A modern scleractinian coral with a two-component calcite–aragonite skeleton

Until now, all of the ca. 1,800 known modern scleractinian coral species were thought to produce skeletons exclusively of aragonite. Asymbiotic Paraconotrochus antarcticus living in the Southern Ocean is the first example of an extant scleractinian that forms a two-component carbonate skeleton, with...

Full description

Bibliographic Details
Main Authors: Stolarski, Jaroslaw, Coronado, Ismael, Murphy, Jack G, Kitahara, Marcelo V, Janiszewska, Katarzyna, Mazur, Maciej, Gothmann, Anne M, Bouvier, Anne-Sophie, Marin-Carbonne, Johanna, Taylor, Michelle L, Quattrini, Andrea M, McFadden, Catherine S, Higgins, John A, Robinson, Laura F, Meibom, Anders
Format: Article in Journal/Newspaper
Language:English
Published: National Academy of Sciences 2021
Subjects:
Southern Ocean
Antarc*
antarcticus
Online Access:http://repository.essex.ac.uk/29369/
http://www.pnas.org/content/early/2020/12/14/2013316117.abstract
http://repository.essex.ac.uk/29369/1/2013316117.full.pdf
id ftunivessex:oai:repository.essex.ac.uk:29369
record_format openpolar
spelling ftunivessex:oai:repository.essex.ac.uk:29369 2023-05-15T13:58:32+02:00 A modern scleractinian coral with a two-component calcite–aragonite skeleton Stolarski, Jaroslaw Coronado, Ismael Murphy, Jack G Kitahara, Marcelo V Janiszewska, Katarzyna Mazur, Maciej Gothmann, Anne M Bouvier, Anne-Sophie Marin-Carbonne, Johanna Taylor, Michelle L Quattrini, Andrea M McFadden, Catherine S Higgins, John A Robinson, Laura F Meibom, Anders 2021-01-19 text http://repository.essex.ac.uk/29369/ http://www.pnas.org/content/early/2020/12/14/2013316117.abstract http://repository.essex.ac.uk/29369/1/2013316117.full.pdf en eng National Academy of Sciences http://repository.essex.ac.uk/29369/1/2013316117.full.pdf Stolarski, Jaroslaw and Coronado, Ismael and Murphy, Jack G and Kitahara, Marcelo V and Janiszewska, Katarzyna and Mazur, Maciej and Gothmann, Anne M and Bouvier, Anne-Sophie and Marin-Carbonne, Johanna and Taylor, Michelle L and Quattrini, Andrea M and McFadden, Catherine S and Higgins, John A and Robinson, Laura F and Meibom, Anders (2021) 'A modern scleractinian coral with a two-component calcite–aragonite skeleton.' Proceedings of the National Academy of Sciences, 118 (3). e2013316117-. ISSN 0027-8424 cc_by_nc_nd CC-BY-NC-ND Article PeerReviewed 2021 ftunivessex 2022-08-18T22:41:38Z Until now, all of the ca. 1,800 known modern scleractinian coral species were thought to produce skeletons exclusively of aragonite. Asymbiotic Paraconotrochus antarcticus living in the Southern Ocean is the first example of an extant scleractinian that forms a two-component carbonate skeleton, with an inner structure made of high-Mg calcite and an outer structure composed of aragonite. This discovery adds support to the notion that the coral skeletal formation process is strongly biologically controlled. Mitophylogenomic analysis shows that P. antarcticus represents an ancient scleractinian clade, suggesting that skeletal mineralogy/polymorph of a taxon, once established, is a trait conserved throughout the evolution of that clade.One of the most conserved traits in the evolution of biomineralizing organisms is the taxon-specific selection of skeletal minerals. All modern scleractinian corals are thought to produce skeletons exclusively of the calcium-carbonate polymorph aragonite. Despite strong fluctuations in ocean chemistry (notably the Mg/Ca ratio), this feature is believed to be conserved throughout the coral fossil record, spanning more than 240 million years. Only one example, the Cretaceous scleractinian coral Coelosmilia (ca. 70 to 65 Ma), is thought to have produced a calcitic skeleton. Here, we report that the modern asymbiotic scleractinian coral Paraconotrochus antarcticus living in the Southern Ocean forms a two-component carbonate skeleton, with an inner structure made of high-Mg calcite and an outer structure composed of aragonite. P. antarcticus and Cretaceous Coelosmilia skeletons share a unique microstructure indicating a close phylogenetic relationship, consistent with the early divergence of P. antarcticus within the Vacatina (i.e., Robusta) clade, estimated to have occurred in the Mesozoic (ca. 116 Mya). Scleractinian corals thus join the group of marine organisms capable of forming bimineralic structures, which requires a highly controlled biomineralization mechanism; this capability ... Article in Journal/Newspaper Antarc* antarcticus Southern Ocean University of Essex Research Repository Southern Ocean
institution Open Polar
collection University of Essex Research Repository
op_collection_id ftunivessex
language English
description Until now, all of the ca. 1,800 known modern scleractinian coral species were thought to produce skeletons exclusively of aragonite. Asymbiotic Paraconotrochus antarcticus living in the Southern Ocean is the first example of an extant scleractinian that forms a two-component carbonate skeleton, with an inner structure made of high-Mg calcite and an outer structure composed of aragonite. This discovery adds support to the notion that the coral skeletal formation process is strongly biologically controlled. Mitophylogenomic analysis shows that P. antarcticus represents an ancient scleractinian clade, suggesting that skeletal mineralogy/polymorph of a taxon, once established, is a trait conserved throughout the evolution of that clade.One of the most conserved traits in the evolution of biomineralizing organisms is the taxon-specific selection of skeletal minerals. All modern scleractinian corals are thought to produce skeletons exclusively of the calcium-carbonate polymorph aragonite. Despite strong fluctuations in ocean chemistry (notably the Mg/Ca ratio), this feature is believed to be conserved throughout the coral fossil record, spanning more than 240 million years. Only one example, the Cretaceous scleractinian coral Coelosmilia (ca. 70 to 65 Ma), is thought to have produced a calcitic skeleton. Here, we report that the modern asymbiotic scleractinian coral Paraconotrochus antarcticus living in the Southern Ocean forms a two-component carbonate skeleton, with an inner structure made of high-Mg calcite and an outer structure composed of aragonite. P. antarcticus and Cretaceous Coelosmilia skeletons share a unique microstructure indicating a close phylogenetic relationship, consistent with the early divergence of P. antarcticus within the Vacatina (i.e., Robusta) clade, estimated to have occurred in the Mesozoic (ca. 116 Mya). Scleractinian corals thus join the group of marine organisms capable of forming bimineralic structures, which requires a highly controlled biomineralization mechanism; this capability ...
format Article in Journal/Newspaper
author Stolarski, Jaroslaw
Coronado, Ismael
Murphy, Jack G
Kitahara, Marcelo V
Janiszewska, Katarzyna
Mazur, Maciej
Gothmann, Anne M
Bouvier, Anne-Sophie
Marin-Carbonne, Johanna
Taylor, Michelle L
Quattrini, Andrea M
McFadden, Catherine S
Higgins, John A
Robinson, Laura F
Meibom, Anders
spellingShingle Stolarski, Jaroslaw
Coronado, Ismael
Murphy, Jack G
Kitahara, Marcelo V
Janiszewska, Katarzyna
Mazur, Maciej
Gothmann, Anne M
Bouvier, Anne-Sophie
Marin-Carbonne, Johanna
Taylor, Michelle L
Quattrini, Andrea M
McFadden, Catherine S
Higgins, John A
Robinson, Laura F
Meibom, Anders
A modern scleractinian coral with a two-component calcite–aragonite skeleton
author_facet Stolarski, Jaroslaw
Coronado, Ismael
Murphy, Jack G
Kitahara, Marcelo V
Janiszewska, Katarzyna
Mazur, Maciej
Gothmann, Anne M
Bouvier, Anne-Sophie
Marin-Carbonne, Johanna
Taylor, Michelle L
Quattrini, Andrea M
McFadden, Catherine S
Higgins, John A
Robinson, Laura F
Meibom, Anders
author_sort Stolarski, Jaroslaw
title A modern scleractinian coral with a two-component calcite–aragonite skeleton
title_short A modern scleractinian coral with a two-component calcite–aragonite skeleton
title_full A modern scleractinian coral with a two-component calcite–aragonite skeleton
title_fullStr A modern scleractinian coral with a two-component calcite–aragonite skeleton
title_full_unstemmed A modern scleractinian coral with a two-component calcite–aragonite skeleton
title_sort modern scleractinian coral with a two-component calcite–aragonite skeleton
publisher National Academy of Sciences
publishDate 2021
url http://repository.essex.ac.uk/29369/
http://www.pnas.org/content/early/2020/12/14/2013316117.abstract
http://repository.essex.ac.uk/29369/1/2013316117.full.pdf
geographic Southern Ocean
geographic_facet Southern Ocean
genre Antarc*
antarcticus
Southern Ocean
genre_facet Antarc*
antarcticus
Southern Ocean
op_relation http://repository.essex.ac.uk/29369/1/2013316117.full.pdf
Stolarski, Jaroslaw and Coronado, Ismael and Murphy, Jack G and Kitahara, Marcelo V and Janiszewska, Katarzyna and Mazur, Maciej and Gothmann, Anne M and Bouvier, Anne-Sophie and Marin-Carbonne, Johanna and Taylor, Michelle L and Quattrini, Andrea M and McFadden, Catherine S and Higgins, John A and Robinson, Laura F and Meibom, Anders (2021) 'A modern scleractinian coral with a two-component calcite–aragonite skeleton.' Proceedings of the National Academy of Sciences, 118 (3). e2013316117-. ISSN 0027-8424
op_rights cc_by_nc_nd
op_rightsnorm CC-BY-NC-ND
_version_ 1766266874442547200

Similar Items