New information on the early Permian lanthanosuchoid <i>Feeserpeton oklahomensis</i> based on computed tomography

MacDougall, Mark J.; Winge, Anika; Ponstein, Jasper; Jansen, Maren; Reisz, Robert R.; Fröbisch, Jörg

doi:10.7717/peerj.7753

Cited by 7 publications

(18 citation statements)

References 31 publications

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“…First, if Eunotosaurus has moved from the “parareptiles” well outside Diapsida [PN]—or well inside Diapsida, though presumably still in its stem-group ( Ford and Benson, 2019 )—to the turtle stem within the crown group of Diapsida (i.e., Reptilia [PN]), do any other “parareptiles” follow it? The oldest known member of that assemblage, Carbonodraco , comes from the site of Linton in Ohio ( Mann et al, 2019 ), which is about 307–308 Ma old (compare Reisz and Modesto, 1996 ; Carpenter et al, 2015 ), so that should be the minimum age of Archelosauria if all “parareptiles” are archelosaurs; the currently available phylogenetic analyses of “parareptiles” ( Laurin and Piñeiro, 2018 ; MacDougall et al, 2019 ) have not adequately tested this question. While Schoch and Sues (2017) did test the mutual relationships of “parareptiles,” Eunotosaurus , and diapsids and found Eunotosaurus nested in the latter, several nodes away from the former, these nodes were very poorly supported.…”

Section: Methodsmentioning

confidence: 99%

“…While Schoch and Sues (2017) did test the mutual relationships of “parareptiles,” Eunotosaurus , and diapsids and found Eunotosaurus nested in the latter, several nodes away from the former, these nodes were very poorly supported. The character and taxon samples of all existing matrices for analyses of amniote phylogeny need to be substantially improved ( Ford and Benson, 2018 , 2019 ; Laurin and Piñeiro, 2018 ; MacDougall et al, 2019 ; Mann et al, 2019 ); Ford and Benson (2019) made a large step in that direction, but deliberately excluded Eunotosaurus and the turtles from their analysis so as not to have to deal with all problems at the same time.…”

Section: Methodsmentioning

confidence: 99%

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The Making of Calibration Sausage Exemplified by Recalibrating the Transcriptomic Timetree of Jawed Vertebrates

Marjanović

2021

Front. Genet.

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Molecular divergence dating has the potential to overcome the incompleteness of the fossil record in inferring when cladogenetic events (splits, divergences) happened, but needs to be calibrated by the fossil record. Ideally but unrealistically, this would require practitioners to be specialists in molecular evolution, in the phylogeny and the fossil record of all sampled taxa, and in the chronostratigraphy of the sites the fossils were found in. Paleontologists have therefore tried to help by publishing compendia of recommended calibrations, and molecular biologists unfamiliar with the fossil record have made heavy use of such works (in addition to using scattered primary sources and copying from each other). Using a recent example of a large node-dated timetree inferred from molecular data, I reevaluate all 30 calibrations in detail, present the current state of knowledge on them with its various uncertainties, rerun the dating analysis, and conclude that calibration dates cannot be taken from published compendia or other secondary or tertiary sources without risking strong distortions to the results, because all such sources become outdated faster than they are published: 50 of the (primary) sources I cite to constrain calibrations were published in 2019, half of the total of 280 after mid-2016, and 90% after mid-2005. It follows that the present work cannot serve as such a compendium either; in the slightly longer term, it can only highlight known and overlooked problems. Future authors will need to solve each of these problems anew through a thorough search of the primary paleobiological and chronostratigraphic literature on each calibration date every time they infer a new timetree, and that literature is not optimized for that task, but largely has other objectives.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

The Making of Calibration Sausage Exemplified by Recalibrating the Transcriptomic Timetree of Jawed Vertebrates

Marjanović

2021

Front. Genet.

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“…Reptilia [PN]), do any other “parareptiles” follow it? The oldest known member of that assemblage, Carbonodraco , comes from the site of Linton in Ohio (Mann et al, 2019), which is about 307–308 Ma old (compare Reisz and Modesto, 1996, and Carpenter et al, 2015), so that should be the minimum age of Archelosauria if all “parareptiles” are archelosaurs; the currently available phylogenetic analyses of “parareptiles” (Laurin and Piñeiro, 2018; MacDougall et al, 2019) have not adequately tested this question. While Schoch and Sues (2017) did test the mutual relationships of “parareptiles”, Eunotosaurus and diapsids and found Eunotosaurus nested in the latter, several nodes away from the former, these nodes were very poorly supported.…”

Section: Methodsmentioning

confidence: 99%

“…An Early Triassic or perhaps Late Permian maximum age seems reasonable, but, given the rarity of stem-pan-lepidosaurs and of Permian diapsids in general (Carroll's Gap -Marjanović and Laurin, 2013a), I rather propose to use the ecologically similar small amniotes (e.g. Haridy et al, 2017;MacDougall et al, 2019) Simões et al, 2018Simões et al, , 2020, the pan-squamate record as known today goes completely silent (see below under Node 131 for the one or two supposed exceptions) until the dam suddenly breaks in the Bathonian (Middle Jurassic) and representatives of the stem as well as, by current understanding, several parts of the crown appear in several sites in the northern continents and northernmost Gondwana. Second, these early representatives are all isolated and generally incomplete bones that preserve few diagnostic characters; the oldest complete skeletons come from one Tithonian (latest Jurassic) cluster of sites (Conrad, 2017), followed by a few Early Cretaceous ones as well as the oldest partially articulated material other than Megachirella.…”

Section: Node 125: Lepidosauria [Pn] (Rhynchocephalia -Pan-squamata [mentioning

confidence: 99%

Section: Node 125: Lepidosauria [Pn] (Rhynchocephalia -Pan-squamata [mentioning

confidence: 99%

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The making of calibration sausage exemplified by recalibrating the transcriptomic timetree of jawed vertebrates

Marjanović

2019

Preprint

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9Molecular divergence dating has the potential to overcome the incompleteness of the fossil record in 10 inferring when cladogenetic events (splits, divergences) happened, but needs to be calibrated by the 11 fossil record. Ideally but unrealistically, this would require practitioners to be specialists in molecular 12 evolution, in the phylogeny and the fossil record of all sampled taxa, and in the chronostratigraphy of 13 the sites the fossils were found in. Paleontologists have therefore tried to help by publishing 14 compendia of recommended calibrations, and molecular biologists unfamiliar with the fossil record 15have made heavy use of such works. Using a recent example of a large timetree inferred from 16 molecular data, I demonstrate that calibration dates cannot be taken from published compendia 17 without risking strong distortions to the results, because compendia become outdated faster than they 18 are published. The present work cannot serve as such a compendium either; in the slightly longer 19 term, it can only highlight known and overlooked problems. Future authors will need to solve each of 20 these problems anew through a thorough search of the primary paleobiological and 21 chronostratigraphic literature on each calibration date every time they infer a new timetree; over 40% 22 of the sources I cite were published after mid-2016. 23 Treating all calibrations as soft bounds results in younger nodes than treating all calibrations as hard 24bounds. The unexpected exception are nodes calibrated with both minimum and maximum ages, 25 further demonstrating the widely underestimated importance of maximum ages in divergence dating. 26

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Reassessment of historic ‘microsaurs’ from Joggins, Nova Scotia, reveals hidden diversity in the earliest amniote ecosystem

Mann

Gee

Pardo

et al. 2020

Papers in Palaeontology

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'Microsaurs' are traditionally considered to be lepospondyl non-amniotes, but recent analyses have recovered a subset of 'microsaurs', the fossorially adapted Recumbirostra, within Amniota. This novel conclusion highlights the need for additional work to evaluate these competing hypotheses with the aim of refining the phylogenetic position of 'microsaurs'. Of particular importance in this regard is the placement of potential close relatives of recumbirostrans to determine whether they support an early, stepwise acquisition of the derived morphology seen in recumbirostrans for a fossorial lifestyle, or whether this morphology is the result of evolutionary convergence. Asaphestera intermedia is part of a diverse 'microsaur' assemblage preserved at the famous Pennsylvanian Joggins locality in Nova Scotia, Canada. As part of a broader exploration of 'microsaur' taxonomy, we find that the material assigned to this taxon is a composite of a synapsid (herein Asaphestera platyris), indeterminate tetrapod material named 'Hylerpeton' intermedium (a nomen dubium not referable to Hylerpeton), and the newly recognized recumbirostran Steenerpeton silvae gen. et sp. nov. Further, Archerpeton anthracos from the same site must at present be considered a nomen dubium and may or may not be a 'microsaur'. Recognition of Asaphestera platyris as a synapsid provides the earliest unambiguous evidence of 'mammal-like reptiles' in the fossil record.

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New information on the early Permian lanthanosuchoid Feeserpeton oklahomensis based on computed tomography

Cited by 7 publications

References 31 publications

The Making of Calibration Sausage Exemplified by Recalibrating the Transcriptomic Timetree of Jawed Vertebrates

The Making of Calibration Sausage Exemplified by Recalibrating the Transcriptomic Timetree of Jawed Vertebrates

The making of calibration sausage exemplified by recalibrating the transcriptomic timetree of jawed vertebrates

Reassessment of historic ‘microsaurs’ from Joggins, Nova Scotia, reveals hidden diversity in the earliest amniote ecosystem

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