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Phylogenomic analyses of echinoid diversification prompt a re-evaluation of their fossil record

Phylogenomic analyses of echinoid diversification prompt a re-evaluation of their fossil record
Phylogenomic analyses of echinoid diversification prompt a re-evaluation of their fossil record
Echinoids are key components of modern marine ecosystems. Despite a remarkable fossil record, the emergence of their crown group is documented by few specimens of unclear affinities, rendering their early history uncertain. The origin of sand dollars, one of its most distinctive clades, is also unclear due to an unstable phylogenetic context. We employ 18 novel genomes and transcriptomes to build a phylogenomic dataset with a near-complete sampling of major lineages. With it, we revise the phylogeny and divergence times of echinoids, and place their history within the broader context of echinoderm evolution. We also introduce the concept of a chronospace – a multidimensional representation of node ages – and use it to explore methodological decisions involved in time calibrating phylogenies. We find the choice of clock model to have the strongest impact on divergence times, while the use of site-heterogeneous models and alternative node prior distributions show minimal effects. The choice of loci has an intermediate impact, affecting mostly deep Paleozoic nodes, for which clock-like genes recover dates more congruent with fossil evidence. Our results reveal that crown group echinoids originated in the Permian and diversified rapidly in the Triassic, despite the relative lack of fossil evidence for this early diversification. We also clarify the relationships between sand dollars and their close relatives and confidently date their origins to the Cretaceous, implying ghost ranges spanning approximately 50 million years, a remarkable discrep-ancy with their rich fossil record.
Other, divergence time estimation, echinoidea, phylogenomics, sand dollars, sea urchins, site-heterogeneous models, time calibration
2050-084X
Mongiardino Koch, Nicolas
b9a52b18-7b9a-47f4-9264-ad58e5a4cb0c
Thompson, Jeffrey R.
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Hiley, Avery S.
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McCowin, Marina F.
c19bc3c6-2c86-4ba9-81bd-bb5afb71e335
Armstrong, A. Frances
0179e92e-bbd4-44fd-a3ed-0b905ed64270
Coppard, Simon E.
ad3a6f05-8d1f-49dd-ac21-b96d97628353
Aguilera, Felipe
46384ff9-7bdf-4238-8181-8f785c9e87ca
Bronstein, Omri
318e0bdb-4d1c-44d7-b025-da28060836af
Kroh, Andreas
94bf3161-747b-4e97-b421-178118163e60
Mooi, Rich
29d04202-ebfa-45d4-8e1d-fbb28d5a29c1
Rouse, Greg W.
55a27d86-77f1-4830-894f-1809b643ecbc
Mongiardino Koch, Nicolas
b9a52b18-7b9a-47f4-9264-ad58e5a4cb0c
Thompson, Jeffrey R.
d2c9b7bb-3e33-4918-97c8-0c36e7af30a4
Hiley, Avery S.
5d16b049-876a-45b8-bb3c-e50d19d955e8
McCowin, Marina F.
c19bc3c6-2c86-4ba9-81bd-bb5afb71e335
Armstrong, A. Frances
0179e92e-bbd4-44fd-a3ed-0b905ed64270
Coppard, Simon E.
ad3a6f05-8d1f-49dd-ac21-b96d97628353
Aguilera, Felipe
46384ff9-7bdf-4238-8181-8f785c9e87ca
Bronstein, Omri
318e0bdb-4d1c-44d7-b025-da28060836af
Kroh, Andreas
94bf3161-747b-4e97-b421-178118163e60
Mooi, Rich
29d04202-ebfa-45d4-8e1d-fbb28d5a29c1
Rouse, Greg W.
55a27d86-77f1-4830-894f-1809b643ecbc

Mongiardino Koch, Nicolas, Thompson, Jeffrey R., Hiley, Avery S., McCowin, Marina F., Armstrong, A. Frances, Coppard, Simon E., Aguilera, Felipe, Bronstein, Omri, Kroh, Andreas, Mooi, Rich and Rouse, Greg W. (2022) Phylogenomic analyses of echinoid diversification prompt a re-evaluation of their fossil record. eLife, 11, [e72460]. (doi:10.7554/eLife.72460).

Record type: Article

Abstract

Echinoids are key components of modern marine ecosystems. Despite a remarkable fossil record, the emergence of their crown group is documented by few specimens of unclear affinities, rendering their early history uncertain. The origin of sand dollars, one of its most distinctive clades, is also unclear due to an unstable phylogenetic context. We employ 18 novel genomes and transcriptomes to build a phylogenomic dataset with a near-complete sampling of major lineages. With it, we revise the phylogeny and divergence times of echinoids, and place their history within the broader context of echinoderm evolution. We also introduce the concept of a chronospace – a multidimensional representation of node ages – and use it to explore methodological decisions involved in time calibrating phylogenies. We find the choice of clock model to have the strongest impact on divergence times, while the use of site-heterogeneous models and alternative node prior distributions show minimal effects. The choice of loci has an intermediate impact, affecting mostly deep Paleozoic nodes, for which clock-like genes recover dates more congruent with fossil evidence. Our results reveal that crown group echinoids originated in the Permian and diversified rapidly in the Triassic, despite the relative lack of fossil evidence for this early diversification. We also clarify the relationships between sand dollars and their close relatives and confidently date their origins to the Cretaceous, implying ghost ranges spanning approximately 50 million years, a remarkable discrep-ancy with their rich fossil record.

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elife-72460-v2 - Version of Record
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More information

Accepted/In Press date: 22 March 2022
Published date: 22 March 2022
Additional Information: © 2022, Mongiardino Koch et al.
Keywords: Other, divergence time estimation, echinoidea, phylogenomics, sand dollars, sea urchins, site-heterogeneous models, time calibration

Identifiers

Local EPrints ID: 473245
URI: http://eprints.soton.ac.uk/id/eprint/473245
ISSN: 2050-084X
PURE UUID: 3c9bb072-de2f-4e07-a1df-3e822ead6558
ORCID for Jeffrey R. Thompson: ORCID iD orcid.org/0000-0003-3485-172X

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Date deposited: 12 Jan 2023 18:17
Last modified: 17 Mar 2024 04:15

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Contributors

Author: Nicolas Mongiardino Koch
Author: Jeffrey R. Thompson ORCID iD
Author: Avery S. Hiley
Author: Marina F. McCowin
Author: A. Frances Armstrong
Author: Simon E. Coppard
Author: Felipe Aguilera
Author: Omri Bronstein
Author: Andreas Kroh
Author: Rich Mooi
Author: Greg W. Rouse

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