Thuy B et al. (2022), Miniaturization during a Silurian environmental...

ECB-ART-50583

Commun Biol 2022 Jan 10;51:14. doi: 10.1038/s42003-021-02971-9.

Show Gene links Show Anatomy links

Miniaturization during a Silurian environmental crisis generated the modern brittle star body plan.

Thuy B , Eriksson ME , Kutscher M , Lindgren J , Numberger-Thuy LD , Wright DF .

???displayArticle.abstract???
Pivotal anatomical innovations often seem to appear by chance when viewed through the lens of the fossil record. As a consequence, specific driving forces behind the origination of major organismal clades generally remain speculative. Here, we present a rare exception to this axiom by constraining the appearance of a diverse animal group (the living Ophiuroidea) to a single speciation event rather than hypothetical ancestors. Fossils belonging to a new pair of temporally consecutive species of brittle stars (Ophiopetagno paicei gen. et sp. nov. and Muldaster haakei gen. et sp. nov.) from the Silurian (444-419 Mya) of Sweden reveal a process of miniaturization that temporally coincides with a global extinction and environmental perturbation known as the Mulde Event. The reduction in size from O. paicei to M. haakei forced a structural simplification of the ophiuroid skeleton through ontogenetic retention of juvenile traits, thereby generating the modern brittle star bauplan.

???displayArticle.pubmedLink??? 35013524
???displayArticle.pmcLink??? PMC8748437
???displayArticle.link??? Commun Biol

???attribute.lit??? ???displayArticles.show???

	Fig. 1. Arm plates of Ophiopetagno paicei and Muldaster haakei from the Silurian of Gotland, Sweden, in comparison to a living relative (Ophiopholis aculeata), and in the context of the local stratigraphic framework12 with localities sampled (Mulde T.: Mulde Tegelbruk), palaeoenvironmental events, and trends in average surface area of the lateral arm plates as an approximation for body size.Ophiopholis aculeata: lateral arm plate in external (a) and internal (b) views. Vertebra in lateral (c), ventral (d), and distal (e) views. Muldaster haakei: Specimen MnhnL OPH088 (all numerical codes in the figure legend refer to specimen numbers in the MnhnL collection), holotype of M. haakei. Lateral arm plate in external (f) and internal (g) views. Specimen OPH089. Vertebra in lateral (h), ventral (i), and distal (j) views. k Specimen OPH090. Arm segment in ventral view. Ophiopetagno paicei: Specimen OPH087. Lateral arm plate in external (l) and internal (m) views. Specimen OPH092. Vertebra in lateral (n), ventral (o), and distal (p) views. q Specimen OPH93. Lateral arm plate, detail of tentacle notch in internal view.
	Fig. 2. Evolutionary tree of the Ophiuroidea to show the position of Ophiopetagno paicei and Muldaster haakei from the Silurian of Gotland, Sweden.Arrows indicate synapomorphies at the respective nodes. DAP dorsal arm plate, LAP lateral arm plate, VWC water vessel canal, Ceno. Cenozoic, Meso. Mesozoic. Gray lines indicate documented fossil range of taxa.
	Fig. 3. Time-calibrated phylogeny from the tip-dating analysis with mean per-branch rates of discrete character evolution mapped to indicate low (blue colors) vs. high rates (red colors) of morphological evolution inferred from a model allowing each branch to have its own rate of change.The star indicates the branch with the highest rate in the tree (rate multiplierâ=â24.76), which links Ophiopetagno paicei and Muldaster haakei and occurs concomitant with the Mulde Event.
	Fig. 4. Summary diagram of the Mulde Event (the âBig Crisisâ11) in the Silurian of Gotland, Sweden.Occurrences of the ophiuroid species O. paicei and M. haakei and biotic events are plotted.

References [+] :

Alroy, Colloquium paper: dynamics of origination and extinction in the marine fossil record. 2008, Pubmed

Alroy, Colloquium paper: dynamics of origination and extinction in the marine fossil record. 2008, Pubmed
Benton, Speciation in the fossil record. 2001, Pubmed
Blanckenhorn, The evolution of body size: what keeps organisms small? 2000, Pubmed
Bribiesca-Contreras, The importance of offshore origination revealed through ophiuroid phylogenomics. 2017, Pubmed , Echinobase
Donoghue, Rocks and clocks: calibrating the Tree of Life using fossils and molecules. 2007, Pubmed
Gavryushkina, Bayesian inference of sampled ancestor trees for epidemiology and fossil calibration. 2014, Pubmed
Gavryushkina, Bayesian Total-Evidence Dating Reveals the Recent Crown Radiation of Penguins. 2017, Pubmed
Heath, The fossilized birth-death process for coherent calibration of divergence-time estimates. 2014, Pubmed
Lewis, A likelihood approach to estimating phylogeny from discrete morphological character data. 2001, Pubmed
Louca, Fundamental Identifiability Limits in Molecular Epidemiology. 2021, Pubmed
Near, Fossil calibrations and molecular divergence time estimates in centrarchid fishes (Teleostei: Centrarchidae). 2005, Pubmed
O'Hara, Phylogenomic resolution of the class Ophiuroidea unlocks a global microfossil record. 2014, Pubmed , Echinobase
O'Hara, Restructuring higher taxonomy using broad-scale phylogenomics: The living Ophiuroidea. 2017, Pubmed
Ronquist, MrBayes 3.2: efficient Bayesian phylogenetic inference and model choice across a large model space. 2012, Pubmed
Ronquist, A total-evidence approach to dating with fossils, applied to the early radiation of the hymenoptera. 2012, Pubmed
Stöhr, Paedomorphosis as an Evolutionary Driving Force: Insights from Deep-Sea Brittle Stars. 2016, Pubmed , Echinobase
Stöhr, Global diversity of brittle stars (Echinodermata: Ophiuroidea). 2012, Pubmed , Echinobase
Thuy, Miniaturization during a Silurian environmental crisis generated the modern brittle star body plan. 2022, Pubmed , Echinobase
Thuy, A New Morphological Phylogeny of the Ophiuroidea (Echinodermata) Accords with Molecular Evidence and Renders Microfossils Accessible for Cladistics. 2016, Pubmed , Echinobase
Ung, Xper2: introducing e-taxonomy. 2010, Pubmed
Wagner, Modelling rate distributions using character compatibility: implications for morphological evolution among fossil invertebrates. 2012, Pubmed
Wright, Phenotypic Innovation and Adaptive Constraints in the Evolutionary Radiation of Palaeozoic Crinoids. 2017, Pubmed
Wright, Bayesian analysis using a simple likelihood model outperforms parsimony for estimation of phylogeny from discrete morphological data. 2014, Pubmed
Zhang, Robustness of compound Dirichlet priors for Bayesian inference of branch lengths. 2012, Pubmed