tennyson & Rawlence

Late Pliocene (Waipipian–Mangapanian)

Kowai Formation

 New Zealand

A species of Leiopelma.

Neimengtriton

Gen. et comb. nov

Jia, Anderson & Gao

Middle Jurassic (Bathonian)

Haifanggou Formation

 China

A stem-hynobiid salamander; a new genus for "Liaoxitriton" daohugouensis.

Palaeobatrachus codreavladi

Sp. nov

Valid

Roček, Rage & Venczel

Palaeobatrachus minutus

Sp. nov

Valid

Roček, Rage & Venczel

Primaevorana

Gen. et sp. nov

Valid

Moura et al.

Early Cretaceous (Aptian)

Crato Formation

 Brazil

A frog belonging to the suborder Neobatrachia. The type species is P. cratensis

Rocekophryne

Gen. et sp. nov

Valid

Rage et al.

Eocene

 Algeria

A frog belonging to the group Ranoidea. The type species is R. ornata.

Sclerocephalus concordiae

Sp. nov

Valid

Schoch & Sobral

 Germany

Thoosuchus abbasovi

Sp. nov

Valid

Novikov

Early Triassic

 Russia

Research

  • A study on the function and evolution of forelimbs of early tetrapods, based on data from three-dimensional models of bones and muscles of forelimbs of Eusthenopteron foordi, Acanthostega gunnari and Pederpes finneyae, is published by Molnar et al. (2021).
  • A study on the evolutionary dynamics of early tetrapods and their closest fish relatives is published by Simões & Pierce (2021).
  • A study on the anatomy of the skull of Whatcheeria deltae is published by Rawson et al. (2021).
  • Description of the anatomy of the postcranial skeleton of Whatcheeria deltae is published by Otoo et al. (2021).
  • A study on the femoral bone histology of Greererpeton, and on its implications for the knowledge of the life history of this tetrapod, is published by Whitney & Pierce (2021).
  • A study on the locomotor capabilities of tetrapods from the earliest Carboniferous Blue Beach site (Nova Scotia, Canada) is published by Lennie et al. (2021).
  • A study on the early evolution of long bone elongation and bone marrow in tetrapods, based on data from temnospondyls (Apateon and Metoposaurus) and seymouriamorphs (Seymouria and Discosauriscus), is published by Estefa et al. (2021), who find the terrestrial Permian seymouriamorphs to be the oldest known tetrapods exhibiting a centralized marrow organization of long bones (which allows production of blood cells as in extant amniotes), and argue that the migration of blood-cell production in long bones probably wasn't an exaptation predating the water-to-land transition.
  • A study on the skeletal anatomy of the holotype specimen of Ichthyerpeton bradleyae is published by Ó Gogáin & Wyse Jackson (2021).
  • A study on the relations between vertebral shape and terrestriality in the evolution of temnospondyls is published by Carter et al. (2021).
  • Description of new fossil material of temnospondyls from the Triassic of the Ruhuhu and Luangwa basins (Tanzania and Zambia), providing new information on the diversity of Triassic African temnospondyls and their recovery after the Permian–Triassic extinction event, is published by Steyer et al. (2021).
  • A study on the morphological changes in the skeleton of Onchiodon labyrinthicus during its ontogeny, on the phylogenetic relationships of eryopids, and on the evolution of the life cycle in eryopids is published by Schoch (2021).
  • A study on the anatomy and phylogenetic relationships of "Cheliderpeton" lellbachae is published by Schoch (2021), who transfers this species to the genus Glanochthon in the family Sclerocephalidae.
  • A study on the histology of different-sized femora and vertebra of specimens of Platyoposaurus stuckenbergi is published by Uliakhin, Skutschas & Saburov (2021).
  • Redescription of the holotype of Cryobatrachus kitchingi is published by Gee, Makovicky & Sidor (2021), who interpret this specimen as more likely to be the juvenile of an indeterminate capitosaur than a lydekkerinid, and who also describe partial temnospondyl skull from the lower Fremouw Formation (Antarctica), provisionally referred to Lydekkerinidae.
  • A study on the anatomy and phylogenetic relationships of Tertrema acuta is published by Slodownik, Mörs & Kear (2021).
  • Redescription of the metoposaurid fossil material from the Upper Triassic Zions View locality (New Oxford Formation; Pennsylvania, United States) is published by Gee & Jasinski (2021), who assign this material to the species Anaschisma browni, expanding known geographic range of this taxon.
  • Redescription of the holotype specimens of Borborophagus wyomingensis and Koskinonodon princeps, and a reassessment of their synonymy with Anaschisma browni, is published by Kufner & Gee (2021).
  • A study on the histology of the mandible of Metoposaurus krasiejowensis is published by Gruntmejer, Bodzioch & Konietzko-Meier (2021).
  • A study on the anatomy and phylogenetic relationships of Timonya anneae and Procuhy nazariensis is published by Marsicano et al. (2021).
  • A study on the anatomy and phylogenetic relationships of Macrerpeton huxleyi is published by Schoch & Milner (2021).
  • A study on the phylogenetic relationships of dissorophid temnospondyls is published by Gee (2021).
  • Description of a new specimen of Conjunctio from the Permian Cutler Formation (Colorado, United States), and a study on the phylogenetic relationships of this genus, is published by Gee et al. (2021).
  • New fossil material of Micropholis stowi, expanding known geographic range of this species, is described from the lower Fremouw Formation (Halfmoon Bluff, Antarctica) by Gee & Sidor (2021).
  • New early adult specimen of Milnererpeton huberi, providing new information on the ontogenetic development of amphibamiform temnospondyls, is described from the Carboniferous (Kasimovian) Atrasado Formation (New Mexico, United States) by Werneburg, Schneider & Lucas (2021).
  • A study on the skeletal anatomy of Apateon dracyiensis, the anatomical variation in the fossil material of this species, and on its ontogeny, is published by Werneburg (2021).
  • A study on the anatomy and development of the wrist of Genibatrachus is published by Roček et al. (2021).
  • An early Campanian assemblage of anuran bones, suggestive of high local species richness of frogs, is described from the Aguja Formation (Texas, United States) by Wick (2021).
  • Fossil material of Late Cretaceous frogs, including fossils of calyptocephalellid frogs and the southernmost record of pipids (Kuruleufenia) worldwide reported to date, is described from the CampanianMaastrichtian assemblages from Chilean and Argentinean Patagonia (Dorotea, Allen and Los Alamitos formations) by Suazo Lara & Gómez (2021).
  • Description of new pipimorph fossil material from the Cenomanian Candeleros Formation (Argentina), and a study on the implications of these fossils for the knowledge of the formation of the sacrum in pipimorphs throughout their evolutionary history, is published by Báez, Muzzopappa & Araújo (2021).
  • Description of new fossil material of Hungarobatrachus szukacsi from the Upper Cretaceous (Santonian) Csehbánya Formation (Hungary), and a study on the anatomy and phylogenetic relationships of this species, is published by Venczel, Szentesi & Gardner (2021).
  • Revision of the fossil record of the family Ceratophryidae is published by Gómez & Turazzini (2021).
  • Redescription and a study on the phylogenetic relationships of Bufo servatus is published by Lemierre et al. (2021), who interpret this species as a senior synonym of Thaumastosaurus gezei (resulting in new combination Thaumastosaurus servatus), and assign it to the family Pyxicephalidae.
  • Revision of the fossil material of Mesozoic temnospondyls and anurans housed in the collections of the Sirindhorn Museum and the Palaeontological Research and Education Centre of Mahasarakham University (Thailand), including fossils of brachyopids resembling the Chinese forms, is published by Nonsrirach, Manitkoon & Lauprasert (2021).
  • Redescription of Nannaroter mckinziei, based on data from the holotype and from a new specimen from the Richards Spur locality (Oklahoma, United States), is published by MacDougall et al. (2021).
  • A study aiming to determine plausible body postures and locomotion of Orobates pabsti is published by Zwafing et al. (2021).
  • A study on the anatomy of the braincase and inner ear of Limnoscelis dynatis is published by Klembara et al. (2021).

Reptiles

Synapsids

Non-mammalian synapsids

New taxa

Name Novelty Status Authors Age Type locality Country Notes Images

Acratophorus

Gen. et comb. nov

Valid

Kammerer & Ordoñez

Middle Triassic (Anisian)?

Río Seco de la Quebrada

 Argentina

A kannemeyeriid dicynodont, the type species is "Kannemeyeria" argentinensis.

Borealestes cuillinensis

Sp. nov

Valid

Panciroli et al.

Middle Jurassic (Bathonian)

Kilmaluag Formation

 United Kingdom

A docodont.

Dobunnodon

Gen. et comb. nov

Valid

Panciroli et al.

Middle Jurassic (Bathonian)

Forest Marble Formation

 United Kingdom

A docodont; a new genus for "Borealestes" mussettae Sigogneau−Russell (2003).

Fossiomanus

Gen. et sp. nov

Valid

Mao et al.

Early Cretaceous (Aptian)

Jiufotang Formation

 China

A cynodont belonging to the family Tritylodontidae. Genus includes new species F. sinensis.

Impidens

Gen. et sp. nov

Valid

Tolchard et al.

Middle Triassic

Cynognathus Assemblage Zone

Antarctica
 South Africa

A gomphodont cynodont. Genus includes new species I. hancoxi.

Isengops

Gen. et sp. nov

Sidor, Tabor & Smith

Late Permian

Madumabisa Mudstone

 Zambia

A burnetiamorph biarmosuchian. Genus includes new species I. luangwensis.

Kannemeyeria aganosteus

Sp. nov

Valid

Kammerer & Ordoñez

Middle Triassic (Anisian)?

Quebrada de los Fósiles

 Argentina

A species of Kannemeyeria.

Mobaceras

Gen. et sp. nov

Valid

Kammerer & Sidor

Middle Permian

Madumabisa Mudstone

 Zambia

A burnetiid therapsid. The type species is M. zambeziense.

Shashajaia

Gen. et sp. nov

Huttenlocker et al.

Carboniferous (Gzhelian)

Halgaito Formation

 United States
( Utah)

An early member of Sphenacodontia. The type species is S. bermani.

Turfanodon jiufengensis

Sp. nov

Valid

Liu

Late Permian

Naobaogou Formation

 China

A dicynodontoid dicynodont.

Research

  • A study comparing species richness of synapsids and reptiles during the Pennsylvanian and Cisuralian, evaluating the impact of the preservation biases, the effect of Lagerstätten, and contested phylogenetic placement of late Carboniferous and early Permian tetrapods on estimates of relative diversity patterns of synapsids and reptiles, is published by Brocklehurst (2021), who interprets his findings as challenging the assumption that synapsids dominated during the Pennsylvanian and Cisuralian.
  • A study on the evolution of the vertebral column in synapsids is published by Jones et al. (2021), who interpret their findings as refuting the idea that the transition from non-mammalian synapsids to mammals involved a shift from reptile-like lateral bending of the backbone to sagittal bending, and argue that non-mammalian synapsids were characterized by their own unique functional regime of the vertebral column, distinct from that of extant reptiles and amphibians.
  • A study comparing the forelimb morphology in extant mammals and fossil non-mammalian synapsids, aiming to determine whether extant mammals are good ecomorphological analogues for extinct synapsids, whether examples of ecomorphological convergence can be found among synapsids, and whether evolutionary history determined available functional solutions in synapsid forelimbs, is published by Lungmus & Angielczyk (2021).
  • A study aiming to determine when major shifts in shoulder joint function and a shift from sprawling to parasagittal posture occurred during synapsid evolution, based on relationships between shoulder joint morphology, mobility, and muscle function in extant Argentine black and white tegu, short-beaked echidna and Virginia opossum, as well as on data on anatomical transformations preserved in the fossil record, is published by Brocklehurst et al. (2021).
  • A study aiming to determine the index of blood flow into the femora of non-mammalian synapsids, and using it to determine the maximum metabolic rate of these synapsids, is published by Knaus et al. (2021), who interpret their findings as indicating that aerobic capacity was elevated in non-therapsid synapsids above the level of most recent non-varanid lepidosaurs, turtles and crocodilians since the late Carboniferous, with maximum aerobic metabolic rates at, or above, the level of varanids.
  • Matamales-Andreu et al. (2021) describe probable caseid tracks from the lower Permian of Mallorca (Spain), and evaluate the implications of these tracks for the knowledge of the locomotion of early synapsids.
  • A study comparing the morphology of the maxillary canal of Heleosaurus scholtzi, Varanosaurus acutrostris, Orovenator mayorum and Prolacerta broomi, and evaluating the implications of the morphology of the maxillary canal for the knowledge of the phylogenetic placement of varanopids, is published by Benoit et al. (2021).
  • A study on the neurosensory anatomy of varanopids is published by Bazzana et al. (2021).
  • A study on the skeletal anatomy and phylogenetic relationships of Raranimus dashankouensis is published by Duhamel et al. (2021).
  • A study on the ontogenetic variation in the anatomy of the skulls of biarmosuchians, based on data from skulls of juvenile specimens, is published by Duhamel et al. (2021).
  • A study on the paleoneurology and likely paleobiology of Anteosaurus magnificus is published by Benoit et al. (2021).
  • A study on bone architecture and histology in two species of Anteosaurus from the Tapinocephalus Assemblage Zone of the Karoo Basin (South Africa), aiming to determine the inter-elemental variation in their bone histology and their possible lifestyle adaptations, is published by Bhat, Shelton & Chinsamy (2021).
  • A study on the bone histology of multiple skeletal elements of three specimens belonging to the genus Jonkeria from the Tapinocephalus Assemblage Zone, and on its implications for the knowledge of the paleobiology of these dinocephalians, is published by Bhat, Shelton & Chinsamy (2021).
  • A study on the bone histology of multiple skeletal elements of dinocephalians from the Tapinocephalus Assemblage Zone of the Karoo Basin is published by Bhat, Shelton & Chinsamy (2021).
  • New specimen of Lanthanostegus mohoii, providing new information on the anatomy of the skull of this dicynodont and providing the first direct correlation between the lower Abrahamskraal Formation at Jansenville on the eastern side of the Karoo Basin and the southwestern part of this basin, is described by Rubidge, Day & Benoit (2021).
  • New burrow casts containing skeletons of Diictodon, including associated remains of adult and infant specimens, are described by Smith et al. (2021), who consider it likely that portions of burrows produced Diictodon by were facultatively used as brood chambers.
  • A study on the histology of mandibles and maxillae of Endothiodon bathystoma, and on the development and evolution of multiple tooth rows in this dicynodont, is published by Olroyd et al. (2021).
  • Redescription and a study on the phylogenetic relationships of Kunpania scopulusa is published by Angielczyk, Liu & Yang (2021).
  • A study on the bone histology and likely life history of specimens of Lystrosaurus from the Lower Triassic Turpan Basin (Xinjiang, China), comparing them with specimens from South Africa, is published by Han, Zhao & Liu (2021).
  • A study on the bone histology in a size range of Lystrosaurus skeletal elements from the Jiucaiyuan Formation (China), and on its implications for the knowledge whether members of the genus Lystrosaurus from northern Pangaea had differing life histories than their southern Pangean relatives, is published by Kulik et al. (2021).
  • A new postcranial specimen of a stahleckeriid dicynodont, possibly of Stahleckeria, is described from the Chañares Formation, representing the oldest record of stahleckeriine dicynodonts from the Ischigualasto-Villa Unión Basin in Argentina.
  • A study on the evolution of dicynodont tusks is published by Whitney et al. (2021).
  • A study on the quality of the early cynodont fossil record in time and space, and on its implications for the understanding of the group's evolutionary history, is published by Varnham, Mannion & Kammerer (2021).
  • A study on the anatomy and variation of the stapes in Thrinaxodon and Galesaurus is published by Gaetano & Abdala (2021).
  • A study on the anatomy of the skull of Bolotridon frerensis, and on the phylogenetic relationships of this species, is published by Pusch, Kammerer & Fröbisch (2021).
  • A study on the morphology of the nasal cavity of Exaeretodon riograndensis and Siriusgnathus niemeyerorum is published by Franco et al. (2021).
  • A study on the morphology of the endocast of a specimen of Riograndia guaibensis from the Linha São Luiz site (Candelária Sequence of the Santa Maria Supersequence, Brazil) is published by Kerber et al. (2021).
  • Description of a new specimen of Irajatherium hernandezi from the Linha São Luiz site (Candelária Sequence, Brazil), providing new information on the skeletal anatomy of this cynodont, and a study on the phylogenetic relationships of tritheledontids is published by Kerber et al. (2021).
  • Description of five partially preserved petrosals of early mammaliaforms from the Middle Jurassic sediments of the Berezovsk coal mine (Krasnoyarsk Krai, Russia), and a study on the implications of these fossils for the knowledge of the evolution of the inner ear anatomy in early mammaliaforms, is published by Schultz et al. (2021).
  • New specimen of the Middle Jurassic haramiyidan Vilevolodon diplomylos with well-preserved malleus, incus and ectotympanic is described by Wang et al. (2021).
  • Description of two partial postcranial skeletons of Borealestes from the Kilmaluag Formation (Scotland, United Kingdom), and a study on the phylogenetic relationships of this docodont, is published by Panciroli et al. (2021).

Mammals

Other animals

New taxa

Name Novelty Status Authors Age Type locality Country Notes Images

Aculeiconchus

Gen. et sp. nov

Valid

Zatoń et al.

Devonian (Givetian)

Maywood Formation

 United States
( Wyoming)

A microconchid. Genus includes new species A. sandbergi.

Anabarites dalirense

Sp. nov

Valid

Devaere et al.

Early Cambrian

Soltanieh Formation

 Iran

An anabaritid.

Andalucilites

Gen. et sp. nov

Valid

Gutiérrez-Marco, Marek & Malinky

Ordovician (Darriwilian)

 Spain

A member of Hyolitha. Genus includes new species A. parvulus.

Anulitubus

Gen. et sp. nov

Valid

Moczydłowska in Moczydłowska et al.

Ediacaran

Stáhpogieddi Formation

 Norway

A member of Eumetazoa of uncertain phylogenetic placement. The type species is A. formosus.

Arienigraptus balticus

Sp. nov

Valid

Maletz & Ahlberg

Ordovician (Darriwilian)

 Sweden

A graptolite.

Arienigraptus delicatus

Sp. nov

Valid

Maletz & Ahlberg

Ordovician (Darriwilian)

 Sweden

A graptolite.

Arienigraptus robustus

Sp. nov

Valid

Maletz & Ahlberg

Ordovician (Dapingian)

 Sweden

A graptolite.

Arrakiscolex

Gen. et sp. nov

Valid

Leibach et al.

Cambrian (Drumian)

Marjum Formation

 United States
( Utah)

A palaeoscolecid. Genus includes new species A. aasei.

Aulozoon

Gen. et sp. nov

In press

Gehling & Runnegar

Ediacaran

 Australia

An annelid. The type species is A. soliorum.

Blastochaetetes reitneri

Sp. nov

In press

Sánchez-Beristain & García-Barrera in Sánchez-Beristain, García-Barrera & Juárez-Aguilar

Late Cretaceous

Tamasopo Formation

 Mexico

A chaetetid demosponge.

Cardiograptus altaicus

Sp. nov

Valid

Lykova & Sennikov

Ordovician (Dapingian)

 Russia

A graptolite belonging to the family Isograptidae.

Choiaella hexactinophora

Sp. nov

Valid

Botting

Ordovician (Darriwilian)

Gilwern Volcanic Formation

 United Kingdom

A sponge.

Coniculus

Gen. et sp. nov

Valid

Moczydłowska in Moczydłowska et al.

Ediacaran

Stáhpogieddi Formation

 Norway

A member of Eumetazoa of uncertain phylogenetic placement. The type species is C. elegantis.

Cornulites spinosus

Sp. nov

Valid

Vinn & Eyzenga

Late Ordovician

 Netherlands

A cornulitid tubeworm.

Ctenorhabdotus campanelliformis

Sp. nov

Valid

Parry et al.

Cambrian (probably Drumian)

Probably Marjum Formation

 United States
( Utah)

A member of Ctenophora.

Daihuoides

Gen. et sp. nov

Valid

Klug et al.

Devonian (Frasnian)

Escuminac Formation

 Canada
( Quebec)

A stem-ctenophore. The type species is D. jakobvintheri.

Dailyatia icari

Sp. nov

Valid

Claybourn et al.

Cambrian Series 2

Antarctica

A camenellan tommotiid.

Ekstroemograptus

Gen. et sp. nov

Valid

Maletz & Ahlberg

Ordovician (Darriwilian)

 Sweden

A graptolite. Genus includes new species E. inexpectatus.

Finkoella

Gen. et 2 sp. nov

Valid

Martyshyn in Martyshyn & Uchman

Ediacaran

Mogilev Formation

 Ukraine

A possible tunicate described on the basis of sack-like body fossils. The type species is F. ukrainica; genus also includes F. oblonga.

Hoffmanigraptus

Gen. et sp. et comb. nov

Valid

Kozłowska

Silurian

 Czech Republic
 Poland

A graptolite. The type species is H. varsoviensis; genus also includes "Plectograptus" ovatus Kozłowska-Dawidziuk, Lenz & Štorch (2001) and "Plectograptus" karlsteinensis Kozłowska-Dawidziuk, Lenz & Štorch (2001).

Labechia zhuzhainus

Sp. nov

Valid

Jeon in Jeon et al.

Ordovician (Katian)

Xiazhen Formation

 China

A stromatoporoid.

Labechiella beluatus

Sp. nov

Valid

Jeon in Jeon et al.

Ordovician (Katian)

Xiazhen Formation

 China

A stromatoporoid.

Leolites malinkyi

Sp. nov

Valid

Marek & Gutiérrez-Marco in Gutiérrez-Marco, Marek & Malinky

Ordovician (Darriwilian)

 Spain

A member of Hyolitha.

Lepidocoleus caliburnus

Sp. nov

Valid

Jacquet et al.

Devonian (Pragian)

Garra Formation

 Australia

A lepidocoleid annelid.

Lepidocoleus shurikenus

Sp. nov

Valid

Jacquet et al.

Devonian (Pragian)

Garra Formation

 Australia

A lepidocoleid annelid.

Neuropora gigantea

Sp. nov

Valid

Pleș & Schlagintweit in Pleș et al.

Late Jurassic (Kimmeridgian-Tithonian)

Giuvala Formation

 Romania

A sponge.

Novakotheca weifangensis

Sp. nov

Valid

Sun, Sun & Zhao

Cambrian (Wuliuan)

Mantou Formation

 China

A member of Hyolitha belonging to the group Hyolithida.

Oncograptus hastatus

Sp. nov

Valid

Lykova & Sennikov

Ordovician (Dapingian)

 Russia

A graptolite belonging to the family Isograptidae.

Palaeocorvospongilla

Gen. et sp. nov

In press

Samant et al.

Late Cretaceous (Maastrichtian)

Deccan Intertrappean Beds

 India

A sponge belonging to the family Palaeospongillidae. Genus includes new species P. cretacea.

Palaeoparasitylenchus balticus

Sp. nov

Valid

Poinar & Brown

Eocene

Baltic amber

Europe (Baltic Sea region)

A nematode belonging to the family Parasitylenchidae.

Palaeosaccus minus

Sp. nov

Valid

Luo et al.

Cambrian

Shuijingtuo Formation

 China

A sponge.

Palaeoscoloplos

Gen. et sp. nov

Valid

Knaust

Middle Triassic

Muschelkalk

 Germany

An annelid, possibly a member of the family Orbiniidae. Genus includes new species P. triassicus.

Papiliograptus retimarginatus

Sp. nov

Valid

Kozłowska & Bates

Silurian (Homerian)

 Germany
 Poland

A graptolite belonging to the family Retiolitidae.

Paraclimacograptus crameri

Sp. nov

Valid

Loydell & Abouelresh

Silurian (Aeronian)

Qusaiba Shale Formation

 Saudi Arabia

A graptolite.

Paradoryphoribius

Gen et sp. nov

Mapalo et al.

Miocene

Dominican amber

 Dominican Republic

A tardigrade. The type species is P. chronocaribbeus.

Paramackenzia

Gen. et sp. nov

Valid

Zhao et al.

Early Cambrian

 China

A member of the family Mackenziidae (organisms of uncertain phylogenetic placement, possibly stem eumetazoans). Genus includes new species P. canalifera.

Paratetilla milanek

Sp. nov

Valid

Łukowiak in Łukowiak et al.

Middle Eocene

 Ukraine

A sponge belonging to the family Tetillidae.

Pauxillites desolatus

Sp. nov

Valid

Gutiérrez-Marco, Marek & Malinky

Ordovician (Darriwilian)

 Spain

A member of Hyolitha.

Pharyngomorpha

Gen. et sp. nov

Valid

Martyshyn & Uchman

Ediacaran

Mogilev Formation

 Ukraine

Possibly a fragment of the pharyngeal basket of a tunicate. The type species is P. reticulata.

Pseudopelagiella

Gen. et comb. nov

Valid

Landing et al.

Cambrian

Kinzers Formation

 United States
( Pennsylvania)

A polychaete, likely a member of Sabellida; a new genus for "Pelagiella" exigua Resser & Howell.

Robardetlites

Gen. et sp. nov

Valid

Gutiérrez-Marco, Marek & Malinky

Ordovician (Darriwilian)

 Spain

A member of Hyolitha. Genus includes new species R. sevillanus.

Rugosusivitta

Gen. et sp. nov

Valid

Tang et al.

Early Cambrian

Yuhucun Formation

 China

A ribbon-shaped, bilaterally symmetrical organism, probably a flatworm of uncertain phylogenetic placement. The type species is R. orthogonia.

Saetaspongia jianhensis

Sp. nov

Valid

Ling et al.

Cambrian Stage 4

Balang Formation

 China

A sponge of uncertain phylogenetic placement, possibly with protomonaxonid affinities.

Selkirkia transita

Sp. nov

Wang et al.

Cambrian Stage 3

Yu'anshan Formation

 China

A member of Priapulida belonging to the family Selkirkiidae.

Silicofistula

Gen. et sp. nov

Valid

Moczydłowska in Moczydłowska et al.

Ediacaran

Stáhpogieddi Formation

 Norway

A member of Eumetazoa of uncertain phylogenetic placement. The type species is S. crenulata.

Sinabeatricea

Gen. et sp. nov

Valid

Jeon in Jeon et al.

Ordovician (Katian)

Xiazhen Formation

 China

A stromatoporoid. Genus includes new species S. luteolus.

Stenothecoides rasettii

Sp. nov

Valid

Johnston & Streng

Cambrian

Burgess Shale

 Canada
( British Columbia)

A member of Stenothecoida (a group of animals of uncertain affinities, possibly pan-brachiopods).

Stenothecoides terraglaciei

Sp. nov

Valid

Peel

Cambrian (Wuliuan)

Henson Gletscher Formation

 Greenland

A member of Stenothecoida.

Thalassostaphylos

Gen. et sp. nov

Valid

Parry et al.

Cambrian (Drumian)

Marjum Formation

 United States
( Utah)

A member of Ctenophora. The type species is T. elegans.

Theonella alexandriae

Sp. nov

Valid

Łukowiak in Łukowiak et al.

Late Eocene

 Ukraine

A sponge belonging to the family Theonellidae.

Triticispongia giganta

Sp. nov

Valid

Luo et al.

Cambrian

Shuijingtuo Formation

 China

A sponge.

Turriserpula

Gen. et sp. nov

In press

Dieni & Massari

Early Cretaceous (Berriasian)

 Italy

A microserpulid. Genus includes new species T. coralliophila.

Vauxia paraleioia

Sp. nov

In press

Wei et al.

Cambrian Stage 3

 China

A vauxiid sponge.

Vauxia pregracilenta

Sp. nov

In press

Wei et al.

Cambrian Stage 3

 China

A vauxiid sponge.

Xinliscolex

Gen. et sp. nov

In press

Zhang

Cambrian (Fortunian)

 China

An early cycloneuralian. Genus includes new species X. intermedius.

Research

  • Turner (2021) describes vermiform-microstructured masses from approximately 890-million-year-old Little Dal reefs (Stone Knife Formation, Canada), potentially representing the oldest body fossils of sponges (and animals in general) reported to date.
  • A study on the internal anatomical structure and development of Charnia masoni, based on data from specimens interpreted as reflecting different developmental stages, is published by Dunn et al. (2021), who interpret their findings as indicating that rangeomorphs were members of the stem group of Eumetazoa.
  • A study aiming to identify characters of Kimberella, Ikaria, Dickinsonia and Tribrachidium controlled by conserved developmental processes, as well as genetic elements likely responsible for their expression, is published by Evans, Droser & Erwin (2021), who also attempt to determine phylogenetic positions of these taxa relative to extant animals.
  • Structures interpreted as traces of motor activity of Dickinsonia are reported by Ivantsov & Zakrevskaya (2021), who interpret the studied traces as indicating that Dickinsonia was capable of both attachment and mobility.
  • A study on the location of module addition during growth in Dickinsonia costata is published by Evans et al. (2021).
  • A study aiming to determine the feeding mode of Arkarua adami is published by Cracknell et al. (2021).
  • A fossil specimen sharing anatomical features with both archaeocyaths and vauxiids is described from the early Cambrian Guanshan Lagerstätte (South China) by Luo et al. (2021), who suggest that vauxiids were descendants of archaeocyaths rather than Cambrian representatives of horny demosponges.
  • A study on the morphology and affinities of Shaanxilithes is published by Wang et al. (2021).
  • A study aiming to test the hypothesis that the type and extent of calcification and morphology in Cloudina was controlled environmentally, based on data from Cloudina assemblages from localities in the Upper Omkyk Member of the Nama Group (Namibia), is published by Shore & Wood (2021).
  • Taxonomic revision of the Ediacaran tubular fossils Cloudina, Sinotubulites and Conotubus is published by Yang et al. (2021).
  • Shore et al. (2021) report the first three-dimensional, pyritized preservation of soft tissue in Namacalathus hermanastes from the Nama Group (Namibia), and evaluate the implications of this finding for the knowledge of the phylogenetic relationships of this animal.
  • A novel type of agglutinated tube, made of silt-sized particles forming a flanged shape that was previously unknown in the fossil record, is described from the Devonian Ponta Grossa Formation (Brazil) by Becker-Kerber et al. (2021), who identify the studied tubes as belonging to the species Annulitubus mutvei, and note their similarities to tubes made by polychaetes from the family Maldanidae.
  • New specimen of Protowenella flemingi is described from the Cambrian Henson Gletscher Formation (Greenland) by Peel (2021), who interprets the anatomy of this specimen as indicating that Protowenella was a hyolith rather than a mollusc.
  • A new assemblage of fossil eggs, embryos attributable to the early scalidophoran Markuelia, and early post-embryonic developmental stages of camenellans is described from the Cambrian Stage 3 Salanygol Formation (Mongolia) by Steiner et al. (2021).
  • Yang et al. (2021) describe fossil material from the Guanshan biota (China) providing evidence of consistent occurrence of Cambrian priapulan worms (possibly belonging to the genus Eximipriapulus) within the conical shells of hyoliths, representing the first direct evidence of the adoption of a different organism's exoskeleton in the priapulans and within the Paleozoic era.
  • Description of new fossil material of Tabelliscolex hexagonus from the Cambrian Chengjiang biota (Yu'anshan Formation, China), and a study on the phylogenetic affinities of palaeoscolecids, is published by Shi & Howard et al. (2021); the study is subsequently criticized by Smith & Dhungana (2021).
  • Redescription of Stanleycaris hirpex, and a study on the phylogenetic relationships of this species and on the functional specialization of the frontal appendages of this and other stem euarthropods, is published by Moysiuk & Caron (2021).

Other organisms

New taxa

Name Novelty Status Authors Age Type locality Location Notes Images

Amsassia terranovensis

Sp. nov

In press

Lee, Elias & Pratt

Ordovician (Tremadocian)

Watts Bight Formation

 Canada
( Newfoundland and Labrador)

A calcareous alga, possibly representing an extinct group of green algae.

Bicellum

Gen. et sp. nov

Strother & Wellman in Strother et al.

Torridonian

Diabaig Formation

 United Kingdom

An organism of uncertain phylogenetic placement, possibly an early member of Holozoa. Genus includes new species B. brasieri. Appears to have differentiated multicellularity.

Dictyosphaera smaugi

Sp. nov

Valid

Loron et al.

Mesoproterozoic

Dismal Lakes Group

 Canada

An organic-walled microfossil.

Gigarimaneta

Gen. et sp. nov

Valid

Taylor et al.

Ediacaran

Mistaken Point Formation

 Canada
( Newfoundland and Labrador)

An organism growing on the seafloor in a manner similar to Fractofusus and Beothukis. Genus includes new species G. samsoni.

Ladariella

Gen. et sp. nov

Diniz & Leme in Diniz, Leme & Boggiani

Ediacaran

Tamengo Formation

 Brazil

A macroalga of uncertain phylogenetic placement, possibly related to the family Eoholyniaceae. Genus includes new species L. hidria.

Ladariophyton

Gen. et sp. nov

Diniz & Leme in Diniz, Leme & Boggiani

Ediacaran

Tamengo Formation

 Brazil

A macroalga of uncertain phylogenetic placement, possibly related to the family Eoholyniaceae. Genus includes new species L. veinosa.

Lagoenaforma

Gen. et sp. nov

In press

Agić et al.

Late Ediacaran

Stáhpogieddi Formation

 Canada
( Newfoundland and Labrador)
 Namibia
 Norway

A flask-shaped microfossil. Genus includes new species L. collaris.

Lanceaphyton

Gen. et sp. nov

In press

Wang et al.

Ediacaran

 China

A high-level eukaryotic macroalga. Genus includes new species L. xiaojiangensis.

Ostiosphaera

Gen. et sp. nov

In press

Yin et al.

Ediacaran

Doushantuo Formation

 China

An embryo-like fossil of a eukaryote of uncertain affinities, possibly a holozoan. The type species is O. rara.

Palaeohypothrix

Gen. et sp. nov

Da Silva Paiva & de Souza Carvalho

Early Cretaceous (BerriasianBarremian)

Maracangalha Formation

 Brazil

A spirotrich. Genus includes new species P. bahiensis.

Quadrimurus

Gen. et sp. nov

Valid

Miao, Moczydłowska & Zhu

Early Mesoproterozoic

Xiamaling Formation

 China

An organic-walled microfossil. Genus includes new species Q. clavatus.

Rhyniotaxillus minutulus

Sp. nov

Valid

Krings

Early Devonian

Windyfield chert

 United Kingdom

A colonial cyanobacterium.

Rhystigonema

Gen. et sp. nov

In press

Krings

Early Devonian

Rhynie chert

 United Kingdom

A filamentous cyanobacterium belonging to the family Stigonemataceae. Genus includes new species R. obscurum.

Tamengophyton

Gen. et sp. nov

Diniz & Leme in Diniz, Leme & Boggiani

Ediacaran

Tamengo Formation

 Brazil

A macroalga of uncertain phylogenetic placement, possibly related to the family Eoholyniaceae. Genus includes new species T. espinosa.

Vikisphaera

Gen. et sp. nov

Valid

Hints, Nõlvak & Liang

Ordovician (Darriwilian)

Loobu Formation

 Estonia
 Latvia
 Russia
 Sweden

An organic-walled microfossil of uncertain affinities, possibly representing egg capsules of marine animals. Genus includes new species V. kundana.

Research

  • Well-preserved putative filamentous microfossils, potentially representing the oldest known indigenous subsurface microorganisms with a methane-based metabolism, are described from the ~3.42-billion-year-old subseafloor hydrothermal vein system from the Barberton Greenstone Belt by Cavalazzi et al. (2021).
  • Delarue et al. (2021) describe 3.4 billion years old microfossils preserved with a tail-like structure from the Strelley Pool Formation (Australia), and interpret the tail-like appendage as likely providing early microorganisms with movement capabilities.
  • A study on the preservation of ~ 1 billion years old organic matter in the Lakhanda Lagerstätte (Siberia, Russia) is published by Duda et al. (2021), who interpret this Lagerstätte as evidence of an environment dominated by anaerobic bacteria with no or very little inputs by eukaryotes.
  • Tang et al. (2021) describe dark discoidal, semicircular, or ovate structures preserved on fossil of early Neoproterozoic eukaryotes Tawuia and Sinosabellidites from North China, and interpret these structures as fossils of eukaryotic epibionts that lived on the surface of and may have benefited from an association with their Tawuia and Sinosabellidites hosts.
  • Well-preserved communities of large unbranched filamentous microorganisms, bearing morphological and ecological similarities with large sulfide-oxidizing bacteria such as Beggiatoa, are described from the Ediacaran Itajaí Basin (Brazil) by Becker-Kerber et al. (2021).
  • Ediacaran fossils, including mouldically preserved desiccated microbial mat fossils, Arumberia-type fossils, and associated metre-scale structures, are described from the Gibbett Hill and Ferryland Head formations (Newfoundland, Canada) by McMahon et al. (2021), who interpret the metre-scale structures as fossil biofilm streamers induced by currents.
  • A study on the morphology of Arumberia, based on data from findings from the lower Cambrian Port Lazo Formation (Brittany, France), is published by McMahon et al. (2021), who interpret Arumberia as recording the remains of extinct, sessile filamentous organisms (possibly microbial or algal).
  • Zacaï et al. (2021) attempt to determine the potential timing of establishment of the latitudinal diversity gradient for early Paleozoic acritarchs and its evolution through time .
  • A study on the affinities of archaeocyaths, interpreting them as possible consortia of siphonous green seaweeds and cyanobacteria-like microbes, is published by Kaźmierczak & Kremer (2021).
  • A study on the impact of Earth's orbital eccentricity on the evolution of coccolithophores during the last 2.8 million years is published Beaufort et al. (2021).

History of life in general

  • A study on the taphonomy of eukaryotic organelles, assessing the basis of the view that organelles decay too rapidly to be fossilized and evaluating the plausibility of the claims of organelles preserved in Proterozoic fossils, is published by Carlisle et al. (2021).
  • Evidence of the presence of significant populations of both red and green algae ca. 1.4 billion years ago (600 million years earlier than previously recognized) is reported from the Xiamaling Formation (China) by Zhang et al. (2021).
  • A study on the micro- and ultra-structures and chemical components of embryo-like fossils from the early Ediacaran Weng'an biota (China) is published by Sun et al. (2021).
  • A study on the latitudinal distribution of the macrobiota through the late Ediacaran is published by Boddy et al. (2021).
  • A study on the major biotic transitions in the Phanerozoic fossil record of the benthic marine faunas is published by Rojas et al. (2021), who report evidence of three major biotic transitions (across the end-Cambrian, end-Permian, and mid-Cretaceous boundaries).
  • A study on changes of diversity of skeletonized marine invertebrates in the fossil record, evaluating the impact of dead clades walking on broader trends in Phanerozoic biodiversity, is published by Barnes, Sclafani & Zaffos (2021), who identify 70 invertebrate orders that experienced major diversity losses without recovery, but note that most of these taxa had a long duration after the drop in diversity, and many drops in diversity without recovery were not associated with mass extinction events.
  • A study on the relationship between changes in surface oxygenation and extinction rates of marine animals throughout the Phanerozoic is published by Stockey et al. (2021).
  • A study on shifts in the dynamics of the evolution of body size in marine animals between background intervals and the "Big Five" Phanerozoic extinction events is published by Monarrez, Heim & Payne (2021).
  • A study on changes of nutrient content of planktonic organic matter throughout the Phanerozoic is published by Sharoni & Halevy (2021).
  • New Burgess Shale-type Cambrian paleocommunity, preserving fossil eggs and fossils of members various phyla representing early and middle ontogenetic stages, is described from Haiyan (China) by Yang et al. (2021), who interpret the deposit as either preserving one of the earliest known nurseries in the fossil record, or recording several attempted invasions.
  • Geyer & Landing (2021) report a hitherto unknown Cambrian Stage 3 Lagerstätte from the Amouslek Formation (Morocco), preserving the first relatively abundant fossils with exceptional preservation from the Cambrian of Morocco (and Africa).
  • A study on the relationship between climate changes and origination rates in the marine fossil taxa throughout the last 485 million years is published by Mathes, Kiessling & Steinbauer (2021).
  • A study on the relationship between the rate and magnitude of climate change and the extinction rate of marine animals throughout the last 450 million years is published by Song et al. (2021).
  • A study on Carboniferous and early Permian tetrapod tracks, and on their implications for the knowledge of evolutionary changes in the anatomy of the trackmakers in and locomotion style close to the origin of amniotes, is published by Buchwitz et al. (2021).
  • A study aiming to determine the climatic preferences of major Permo-Triassic tetrapod groups is published by Liu, Angielczyk & Abdala (2021).
  • A study on the impact of Permian mass extinctions on continental invertebrate infauna, based on data from the Iberian Basin (central Spain), is published by Buatois et al. (2021), who report evidence of a dramatic decrease in bioturbation intensity on land by the end of the Capitanian, coinciding with an increase in weathering intensity and acidic conditions, and a collapse in plant communities spanning the late Permian–Early Triassic in the Iberian Basin.
  • A review of the state of research on the Capitanian mass extinction event in the Karoo Basin (South Africa) is published by Day & Rubidge (2021).
  • Evidence from tetrapod fossil record from the Karoo Basin (South Africa) indicative of a protracted (~1 Ma) extinction on land during the Permian-Triassic transition is presented by Viglietti et al. (2021).
  • Evidence of two pulses of extinction at the Permian–Triassic boundary caused by different environmental triggers is reported from the Liangfengya section in the South China Block by Li et al. (2021).
  • Evidence of algal and bacterial blooms following forest ecosystem collapse during the Permian–Triassic extinction event is reported from the Sydney Basin (Australia) by Mays et al. (2021), who interpret their findings as indicating that the proliferation of microbial communities was both a symptom of ecosystem collapse, and a cause of its delayed recovery in the aftermath of the Permian–Triassic mass extinction.
  • Smith et al. (2021) describe diverse assemblages of Early Triassic marine organisms from three new sites of the same age as the Paris Canyon exposures, and another slightly younger site, from Nevada and Idaho (United States), providing information on the recovery of marine biotas in the aftermath of the Permian–Triassic extinction event.
  • A study on the recovery of marine level-bottom communities in the aftermath of the Permian–Triassic extinction event, focusing on recovery during the Middle Triassic, is published by Friesenbichler, Hautmann & Bucher (2021).
  • Revision of the Triassic record of tetrapod tracks is published by Klein & Lucas (2021).
  • A study on the diversity dynamics and evolution of the functional morphology of tetrapod herbivores throughout the Triassic and Early Jurassic is published by Singh et al. (2021).
  • Marchetti et al. (2021) revise the tetrapod (including dinosauromorph) footprint assemblage from the Quarziti del Monte Serra Formation (Ladinian of Italy), and interpret this assemblage and other findings of Ladinian dinosauromorph footprints as evidence of wide dispersal of dinosauromorphs as early as the Middle Triassic.
  • Description of a rich assemblage of marine taxa from the Carnian Polzberg Lagerstätte (Austria) is published by Lukeneder & Lukeneder (2021).
  • A study aiming to determine the relationship between the development of the Jehol Biota in northeast China and the destruction of the North China Craton in the Early Cretaceous is published by Zhou et al. (2021).
  • The first evidence of a Late Cretaceous terrestrial community in the Caribbean, including fossil material of a midsize pterosaur and remains of plants belonging to the families Cupressaceae and Lauraceae, is reported from three upper Campanian–lower Maastrichtian localities in Cuba by Viñola-López et al. (2021).
  • A study on the timing of the recovery of the biological pump and marine plankton diversity in the aftermath of the Cretaceous–Paleogene extinction event is published by Birch et al. (2021).
  • A study on the impact of tectonic evolution in the Tethyan region on the evolution and diversity patterns of Eurasian animals throughout the Cenozoic is published by Zhao, Hou & Li (2021).
  • Zouhri et al. (2021) describe a diverse vertebrate fauna from the Eocene (Bartonian) Aridal Formation (Western Sahara), including 12 species of cartilaginous fishes, at least three species of turtles, at least two longirostrine crocodylian taxa, the oldest record of Pelagornis reported to date, and a proboscidean possibly belonging to the genus Barytherium.
  • Garrouste et al. (2021) report the discovery of Cretaceous and Miocene fossil assemblages from New Caledonia, providing new information on the diversity of fossil plants and insects from this island.
  • Synopsis of the fossil vertebrate assemblages of the Pisco Formation (Peru), and a study on their implications for the knowledge of the Humboldt Current Ecosystem during the Miocene, is published by Collareta et al. (2021).
  • Rich middle Miocene rainforest biome (the Zhangpu biota) preserved in amber and associated sedimentary rocks is reported from the Fotan Group (southeastern China) by Wang et al. (2021).
  • Description of non-mammal vertebrate fauna from the Miocene (Messinian) Monticino Quarry (Italy), including the oldest known records of the javelin sand boa or a related species, snakes belonging to the genus Malpolon and an unambiguous bustard reported to date, is published by Villa et al. (2021).
  • A study on the age of escorias (glassy rock fragments similar to volcanic scoriae, likely products of extraterrestrial impacts) collected along the Pampean Atlantic coast from the "Irene" and Chapadmalal Formations (Argentina), and on their implications for the knowledge of the timing of late Miocene–Pliocene faunal succession in the Pampean Region, is published by Prevosti et al. (2021).
  • A study on the age of the most recent Pleistocene megafaunal specimens from Cloggs Cave (Australia), and on its implications for the knowledge of the timing and causes of Late Pleistocene extinctions of Australian megafauna, is published by David et al. (2021).
  • A study aiming to determine whether a significant relationship can be detected between demographic susceptibility to extinction of members of Quaternary megafauna of Sahul and their extinction chronology inferred from their fossil record is published by Bradshaw et al. (2021).
  • A study aiming to determine whether the fossil record indicates that the arrival of hominins on islands in the Pleistocene was coincident with the disappearance of insular taxa is published by Louys et al. (2021).
  • A study on ancient environmental DNA of plants and animals recovered from sediments from sites distributed across much of the Arctic, covering the past 50 thousand years, is published by Wang et al. (2021), who interpret their findings as indicative of a relatively homogeneous steppe–tundra flora dominating the Arctic during the Last Glacial Maximum, followed by regional divergence of vegetation during the Holocene, as well as providing evidence of the survival of the woolly rhinoceros in northeast Kolyma as late as approximately 9.8 ka and the survival of mammoths in North America and Siberia into the Early Holocene (as late as approximately 3.9 ka in the area of the Taymyr Peninsula), and providing evidence of a previously unsampled mitochondrial lineage of mammoths.
  • Murchie et al. (2021) present a 30,000-year sedimentary ancient DNA record from permafrost silts in the Klondike region of Yukon (Canada), and interpret their findings as indicative of a substantial turnover in ecosystem composition between 13,500 and 10,000 calendar years ago with the replacement of the steppe-tundra ecosystem by woody shrubs, as well as indicative of persistence of North American horses and woolly mammoths for thousands of years after their supposed disappearance from the fossil record.
  • A study on the chronology of Late Pleistocene shrub expansion and megafauna extinctions in eastern Beringia is published by Monteath et al. (2021), who interpret their findings as indicating that the postglacial expansion of shrub tundra preceded the regional decline of populations of large mammal grazers.
  • A study on the extinction dynamics of the elephant birds and Malagasy hippos is published by Hansford et al. (2021), who interpret their findings as indicating that these animals persisted for millennia after first human arrival on Madagascar, that their communities collapsed suddenly ~1200-900 BP, and that their extinctions were closely correlated in time with intensive conversion of forests to grassland, probably resulting from human shift to agro-pastoralism.
  • A study aiming to determine how observed extinctions in the geological past can be predicted from the interaction of long-term temperature trends with short-term climate change is published by Mathes et al. (2021).
  • A study on the impact of the Capitanian mass extinction event, Permian–Triassic extinction event and Triassic–Jurassic extinction event on terrestrial and freshwater ecosystems, aiming to quantify community resistance during the extinction events and to determine ecological dynamics of communities before and after these extinctions, is published by Huang et al. (2021).
  • A study on correlations between fossilization potential and food web features, aiming to determine how fossilization impacts inferences of ancient community structure, is published by Shaw et al. (2021).
  • A study on the drilling predation pressure on sea urchins across the Mesozoic and Cenozoic is published by Petsios et al. (2021), who present evidence indicative of the Cenozoic intensification of this predation, and argue that the Mesozoic marine revolution was more likely a series of asynchronous processes with variable significance across different groups of predators and preys, rather than a single synchronized ecosystem-wide event.
  • A study on the spatial biodiversity dynamics of unicellular marine plankton throughout the Cenozoic, aiming to test the generality of the "out of the tropics" hypothesis (positing that the tropics are both a cradle and source of biodiversity for extratropical regions), is published by Raja & Kiessling (2021).
  • A study on the evolution of ecophysiological adaptations to life in the sea in extant and fossil marine tetrapods (excluding birds) is published by Motani & Vermeij (2021).

Other research

  • Mißbach et al. (2021) report the existence of indigenous organic molecules and gases in primary fluid inclusions in c. 3.5-billion-year-old barites from the Dresser Formation (Pilbara Craton, Australia), providing evidence of the organic composition of primordial fluids that were available for the early microbes.
  • A study on the 3.4-billion-year old organic films from the Buck Reef Chert (Kaapvaal Craton, South Africa) is published by Alleon et al. (2021), who interpret their findings as indicating that early Archean organic films carry chemical information directly related to their original molecular compositions, and evaluate the implications of their finding for the knowledge of the initial chemical nature of organic microfossils found in ancient rocks.
  • A study on the evolution of marine dissolved organic carbon concentrations is published by Fakhraee et al. (2021), who interpret their findings as indicating that the overall size of the marine dissolved organic carbon reservoir has likely undergone very little variation through Earth's history, casting doubt on previously hypothesized links between marine dissolved organic carbon levels and the emergence and radiation of early animals.
  • A study on the age of the Ediacaran stratigraphic successions in South China, and on its implications for the knowledge of the timing of the rise and early evolution of complex macroscopic life, is published by Yang et al. (2021).
  • A study on the carbon isotopic composition of marine carbonates and on the age of the Ediacaran Nama Group (Namibia) and other geological formations from the Ediacaran-Cambrian transition around the world, and on their implications for the knowledge of the early radiation of animals, is published by Bowyer et al. (2021).
  • A study on the timing and sequence of events through the early Darriwilian leading to the Great Ordovician Biodiversification Event is published by Rasmussen, Thibault & Rasmussen (2021), who interpret their findings as refuting the proposed link between the Ordovician meteor event and the icehouse conditions preceding the Ordovician radiation, and indicating that the meteorite fallout postdated both the onset of glaciation and the onset of the Ordovician radiation.
  • A study on the impact of volcanism-related delivery of the nutrient phosphorus to the Late Ordovician ocean on global cooling and Late Ordovician mass extinction is published by Longman et al. (2021).
  • A study evaluating the validity of the Devonian bioregionalization first proposed by Boucot, Johnson & Talent (1969) is published by Dowding, Ebach & Madroviev (2021).
  • Evidence of prolonged and repeated oxygen stress in the Appalachian Basin associated with the Late Devonian extinctions is presented by Boyer et al. (2021).
  • Rakociński et al. (2021) report very large anomalous mercury spikes from the south-western part of Tian Shan (Uzbekistan), and interpret this finding as evidence of intensive volcanic activity both predating and occurring during the Hangenberg Crisis.
  • Evidence from the South China Block indicative of extensive felsic volcanic activity coincident with the Permian–Triassic extinction event is presented by Zhang et al. (2021), who interpret their findings as indicating that felsic volcanism in South China was a key contributor to the environmental deterioration that led to the Permian–Triassic extinction event.
  • Evidence from the southern Karoo Basin of South Africa indicative of at least four atmospheric carbon dioxide spikes coinciding with extinctions on land and at sea from the Late Permian to the Middle Triassic is presented by Retallack (2021).
  • Lu et al. (2021) present a record of volcanism and environmental changes from Carnian lake succession of the Jiyuan Basin (North China), and interpret their findings as indicative of four pulses of volcanism which were probably responsible for the global carbon isotope excursions that marked the Carnian pluvial episode and drove major environmental changes in the Jiyuan Basin.
  • A study evaluating whether fuel-driven changes to fire activity during the Cretaceous period had the ability to counteract rising atmospheric oxygen at this time is published by Belcher et al. (2021), who argue that alteration of fire feedbacks driven by the rise of the flowering plants likely lowered atmospheric oxygen levels from ~30% to 25% by the end of the Cretaceous.
  • White & Campione (2021) describe a workflow in which three-dimensional surface profiles of fragmentary fossils can be quantitatively compared to better-known exemplars in order to identify fragmentary fossils, and apply this workflow to megaraptorid theropod unguals from the Cretaceous of Australia.
  • A study aiming to test whether histological characters can be used to assign bones to individuals within a quarry, using sauropod dinosaur material from two adjacent Morrison quarries in the Bighorn Basin (Wyoming, United States) as a case study, is published by Wiersma-Weyand et al. (2021).
  • A study on diverse amniotic eggshells from the Wido Volcanics (Upper Cretaceous, South Korea), evaluating their utility for assessments of the paleothermometry of the sedimentary deposits, is published by Choi et al. (2021).
  • A study on the age and duration of the Lower Cretaceous Yixian Formation (China) is published by Zhong et al. (2021).
  • A study on the age of the Jiufotang Formation outcrops in the Jianchang Basin (Liaoning, China) is published by Yu et al. (2021).
  • A study on the elevation and mean annual temperature of the Sihetun area (Liaoning, China) in the Early Cretaceous, when the area was inhabited by feathered dinosaurs, is published by Zhang, Yin & Wang (2021), who interpret their findings as indicative of a high altitude and cold habitat with frozen winters for the Jehol Biota in this area, and evaluate possible implications of such habitat for the evolution of the feathered characteristic of the dinosaurs.
  • A study on possible impact of taphonomic biases on preservation of small-bodied dinosaurs and mammals from the Hell Creek and Lance formations, and on its implications for the knowledge of diversity and abundance of small-bodied taxa from these formations, is published by Brown et al. (2021).
  • Goderis et al. (2021) report new data revealing a positive iridium anomaly within the peak-ring sequence of the Chicxulub impact structure, and interpret this finding as conclusively tying Chicxulub to the global iridium layer and Cretaceous-Paleogene boundary sections worldwide, confirming the link between crater formation and the iridium peak detected in these sections.
  • DePalma et al. (2021) present data from histological and histo-isotopic analyses of fossil fish from the Tanis fossil site (North Dakota, United States), interpreted as indicating that the end-Cretaceous Chicxulub impact occurred during boreal Spring/Summer, shortly after the spawning season for fish and most continental taxa.
  • A study on the taphonomy of marine vertebrate fossils from the Miocene Pisco Formation (Peru), aiming to determine possible causes of their exceptional preservation, is published by Bosio et al. (2021).
  • A study on Middle Miocene microfloral assemblages from ten localities in the Madrid Basin (Spain), providing evidence of prevalence of open habitats with grass-dominated, savannah-like vegetation under a warm and semi-arid climatic regime in the Iberian Peninsula in the Middle Miocene, is published by Casas-Gallego et al. (2021).
  • A study aiming to determine whether a strong link can be established between stable carbon isotopes of tooth enamel of herbivores and vegetation structure in present African ecosystems, and whether enamel stable carbon isotopes of fossil herbivores are useful for making inferences about Plio-Pleistocene vegetation structure in Africa and the environmental context of hominin evolution, is published by Robinson et al. (2021).
  • A study on environmental changes in East Africa at the time of the extinction of Paranthropus boisei is published by Quinn & Lepre (2021), who report evidence of a significant reduction in C4 grasslands during Mid-Pleistocene Transition, and argue that this reduction might have escalated dietary competition amongst the abundant C4-feeders and influenced P. boisei's demise; their conclusions are subsequently contested by Patterson et al. (2022).
  • Evidence from Chitimwe Beds (northern Malawi), indicating that in the late Pleistocene early modern humans fundamentally altered local landscapes and ecology using fire, is presented by Thompson et al. (2021).
  • A study on the climate and environments in the Guadix-Baza Basin (Spain) from the Pliocene to the Middle Pleistocene, aiming to reconstruct environments inhabited by some of the earliest humans who dispersed into Europe, is published by Saarinen et al. (2021).
  • A study on the Early Pleistocene environment of the Nihewan Basin (China), as indicated by stable isotope data from tooth enamel of mammals from the Madigou site, is published by Xu et al. (2021).
  • A study on environmental changes in Southeast Asia at the time of the Pleistocene turnovers of hominin species culminating with the arrival of Homo sapiens in the area, based on data from mammal fossils from five faunas from Vietnam and Laos whose ages ranged from MIS 6–5 to MIS 3–2, and aiming to determine how the climate changes that occurred during the Late Pleistocene might have influenced the adaptation of the first H. sapiens in the area, is published by Bacon et al. (2021).
  • A study on the relationship between the severity of late Quaternary megaherbivore extinctions and fire activity in grassy ecosystems is published by Karp et al. (2021).
  • Ellis et al. (2021) examine current biodiversity patterns in relation to distribution of human populations and land use over the past 12,000 years, and argue that as early as 12,000 years ago nearly three quarters of Earth's land was inhabited and shaped by human societies.
  • Alleon et al. (2021) revise reports of organic molecules in animal fossils, and argue that purported signatures of organic molecules are in reality instrumental artefacts resulting from intense background luminescence; their conclusions are subsequently contested by Wiemann & Briggs (2022).
  • A study aiming to assess how methods used to determine diversification rate variation through time perform when applied to entirely extinct groups, applying them to ornithischian dinosaurs, is published by Černý, Madzia & Slater (2021).
  • A new method for estimating dimorphism levels in fossil assemblages is presented by Sasaki et al. (2021).
  • A methodological schema for investigating evolvability in the fossil record is proposed by Love et al. (2021).
  • Didier & Laurin (2021) present a method to compute the distribution of the extinction time of a given set of taxa, and apply this method to the study of the extinction time of three Permo-Carboniferous synapsid taxa (Ophiacodontidae, Edaphosauridae and Sphenacodontidae).
  • A study assessing whether resin impregnation of sediment blocks interferes with the retrieval of ancient DNA from sediments, and evaluating ancient mammalian DNA preservation in Pleistocene sediment blocks from 13 archaeological sites in Europe, Asia, Africa, and North America, is published by Massilani et al. (2021).
  • A study exploring the causal relationship between the global distribution of fossil occurrence data and the legacy of colonialism and associated socioeconomic factors, and evaluating the implications of that relationships for the knowledge of past biodiversity, is published by Raja et al. (2021).

Paleoclimate

  • Scotese et al. (2021) estimate how global temperatures have changed during the last 540 million years.
  • A high-resolution proxy record of Late Cambrian and Ordovician climate is presented by Goldberg et al. (2021).
  • A study on changes in weathering intensity and temperature along a temperate to subpolar southeastern margin of Gondwana (eastern margin of present-day Australia) across the end-Permian extinction is published by Frank et al. (2021).
  • A study on the atmospheric CO2 levels during the Permian–Triassic transition, based on data from fossil plant remains from sedimentary successions in southwestern China, is published by Wu et al. (2021), who present evidence of a six-fold increase of atmospheric pCO2 during the Permian–Triassic mass extinction.
  • A study on the source, pace and total amount of CO2 emissions during the Permian–Triassic transition is published by Cui et al. (2021), who interpret their findings as suggesting that rapid and massive amount of largely volcanic CO2 emission was necessary to drive the observed pattern of carbon isotope excursions, the abrupt decline in surface ocean pH and global temperature increase, and was likely the main cause of the end-Permian mass extinction.
  • A study on the climate of the Lufeng area (China) during the Early Jurassic, and on the relationship between the global distribution of dinosaur fossils and climate during the Jurassic, is published by Shen et al. (2021).
  • A study on atmospheric carbon dioxide concentration levels during the late Albian, as indicated by stomata characteristics of conifers Pseudofrenelopsis gansuensis and Pseudofrenelopsis dalatzensis from the Dalazi Formation (China), is published by Li, Yang & Zhu (2021).
  • Evidence of the presence of a terrestrial climate barrier in the Western Interior Basin of North America during the final 15 million years of the Cretaceous, dividing the Western Interior Basin into warm southern and cool northern biomes, is presented by Burgener et al. (2021), who also report evidence indicating that the biogeographical distribution of plants was heavily influenced by the presence of this temperature transition zone.
  • De Winter et al. (2021) present reconstructions of monthly sea surface temperatures at around 50 °N latitude about 78 million years ago, based on data from oyster and rudist shells from the Kristianstad Basin (Sweden).
  • A study on CO2 contents of early Deccan Traps lavas, aiming to determine whether early Deccan magmatism triggered the warming event during the latest Maastrichtian, is published by Hernandez Nava et al. (2021).
  • Vento et al. (2021) estimate parameters of the Paleogene to Neogene climate on the basis of data from fossil leaves from the Río Turbio and Río Guillermo formations in southern South America (Argentina).
  • A study aiming to evaluate the fit of molecular phylogenetic and biogeographic data from extant animals and models regarding the age of formation of the Amazon fluvial system is published by Méndez-Camacho, Leon-Alvarado & Miranda-Esquivel (2021).
  • 10-million-year long proxy record of Arabian climate is developed by Böhme et al. (2021), who report evidence indicative of a sustained period of hyperaridity in the Pliocene and a number of transient periods of hyperaridity in northern Arabia during the late Miocene which were out of phase with those in North Africa, and argue that these desert dynamics had a strong control on large-scale mammalian dispersals between Africa and Eurasia.
  • A study aiming to estimate the tolerance to low precipitation and aridity that would have been required for early humans to successfully exit Africa and to determine the timings of climatic windows out of Africa for humans, based on data from paleoclimate simulations of the last 300,000 years, is published by Beyer et al. (2021).
  • A study on climate changes in eastern Africa over the past 200,000 years, evaluating their possible impact on the mobility and dispersal of early Homo sapiens, is published by Schaebitz et al. (2021).
  • A study aiming to reconstruct summer and winter temperatures in the Late Pleistocene when Neanderthals were using the site of La Ferrassie (France), based on data from oxygen isotope measurements of bovid tooth enamel, is published by Pederzani et al. (2021).
  • A study on local seasonal temperatures in the area of the Bacho Kiro cave (Bulgaria) in the Initial Upper Paleolithic, and on its implications for the knowledge whether early presence of Homo sapiens in Europe was contingent on warm climates, is published by Pederzani et al. (2021).
  • Data from analyses and modelling of noble gases in groundwater, indicating that the low-altitude, low-to-mid-latitude land surface (45 degrees south to 35 degrees north) was about 6 °C cooler during the Last Glacial Maximum than during the Late Holocene, is presented by Seltzer et al. (2021).
  • Osman et al. (2021) reconstruct surface temperature changes spanning the Last Glacial Maximum to present at 200-year resolution.

This page was last updated at 2023-11-04 07:52 UTC. Update now. View original page.

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