A primitive actinopterygian braincase from the Tournaisian of Nova Scotia

The vertebrate fossil record of the earliest Carboniferous is notoriously poorly sampled, obscuring a critical interval in vertebrate evolution and diversity. Recent studies of diversity across the Devonian–Carboniferous boundary have proposed a vertebrate mass extinction at the end-Devonian, and recent phylogenies suggest that the origin of the actinopterygian crown may have occurred in the earliest Carboniferous, as part of a broader recovery fauna. However, the data necessary to test this are limited. Here, we describe a partial actinopterygian skull, including diagnostic elements of the posterior braincase, from the Tournaisian Horton Bluff Formation of Blue Beach, Nova Scotia. The braincase surprisingly shows a confluence of characters common in Devonian taxa but absent in Mississippian forms, such as an open spiracular groove; lateral dorsal aortae that pass through open broadly separated, parallel grooves in the ventral otoccipital region, posterior to the articulation of the first infrapharyngobranchial and an intertemporal–supratemporal complex. Phylogenetic analysis places it deep within the actinopterygian stem, among Devonian moythomasiids and mimiids, suggesting more phylogenetically inclusive survivorship of stem group actinopterygians across the end-Devonian mass extinction. With a high lineage survivorship in tetrapods and lungfish across the Devonian–Carboniferous boundary and high vertebrate diversity at Tournaisian localities, this hints at a more gradual turnover between Devonian and Carboniferous vertebrate faunas.

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Eutherians experienced elevated evolutionary rates in the immediate aftermath of the Cretaceous–Palaeogene mass extinction

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2015.3026 ◽

2016 ◽

Vol 283 (1833) ◽

pp. 20153026 ◽

Cited By ~ 25

Author(s):

Thomas John Dixon Halliday ◽

Paul Upchurch ◽

Anjali Goswami

Keyword(s):

Phylogenetic Analysis ◽

Adaptive Radiation ◽

Mass Extinction ◽

Fossil Record ◽

Morphological Evolution ◽

Placental Mammal ◽

Stochastic Methods ◽

Ecological Niches ◽

Evolutionary Radiation ◽

Quantitative Analyses

The effect of the Cretaceous–Palaeogene (K–Pg) mass extinction on the evolution of many groups, including placental mammals, has been hotly debated. The fossil record suggests a sudden adaptive radiation of placentals immediately after the event, but several recent quantitative analyses have reconstructed no significant increase in either clade origination rates or rates of character evolution in the Palaeocene. Here we use stochastic methods to date a recent phylogenetic analysis of Cretaceous and Palaeocene mammals and show that Placentalia likely originated in the Late Cretaceous, but that most intraordinal diversification occurred during the earliest Palaeocene. This analysis reconstructs fewer than 10 placental mammal lineages crossing the K–Pg boundary. Moreover, we show that rates of morphological evolution in the 5 Myr interval immediately after the K–Pg mass extinction are three times higher than background rates during the Cretaceous. These results suggest that the K–Pg mass extinction had a marked impact on placental mammal diversification, supporting the view that an evolutionary radiation occurred as placental lineages invaded new ecological niches during the Early Palaeocene.

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A Tody (Alcediniformes: Todidae) From The Early Oligocene of Germany

The Auk ◽

10.1093/auk/124.4.1294 ◽

2007 ◽

Vol 124 (4) ◽

pp. 1294-1304 ◽

Cited By ~ 3

Author(s):

Gerald Mayr ◽

Charles W. Knopf

Keyword(s):

Phylogenetic Analysis ◽

Phylogenetic Relationships ◽

Fossil Record ◽

Molecular Data ◽

Greater Antilles ◽

Postcranial Skeleton ◽

Old World ◽

Early Oligocene ◽

Stem Group ◽

The Caribbean

Abstract We describe a postcranial skeleton of a stem-group tody (Aves: Alcediniformes: Todidae) from the early Oligocene of Germany. The fossil is tentatively assigned to Palaeotodus itardiensisMourer-Chauviré, 1985, which previously was known only from a few incomplete bones from the early Oligocene of France. It is the most substantial fossil record of a Paleogene stem-group tody described so far and shows many previously unknown skeletal details. The specimen confirms the occurrence of Todidae, which are today restricted to the Caribbean Greater Antilles, in the Paleogene of Europe. The biogeographical significance of these finds depends on the phylogenetic relationships between Todidae and other alcediniform birds. If Todidae are not the sister taxon of Momotidae (motmots) as suggested by a recent phylogenetic analysis of molecular data, occurrence of stem-group Todidae in the Old World fossil record actually follows from the currently assumed Old World origin of alcediniform birds. Ein Todi (Alcediniformes: Todidae) aus dem unteren Oligozän Deutschlands

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Phylogenetic Analysis of T-Box Genes Demonstrates the Importance of Amphioxus for Understanding Evolution of the Vertebrate Genome

Genetics ◽

10.1093/genetics/156.3.1249 ◽

2000 ◽

Vol 156 (3) ◽

pp. 1249-1257

Author(s):

Ilya Ruvinsky ◽

Lee M Silver ◽

Jeremy J Gibson-Brown

Keyword(s):

Phylogenetic Analysis ◽

Whole Genome Duplication ◽

Genome Duplication ◽

Gene Families ◽

Vertebrate Evolution ◽

Whole Genome ◽

Vertebrate Genome ◽

T Box ◽

Genetic Complexity ◽

History Of

Abstract The duplication of preexisting genes has played a major role in evolution. To understand the evolution of genetic complexity it is important to reconstruct the phylogenetic history of the genome. A widely held view suggests that the vertebrate genome evolved via two successive rounds of whole-genome duplication. To test this model we have isolated seven new T-box genes from the primitive chordate amphioxus. We find that each amphioxus gene generally corresponds to two or three vertebrate counterparts. A phylogenetic analysis of these genes supports the idea that a single whole-genome duplication took place early in vertebrate evolution, but cannot exclude the possibility that a second duplication later took place. The origin of additional paralogs evident in this and other gene families could be the result of subsequent, smaller-scale chromosomal duplications. Our findings highlight the importance of amphioxus as a key organism for understanding evolution of the vertebrate genome.

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Molecular Phylogenetic Analysis of the AIG Family in Vertebrates

Genes ◽

10.3390/genes12081190 ◽

2021 ◽

Vol 12 (8) ◽

pp. 1190

Author(s):

Yuqi Huang ◽

Minghao Sun ◽

Lenan Zhuang ◽

Jin He

Keyword(s):

Phylogenetic Analysis ◽

Gene Family ◽

Functional Characterization ◽

Vertebrate Evolution ◽

Molecular Phylogenetic Analysis ◽

Whole Genome Duplications ◽

Genome Duplications ◽

Molecular Phylogenetic ◽

Duplication Events ◽

Inducible Genes

Androgen-inducible genes (AIGs), which can be regulated by androgen level, constitute a group of genes characterized by the presence of the AIG/FAR-17a domain in its protein sequence. Previous studies on AIGs demonstrated that one member of the gene family, AIG1, is involved in many biological processes in cancer cell lines and that ADTRP is associated with cardiovascular diseases. It has been shown that the numbers of AIG paralogs in humans, mice, and zebrafish are 2, 2, and 3, respectively, indicating possible gene duplication events during vertebrate evolution. Therefore, classifying subgroups of AIGs and identifying the homologs of each AIG member are important to characterize this novel gene family further. In this study, vertebrate AIGs were phylogenetically grouped into three major clades, ADTRP, AIG1, and AIG-L, with AIG-L also evident in an outgroup consisting of invertebrsate species. In this case, AIG-L, as the ancestral AIG, gave rise to ADTRP and AIG1 after two rounds of whole-genome duplications during vertebrate evolution. Then, the AIG family, which was exposed to purifying forces during evolution, lost or gained some of its members in some species. For example, in eutherians, Neognathae, and Percomorphaceae, AIG-L was lost; in contrast, Salmonidae and Cyprinidae acquired additional AIG copies. In conclusion, this study provides a comprehensive molecular phylogenetic analysis of vertebrate AIGs, which can be employed for future functional characterization of AIGs.

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The putative lissamphibian stem-group: phylogeny and evolution of the dissorophoid temnospondyls

Journal of Paleontology ◽

10.1017/jpa.2018.67 ◽

2018 ◽

Vol 93 (1) ◽

pp. 137-156 ◽

Cited By ~ 9

Author(s):

Rainer R. Schoch

Keyword(s):

Phylogenetic Analysis ◽

Large Scale ◽

Sensu Stricto ◽

New Taxon ◽

Stem Group ◽

Phylogeny And Evolution

AbstractDissorophoid temnospondyls are widely considered to have given rise to some or all modern amphibians (Lissamphibia), but their ingroup relationships still bear major unresolved questions. An inclusive phylogenetic analysis of dissorophoids gives new insights into the large-scale topology of relationships. Based on a TNT 1.5 analysis (33 taxa, 108 characters), the enigmatic taxonPerryellais found to nest just outside Dissorophoidea (phylogenetic defintion), but shares a range of synapomorphies with this clade. The dissorophoids proper are found to encompass a first dichotomy between the largely paedomorphic Micromelerpetidae and all other taxa (Xerodromes). Within the latter, there is a basal dichotomy between the large, heavily ossified Olsoniformes (Dissorophidae + Trematopidae) and the small salamander-like Amphibamiformes (new taxon), which include four clades: (1) Micropholidae (Tersomius,Pasawioops,Micropholis); (2) Amphibamidae sensu stricto (Doleserpeton,Amphibamus); (3) Branchiosauridae (Branchiosaurus,Apateon,Leptorophus,Schoenfelderpeton); and (4) Lissamphibia. The generaPlatyrhinopsandEoscopusare here found to nest at the base of Amphibamiformes. Represented by their basal-most stem-taxa (Triadobatrachus,Karaurus,Eocaecilia), lissamphibians nest withGerobatrachusrather than Amphibamidae, as repeatedly found by former analyses.UUID:http://zoobank.org/dadf36db-e003-4af7-bfa7-44d79bc04450

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First rebbachisaurid sauropod dinosaur from Asia

PLoS ONE ◽

10.1371/journal.pone.0246620 ◽

2021 ◽

Vol 16 (2) ◽

pp. e0246620

Author(s):

Alexander Averianov ◽

Hans-Dieter Sues

Keyword(s):

Phylogenetic Analysis ◽

Fossil Record ◽

Upper Cretaceous ◽

Neural Spine ◽

Lateral Side ◽

New Taxon ◽

Caudal Vertebra

Dzharatitanis kingi gen. et sp. nov. is based on an isolated anterior caudal vertebra (USNM 538127) from the Upper Cretaceous (Turonian) Bissekty Formation at Dzharakuduk, Uzbekistan. Phylogenetic analysis places the new taxon within the diplodocoid clade Rebbachisauridae. This is the first rebbachisaurid reported from Asia and one of the youngest rebbachisaurids in the known fossil record. The caudal is characterized by a slightly opisthocoelous centrum, ‘wing-like’ transverse processes with large but shallow PRCDF and POCDF, and the absence of a hyposphenal ridge and of TPRL and TPOL. The neural spine has high SPRL, SPDL, SPOL, and POSL and is pneumatized. The apex of neural spine is transversely expanded and bears triangular lateral processes. The new taxon shares with Demandasaurus and the Wessex rebbachisaurid a high SPDL on the lateral side of the neural spine, separated from SPRL and SPOL. This possibly suggests derivation of Dzharatitanis from European rebbachisaurids. This is the second sauropod group identified in the assemblage of non-avian dinosaurs from the Bissekty Formation, in addition to a previously identified indeterminate titanosaurian.

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The Fossil Record of Early Tetrapods: Worker Effort and the End-Permian Mass Extinction

Acta Palaeontologica Polonica ◽

10.4202/app.2009.0025 ◽

2010 ◽

Vol 55 (2) ◽

pp. 229-239 ◽

Cited By ~ 14

Author(s):

Emma L. Bernard ◽

Marcello Ruta ◽

James E. Tarver ◽

Michael J. Benton

Keyword(s):

Mass Extinction ◽

Fossil Record ◽

Early Tetrapods ◽

Permian Mass Extinction

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Protohemiphlebiidae fam. nov., a stem hemiphlebioid damselfly from Cretaceous amber in Kachin

Geological Society London Special Publications ◽

10.1144/sp521-2020-249 ◽

2021 ◽

pp. SP521-2020-249

Author(s):

Daran Zheng ◽

Edmund A. Jarzembowski ◽

De Zhuo ◽

André Nel

Keyword(s):

Phylogenetic Analysis ◽

Late Jurassic ◽

New Genus ◽

Early Evolution ◽

Relict Species ◽

Wing Base ◽

New Family ◽

Stem Group ◽

The Family

AbstractHemiphlebiidae are the most basal lestomorphan family following the latest phylogenetic analysis of the Zygoptera: this unique damselfly family today contains one relict species found in the wetlands of Australia. It was, however, very diverse and widespread during the Mesozoic. Nevertheless, very few species were known obscuring the origination and early evolution of the family. Here we propose a new stem hemiphlebioid taxon (Protohemiphlebiidae Zheng, Jarzembowski & Nel, fam. nov.) based on a new genus and two species: Protohemiphlebia zhangi Zheng, Jarzembowski & Nel, sp. nov. and Protohemiphlebia meiyingae Zheng, Jarzembowski & Nel, sp. nov. The new family shares the characters of both Hemiphlebiidae and Coenagrionoidea, but it is more closely related to Hemiphlebiidae in having the pterostigma with a ‘star-shaped’ microsculpture, and AA originating from the wing base slightly distal of Ax0. Protohemiphlebia Zheng, Jarzembowski & Nel, gen. nov. is further considered to belong to the stem group of Hemiphlebioidea, instead of belonging to the Hemiphlebiidae, in possessing pretibial combs and a weakly kinked RP1 below the Pt-brace. The new damselflies will help to calibrate the origin of Hemiphlebiidae, which could be earlier than their current oldest records in the Kimmeridgean (Late Jurassic).

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The recently proposed odonatan ‘suborder’ Cephalozygoptera: fact or fiction

Palaeoentomology ◽

10.11646/palaeoentomology.4.2.5 ◽

2021 ◽

Vol 4 (2) ◽

pp. 165-170

Author(s):

ANDRÉ NEL ◽

DARAN ZHENG

Keyword(s):

Phylogenetic Analysis ◽

Fossil Record ◽

Burmese Amber ◽

Current State ◽

The Family

The new ‘suborder’ Cephalozygoptera was recently proposed for three fossil families of damselfly-like Odonata, on the basis of three characters of the head. Here we show, thanks to counter-examples of the presence of these characters in compression fossils of genuine Zygoptera, that these ‘characters’ do not exist in reality but are due to deformations and compression of the heads, a very frequent phenomenon in the fossil record of the whole superorder Odonatoptera. Furthermore, these alleged characters would have to have been regarded as symplesiomorphies, insufficient to support a new clade. Consequently, we consider the Cephalozygoptera as unfounded, to be rejected in the current state of knowledge. A new phylogenetic analysis of the whole clade Panodonata would be welcome. We also discuss the position of some previously described fossils: the Paleocene genus Valerea is restored in the Epallagidae (Euphaeidae), and the two Burmese amber genera Electrodysagrion and Palaeodysagrion are restored in the family Dysagrionidae.

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Systematics of a survivor: the Cambrian kingstoniid trilobite Blountia Walcott, 1916 across the Marjuman–Steptoean (Guzhangian–Paibian) extinction interval in Laurentian North America

Zootaxa ◽

10.11646/zootaxa.4804.1.1 ◽

2020 ◽

Vol 4804 (1) ◽

pp. 1-79

Author(s):

MADISON ARMSTRONG ◽

STEPHEN R. WESTROP ◽

JENNIFER D. EOFF

Keyword(s):

Phylogenetic Analysis ◽

New Species ◽

North America ◽

Mass Extinction ◽

Archival Material ◽

Number Of Species

The Cambrian (Marjuman–Steptoean; Guzhangian–Paibian) kingstoniid trilobite Blountia Walcott, 1916 is distributed widely in shelf strata of Laurentian North America. Species known from Marjuman formations were lost at the mass extinction at the end of that stage. New species entered the succession during and after the extinction interval, only to disappear within the Aphelaspis Zone of the lower part of the Steptoean Stage. Steptoean species and several uppermost Marjuman (Crepicephalus Zone) species are treated in this monograph. New collections and revision of type and other archival material increase the number of species in Steptoean strata from two to six. Phylogenetic analysis supports monophyly of Blountia and Maryvillia Walcott, 1916; Blountina Lochman, in Lochman & Duncan, 1944 is retained as a monotypic taxon. Steptoean species do not form a single subclade within the cladogram, so there is no evidence for a simple monophyletic radiation following the end-Marjuman extinction. New species are Blountia angelae, B. morgancreekensis, B. nevadensis, B. newfoundlandensis, and B. tennesseensis.

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