Echinoids from the Tesero Member (Werfen Formation) of the Dolomites (Italy): implications for extinction and survival of echinoids in the aftermath of the end-Permian mass extinction.
Echinoids from the Tesero Member (Werfen Formation) of the Dolomites (Italy): implications for extinction and survival of echinoids in the aftermath of the end-Permian mass extinction.
The end-Permian mass extinction (∼252 Ma) was responsible for high rates of extinction and evolutionary bottlenecks in a number of animal groups. Echinoids, or sea urchins, were no exception, and the Permian to Triassic represents one of the most significant intervals of time in their macroevolutionary history. The extinction event was responsible for significant turnover, with the Permian-Triassic representing the transition from stem group echinoid-dominated faunas in the Palaeozoic to Mesozoic faunas dominated by crown group echinoids. This turnover is well-known, however, the environmental and taxonomic distribution of echinoids during the latest Permian and Early Triassic is not. Here we report on an echinoid fauna from the Tesero Member, Werfen Formation (latest Permian to Early Triassic) of the Dolomites (northern Italy). The fauna is largely known from disarticulated ossicles, but consists of both stem group taxa, and a new species of crown group echinoid, Eotiaris teseroensis n. sp. That these stem group echinoids were present in the Tesero Member indicates that stem group echinoids did not go extinct in the Dolomites coincident with the onset of extinction, further supporting other recent work indicating that stem group echinoids survived the end-Permian extinction. Furthermore, the presence of Eotiaris across a number of differing palaeoenvironments in the Early Triassic may have had implications for the survival of cidaroid echinoids during the extinction event.
Thompson, JR
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Posenato, R
c24a0861-3058-47c0-b5b5-3b489ee14493
Bottjer, DJ
bfaed1cd-cbf2-4cae-9812-5dfdf44b3f0b
Petsios, E
a5cdbcb2-f8b8-4ee4-8e75-8fa9271a08d6
30 August 2019
Thompson, JR
d2c9b7bb-3e33-4918-97c8-0c36e7af30a4
Posenato, R
c24a0861-3058-47c0-b5b5-3b489ee14493
Bottjer, DJ
bfaed1cd-cbf2-4cae-9812-5dfdf44b3f0b
Petsios, E
a5cdbcb2-f8b8-4ee4-8e75-8fa9271a08d6
Thompson, JR, Posenato, R, Bottjer, DJ and Petsios, E
(2019)
Echinoids from the Tesero Member (Werfen Formation) of the Dolomites (Italy): implications for extinction and survival of echinoids in the aftermath of the end-Permian mass extinction.
PeerJ, 7, [e7361].
(doi:10.7717/peerj.7361).
Abstract
The end-Permian mass extinction (∼252 Ma) was responsible for high rates of extinction and evolutionary bottlenecks in a number of animal groups. Echinoids, or sea urchins, were no exception, and the Permian to Triassic represents one of the most significant intervals of time in their macroevolutionary history. The extinction event was responsible for significant turnover, with the Permian-Triassic representing the transition from stem group echinoid-dominated faunas in the Palaeozoic to Mesozoic faunas dominated by crown group echinoids. This turnover is well-known, however, the environmental and taxonomic distribution of echinoids during the latest Permian and Early Triassic is not. Here we report on an echinoid fauna from the Tesero Member, Werfen Formation (latest Permian to Early Triassic) of the Dolomites (northern Italy). The fauna is largely known from disarticulated ossicles, but consists of both stem group taxa, and a new species of crown group echinoid, Eotiaris teseroensis n. sp. That these stem group echinoids were present in the Tesero Member indicates that stem group echinoids did not go extinct in the Dolomites coincident with the onset of extinction, further supporting other recent work indicating that stem group echinoids survived the end-Permian extinction. Furthermore, the presence of Eotiaris across a number of differing palaeoenvironments in the Early Triassic may have had implications for the survival of cidaroid echinoids during the extinction event.
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Accepted/In Press date: 27 June 2019
Published date: 30 August 2019
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Local EPrints ID: 473129
URI: http://eprints.soton.ac.uk/id/eprint/473129
ISSN: 2167-8359
PURE UUID: b7e88af2-a9b4-4953-a851-b8f21976e3df
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Date deposited: 10 Jan 2023 18:25
Last modified: 17 Mar 2024 04:15
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Author:
JR Thompson
Author:
R Posenato
Author:
DJ Bottjer
Author:
E Petsios
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