Your search keyword '"*ECHINODERMATA classification"' showing total 84 results

1. Pentaradiate diploporites (Echinodermata) from the Spanish Middle Ordovician and their taxonomic significance.

Author

PAUL, Christopher R. C. and GUTIÉRREZ-MARCO, Juan Carlos

Subjects

ECHINODERMATA classification, ORAL interpretation, ECHINODERMATA, ORDOVICIAN-Silurian extinction event, ECHINODERMATA populations, SUTURES, PERISTOME (Botany), SUTURING, CARPENTERS

Abstract

Copyright of Spanish Journal of Palaeontology is the property of Socieadad Espanola de Paleontologia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

2. Deuterostome Ancestors and Chordate Origins.

Author

Swalla BJ

Subjects

Animals, Chordata, Nonvertebrate genetics, Chordata, Nonvertebrate anatomy & histology, Chordata, Nonvertebrate classification, Echinodermata genetics, Echinodermata classification, Echinodermata anatomy & histology, Phylogeny, Biological Evolution, Chordata genetics, Chordata anatomy & histology, Chordata classification

Abstract

The Deuterostomia are a monophyletic group, consisting of the Ambulacraria, with two phyla, Hemichordata and Echinodermata, and the phylum Chordata, containing the subphyla Cephalochordata (lancelets or Amphioxus), Tunicata (Urochordata), and Vertebrata. Hemichordates and echinoderms are sister groups and are critical for understanding the deuterostome ancestor and the origin and evolution of the chordates within the deuterostomes. Enteropneusta, worm-like hemichordates, share many chordate features as adults, including a post-anal tail, gill slits, and a central nervous system (CNS) that deploys similar developmental genetic regulatory networks (GRNs). Genomic comparisons show that cephalochordates share synteny and a vermiform body plan similar to vertebrates, but phylogenomic analyses place tunicates as the sister group of vertebrates. Tunicates have a U-shaped gut and a very different adult body plan than the rest of the chordates, and all tunicates have small genomes and many gene losses, although the GRNs underlying specific tissues, such as notochord and muscle, are conserved. Echinoderms and vertebrates have extensive fossil records, with fewer specimens found for tunicates and enteropneusts, or worm-like hemichordates. The data is mounting that the deuterostome ancestor was a complex benthic worm, with gill slits, a cartilaginous skeleton, and a CNS. Two extant groups, echinoderms and tunicates, have evolved highly derived body plans, remarkably different than the deuterostome ancestor. We review the current genomic and GRN data on the different groups of deuterostomes' characters to re-evaluate different hypotheses of chordate origins. Notochord loss in echinoderms and hemichordates is as parsimonious as notochord gain in the chordates but has implications for the deuterostome ancestor. The chordate ancestor lost an ancestral nerve net, retained the CNS, and evolved neural crest cells., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology.)

Published

2024

3. Unveiling ophiuroid biodiversity across North Atlantic habitats via an integrative perspective.

Author

Schmidt LA, Brix S, Rossel S, Forster S, and Eichsteller A

Subjects

Animals, Atlantic Ocean, Echinodermata genetics, Echinodermata classification, Phylogeny, Proteomics methods, Biodiversity, DNA Barcoding, Taxonomic, Ecosystem

Abstract

The depths of the North Atlantic Ocean host a species-rich fauna providing heterogeneous habitats from thermal vent fields to cold-water coral reefs. With the increasing threat of destruction of deep-sea habitats due to human impacts, such as demersal fishing and the beginning of deep-sea mining, an analysis of the diversity and distribution of species is crucial for conservation efforts. Brittle stars occur in high biomasses, contributing to the biodiversity of the seafloor. Specimens were collected during several scientific expeditions to gain a more detailed insight into the brittle star diversity in the North Atlantic Ocean. An integrative approach to identify the species with DNA barcoding (mtCOI) in combination with morphological studies revealed 24 species. Most species have been previously identified in the North Atlantic, but sequences for 13 species are newly added to public repositories. Additionally, the MALDI-TOF-MS proteomic analysis was successfully applied for 197 specimens with known COI barcodes. Results are congruent with other molecular species delimitations demonstrating the functionality of proteomics for the identification of brittle stars. This dataset significantly expands our understanding of the taxonomic and genetic diversity of brittle stars and contributes to publicly available data. It emphasizes the importance of considering habitat heterogeneity for large scale patterns of biodiversity., (© 2024. The Author(s).)

Published

2024

4. Two New Taxa of Goniasteridae (Asteroidea, Echinodermata) and Noteworthy Observations of Deep-Sea Asteroidea by the NOAA Ship Okeanos Explorer in the North and Tropical Atlantic.

Author

Mah CL

Subjects

Animals, Atlantic Ocean, Echinodermata classification, Echinodermata anatomy & histology, Animal Structures anatomy & histology, Animal Structures growth & development, Body Size, Organ Size, Ships, Animal Distribution, Ecosystem

Abstract

Two new species and one new genus, collected by NOAA ship Okeanos Explorer, Bathyceramaster kelliottae n. sp. and Rhianastra isosceles n. gen., n. sp. (Goniasteridae; Asteroidea) are described from deep-sea settings in the North Atlantic. Two potentially undescribed species are observed from imagery and new in situ observations further elucidate life modes and feeding behavior of several species from North Atlantic deep-sea habitats. New occurrences of Atlantic Neomorphaster are presented and Neomorphaster forcipatus is synonymized with Neomorphaster margaritaceus.

Published

2024

5. Application of Calcareous Spicules for the Identification of Sea Cucumbers in the Rocky Shores of Northern Persian Gulf.

Author

Salari-Aliabadi, Mohammad Ali and Monjezi-Veysi, Mohammad

Subjects

SPICULE (Anatomy), MARINE invertebrates, SEA cucumbers, ECHINODERMATA classification

Abstract

Sea cucumbers as a large group of marine invertebrates have traditionally been demanded as a food with high nutritional value and for medicinal aims in Asia and the Middle East for many years. To identify and compare sea cucumber species in the tidal rocky northern coast of the Persian Gulf, samples were collected from six stations in the four seasons. Based on the results of morphological and microscopic aspects, two sea cucumber species were identified including, Holothuria parva and Holothuria arenicola from Holothuriidea, Echinodermata. Comparison based on the calcareous structures (spicules or calcareous ossicles), is an important key in the identification, as it displays obvious differences between both species. The most common type of spicule of H. parva was various forms of rod shape, and for H. arenicola was related to Buttony spicules. Overall, our results indicated that skeletal microscopic structure can be used in the taxonomy of sea cucumbers, and also established the important role of calcareous spicules as an identification key to distinguish sea cucumber species. [ABSTRACT FROM AUTHOR]

Published

2020

6. In situ observations increase the diversity records of Rocky-reef inhabiting Echinoderms along the South West Coast of India.

Author

Chandrasekar, Surendar, Lazarus, Singarayan, Chandran, Rethnaraj, Nisha, Jayasingh Chellama, Rajan, Gigi Chandra, and Satyanarayana, Chowdula

Subjects

ECHINODERMATA classification, ECHINODERMATA populations, ECHINODERMATA development, MARINE species diversity

Abstract

Diversity of Echinoderms was studied in situ in rocky reefs areas of the south west coast of India from Goa (Lat. N 15°21.071'; Long. E 073°47.069') to Kanyakumari (Lat. N 08°06.570'; Long. E 077°18.120') via Karnataka and Kerala. The underwater visual census to assess the biodiversity was carried out by SCUBA diving. This study reveals 11 new records to Goa, 7 to Karnataka, 5 to Kerala and 7 to the west coast of Tamil Nadu. A total of 15 species representing 12 genera, 10 families, 8 orders and 5 Classes were recorded namely Holothuria atra, H. difficilis, H. leucospilota, Actinopyga mauritiana, Linckia laevigata, Temnopleurus toreumaticus, Salmacis bicolor, Echinothrix diadema, Stomopneustes variolaris, Macrophiothrix nereidina, Tropiometra carinata, Linckia multifora, Fromia milleporella and Ophiocoma scolopendrina. Among these, the last three are new records to the west coast of India. Present work also stresses the importance novel techniques to data collection on echinoderm diversity in rocky shores of west coast of India. [ABSTRACT FROM AUTHOR]

Published

2019

7. Larvicidal potential of sea cucumbers from Mauritius.

Author

Espiegle, M. Anielle, Puchooa, Daneswar, and Nazurally, Nadeem

Subjects

SEA cucumbers, ECHINODERM larvae, INVERTEBRATE morphology, SEA cucumber populations, ECHINODERMATA classification

Abstract

The larvicidal property of sea cucumbers collected from Pointes aux Feuilles, Mauritius was assessed. The sea cucumbers were morphologically identified as Holothuria atra (Halodeima) Jaeger 1833, Bohadschia vitiensis Semper 1868, and Holothuria sp. In this study, water and methanol were used for the extraction of the sea cucumber body wall. All extracts showed larvicidal potential against 3rd intar wild Aedes larvae with the highest toxicity observed in Holothuria atra extract. Chemical screening of the extracts revealed the presence of saponins, steroids and terpenoids. The biological activity of the extracts could certainly be attributed to the presence of saponins and glycosides. This study indicates the need for further exploration of the marine organisms as a source of new molecules with larvicidal/insecticidal properties. [ABSTRACT FROM AUTHOR]

Published

2019

8. Earliest known ophiuroids from high palaeolatitude, southern Gondwana, recovered from the Pragian to earliest Emsian Baviaanskloof Formation (Table Mountain Group, Cape Supergroup) South Africa.

Author

Reddy C, Thuy B, Reid M, and Gess R

Subjects

South Africa, Echinodermata classification, Fossils anatomy & histology

Abstract

For the first time, ophiuroids have been found in South African strata predating the lowermost Bokkeveld Group. These comprise natural moulds and casts from two localities in the 'upper unit' of the Baviaanskloof Formation (Table Mountain Group). As a Pragian to earliest Emsian age has been inferred for this member, the new taxa comprise the earliest high-palaeolatitude ophiuroid records from southern Gondwana. Morphological analysis of the specimens revealed the presence of two distinct taxa. One is here described as Krommaster spinosus gen. et sp. nov., a new encrinasterid characterised by very large spines on the dorsal side of the disc, the ventral interradial marginal plates and the arm midlines. The second taxon is a poorly preserved specimen of Hexuraster weitzi, a cheiropterasterid previously described from the slightly younger Bokkeveld Group., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Reddy et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

9. Psychropotid holothurians (Echinodermata: Holothuroidea: Elasipodida) of the tropical Western Pacific collected by the KEXUE expedition with description of one new species.

Author

Xiao, Ning, Sha, Zhongli, and Li, Xiaomeng

Subjects

*ECHINODERMATA classification, *ANIMAL morphology, *SPECIES distribution, *DNA analysis

Abstract

Two holothurian species of the family Psychropotidae were collected by RV KEXUE during the cruise to tropical Western Pacific. One of them, Benthodytes manusensis is described as new to science. The new species has a broad brim and reddish light violet body, with three pairs of well-developed dorsal papillae, arranged in two single rows, evenly distributed. Body wall ossicles were comprised of rods and large crosses with a bipartite central apophysis. We also provide the Genbank accession numbers of partial sequences of 16S rDNA and mitochondrial cytochrome oxidase subunit I gene. In addition, notes are presented on the morphology and distribution of another species Psychropotes depressa (Théel). http://zoobank.org/urn:lsid:zoobank.org:pub:22B43A54-1B05-4812-A098-448A0044B49C [ABSTRACT FROM AUTHOR]

Published

2018

10. Cretaceous Roveacrinids from Mexico revisited: Overcoming the taxonomic misidentifications and subsequent biostratigraphic abuse.

Author

Ferré, Bruno, Granier, Bruno, Gorzelak, Przemysław, and Salamon, Mariusz A.

Subjects

*CRETACEOUS paleontology, *BIOSTRATIGRAPHY, *FOSSIL microorganisms, *ECHINODERMATA classification, *CRINOIDEA

Abstract

The Mesozoic carbonate deposits of Mexico yield a number of overlooked, ill-known, and even enigmatic microfossils, among which are roveacrinoids (Echinodermata, Crinoidea, Roveacrinida). Most of these pelagic organisms probably came from the central Tethysian seaways, and later on from the early central Atlantic Ocean through the northwestern Tethysian neck, thus reaching the Central American platforms (Comanchean shelf, Central Texas platform, and Coahuila platform) and the Western Interior seaway. The present work intends to enlist as comprehensively as possible the Mexican records of roveacrinid crinoids, to propose a revised interpretation of the sections illustrated (most of them being originally erroneously assigned) and to provide a sound data base for further systematic and biostratigraphic research. [ABSTRACT FROM AUTHOR]

Published

2018

11. Systematics of Himerometra (Echinodermata: Crinoidea: Himerometridae) based on morphology and molecular data.

Author

TAYLOR, KRISTIAN H., ROUSE, GREG W., and MESSING, CHARLES G.

Subjects

*ECHINODERMATA classification, *ECHINODERMATA development, *CRINOIDEA, *ANIMAL species, *ANIMAL classification, *ANIMAL genetics

Abstract

One of the most common genera of feather stars found on tropical Indo-western Pacific reefs, Himerometra A.H.Clark, 1907, has previously included six accepted species, distinguished chiefly by variations in the enlarged proximal pinnules. This study examined new and existing specimens using molecular (mtDNA and nuDNA) techniques and morphological characters to revise the genus. Both approaches support placing H. magnipinna and H. martensi as junior synonyms of H. robustipinna. Sequence data for specimens attributed to H. bartschi also place this species as a junior synonym of H. robustipinna, despite some morphological disparity. Himerometra sol is retained as distinct despite morphological congruence with H. robustipinna, because the two known specimens were collected outside the known range of the latter, with no molecular data currently available. Himerometra persica is herein transferred to Heterometra: the type specimens were incorrectly identified. The species treated as valid are redescribed. This study illustrates the importance of re-examining crinoid species boundaries for established taxa without molecular corroboration and demonstrates that diversity in this particular feather star clade might be lower than previously thought. [ABSTRACT FROM AUTHOR]

Published

2017

12. Echinoderm ichnology: bioturbation, bioerosion and related processes.

Author

Belaústegui, Zain, Muñiz, Fernando, Nebelsick, James H., Domènech, Rosa, Martinell, Jordi, Zamora, Samuel, and Rahman, Imran A.

Subjects

*ECHINODERMATA classification, *BIOTURBATION, *MARINE resources conservation, *ECHINOIDA, *OPHIURIDA

Abstract

Among invertebrates and both in modern and ancient marine environments, certain echinoderms have been and are some of the most active and widespread bioturbators and bioeroders. Bioturbation and/or bioerosion of regular and irregular echinoids, starfish, brittle stars, sea cucumbers and crinoids are known from modern settings, and some of the resulting traces have their counterparts in the fossil record. By contrast, surficial trails or trackways produced by other modern echinoderms, e.g., sand dollars, exhibit a lower preservation rate and have not yet been identified in the fossil record. In addition, the unique features of the echinoderm skeleton (e.g., composition, rapid growth, multi-element architecture, etc.) may promote the production of related traces produced by the reutilization of echinoderm ossicles (e.g., burrow lining), predation (e.g., borings), or parasitism (e.g., swellings or cysts). Finally, the skeletal robustness of some echinoids may promote their post mortum use as benthic islands for the settlement of hard-substrate dwellers. [ABSTRACT FROM PUBLISHER]

Published

2017

13. Molecular phylogeny of extant Holothuroidea (Echinodermata).

Author

Miller, Allison K., Kerr, Alexander M., Paulay, Gustav, Reich, Mike, Wilson, Nerida G., Carvajal, Jose I., and Rouse, Greg W.

Subjects

*SEA cucumbers, *ECHINODERMATA phylogeny, *ECHINODERMATA classification, *NUCLEOTIDE sequence, *MOLECULAR clock

Abstract

Sea cucumbers (Holothuroidea) are a morphologically diverse, ecologically important, and economically valued clade of echinoderms; however, the understanding of the overall systematics of the group remains controversial. Here, we present a phylogeny of extant Holothuroidea assessed with maximum parsimony, maximum likelihood, and Bayesian approaches using approximately 4.3 kb of mt- (COI, 16S, 12S) and nDNA (H3, 18S, 28S) sequences from 82 holothuroid terminals representing 23 of the 27 widely-accepted family-ranked taxa. Currently five holothuroid taxa of ordinal rank are accepted. We find that three of the five orders are non-monophyletic, and we revise the taxonomy of the groups accordingly. Apodida is sister to the rest of Holothuroidea, here considered Actinopoda. Within Actinopoda, Elasipodida in part is sister to the remaining Actinopoda. This latter clade, comprising holothuroids with respiratory trees, is now called Pneumonophora. The traditional Aspidochirotida is paraphyletic, with representatives from three orders (Molpadida, Dendrochirotida, and Elasipodida in part) nested within. Therefore, we discontinue the use of Aspidochirotida and instead erect Holothuriida as the sister group to the remaining Pneumonophora, here termed Neoholothuriida. We found four well-supported major clades in Neoholothuriida: Dendrochirotida, Molpadida and two new clades, Synallactida and Persiculida. The mapping of traditionally-used morphological characters in holothuroid systematics onto the phylogeny revealed marked homoplasy in most characters demonstrating that further taxonomic revision of Holothuroidea is required. Two time-tree analyses, one based on calibrations for uncontroversial crown group dates for Eleutherozoa, Echinozoa and Holothuroidea and another using these calibrations plus four more from within Holothuroidea, showed major discrepancies, suggesting that fossils of Holothuroidea may need reassessment in terms of placing these forms with existing crown clades. [ABSTRACT FROM AUTHOR]

Published

2017

14. Exploring Canadian Echinoderm Diversity through DNA Barcodes.

Author

Layton, Kara K. S., Corstorphine, Erin A., and Hebert, Paul D. N.

Subjects

*ECHINODERMATA classification, *GENETIC barcoding, *GENETIC polymorphisms, *GLACIATION, *BIOSURVEILLANCE, *GENETIC speciation

Abstract

DNA barcoding has proven an effective tool for species identification in varied groups of marine invertebrates including crustaceans, molluscs, polychaetes and echinoderms. In this study, we further validate its utility by analyzing almost half of the 300 species of Echinodermata known from Canadian waters. COI sequences from 999 specimens were assigned to 145 BINs. In most cases, species discrimination was straightforward due to the large difference (25-fold) between mean intra- (0.48%) and inter- (12.0%) specific divergence. Six species were flagged for further taxonomic investigation because specimens assigned to them fell into two or three discrete sequence clusters. The potential influence of larval dispersal capacity and glacial events on patterns of genetic diversity is discussed for 19 trans-oceanic species. Although additional research is needed to clarify biogeographic patterns and resolve taxonomic questions, this study represents an important step in the assembly of a DNA barcode library for all Canadian echinoderms, a valuable resource for future biosurveillance programs. [ABSTRACT FROM AUTHOR]

Published

2016

15. Paedomorphosis as an Evolutionary Driving Force: Insights from Deep-Sea Brittle Stars.

Author

Stöhr, Sabine and Martynov, Alexander

Subjects

*ECHINODERMATA evolution, *NEOTENY, *HETEROCHRONY (Biology), *ECHINODERMATA classification, *ECHINODERMATA phylogeny, *OPHIURIDA

Abstract

Heterochronic development has been proposed to have played an important role in the evolution of echinoderms. In the class Ophiuroidea, paedomorphosis (retention of juvenile characters into adulthood) has been documented in the families Ophiuridae and Ophiolepididae but not been investigated on a broader taxonomic scale. Historical errors, confusing juvenile stages with paedomorphic species, show the difficulties in correctly identifying the effects of heterochrony on development and evolution. This study presents a detailed analysis of 40 species with morphologies showing various degrees of juvenile appearance in late ontogeny. They are compared to a range of early ontogenetic stages from paedomorphic and non-paedomorphic species. Both quantitative and qualitative measurements are taken and analysed. The results suggest that strongly paedomorphic species are usually larger than other species at comparable developmental stage. The findings support recent notions of polyphyletic origin of the families Ophiuridae and Ophiolepididae. The importance of paedomorphosis and its correct recognition for the practice of taxonomy and phylogeny are emphasized. [ABSTRACT FROM AUTHOR]

Published

2016

16. Madreporites of Ophiuroidea: are they phylogenetically informative?

Author

Ezhova, Olga, Malakhov, Vladimir, and Martynov, Alexander

Subjects

*OPHIUROIDEA, *ECHINODERMATA phylogeny, *ECHINODERMATA classification, *ECHINODERMATA physiology, *SPECIES diversity

Abstract

The madreporite of brittle stars is poorly studied, and the features of its structure are rarely used in the taxonomy. However, it is known that there is diversity in the madreporite structure. But are the ophiuroid madreporites phylogenetically informative? To check this hypothesis, we investigated the structure of the madreporite of 33 species of brittle stars from 4 families of Euryalida and 12 families of Ophiurida. The fixed specimens were processed with sodium hypochlorite using the standard procedure and then studied using SEM. If we combine our results with the modern phylogenetic data about brittle stars (O'Hara et al. in Curr Biol 24(16):1874-1879, 2014), we will find wide morphological diversity of the madreporites present in each of the three clades of Ophiuroidea. The madreporites with numerous pores, the well-developed oral shields in other interradii instead of irregularly arranged plates and the multiple madreporites occur in the representatives of all three clades. Only in Euryalida, which belongs to the clade A as well as the sister clade Ophiuridae + Ophiomusium, the definite oral shields are absent in all interradii except CD. Whereas in the family Ophiuridae (as in the clades B and C), the oral interradial shields are regularly formed. Contrary to this, the multiple madreporites and numerous madreporic pores appear to have evolved several times in different clades. Hence, the hypothesis that madreporite morphology is phylogenetically informative must be rejected since madreporites are highly homoplasious. [ABSTRACT FROM AUTHOR]

Published

2016

17. New Early Paleozoic Asterozoa (Echinodermata) from the Armorican Massif, France, and the Western United States.

Author

Blake, Daniel B., Guensburg, Thomas E., and Lefebvre, Bertrand

Subjects

*ECHINODERMATA classification, *PALEOZOIC Era, *INVERTEBRATE ecology, *INVERTEBRATE phylogeny

Abstract

Seventeen specimens representing three of the four asterozoan classes (Stenuroidea, Asteroidea, Ophiuroidea) are recorded from Ordovician and Silurian strata of the western United States and northwest France; only the Somasteroidea is not represented. New taxa are: the stenuroids Lopidiaster jamisoni nov. gen. and sp. and Lehmannaster spinosus nov. gen. and sp.; the asteroids Meturaster belli nov. gen. and sp., Petraster crozonensis nov. sp., and Schuchertia sprinklei , nov. sp.; Lepidactis ? sp. also is recognized. The Ophiuroidea is represented by Stenaster sp., Protaster sp., and an arm tip is of unknown familial and generic affinities. Class level assignments of all specimens are clear, and all but Lopidiaster are similar to earlier-known representatives of their respective classes; phylogenetic differentiation within the subphylum was well-established early in the Paleozoic. Ordovician asterozoans are both geographically widely distributed and morphologically clearly separable from modern asterozoans, yet overall structural similarities favor ecologic roles paralleling those known today. [ABSTRACT FROM AUTHOR]

Published

2016

18. A New Morphological Phylogeny of the Ophiuroidea (Echinodermata) Accords with Molecular Evidence and Renders Microfossils Accessible for Cladistics.

Author

Thuy, Ben and Stöhr, Sabine

Subjects

*FOSSIL ophiuroidea, *CLADISTIC analysis, *ECHINODERMATA phylogeny, *ECHINODERMATA, *ECHINODERMATA classification, *ANATOMY

Abstract

Ophiuroid systematics is currently in a state of upheaval, with recent molecular estimates fundamentally clashing with traditional, morphology-based classifications. Here, we attempt a long overdue recast of a morphological phylogeny estimate of the Ophiuroidea taking into account latest insights on microstructural features of the arm skeleton. Our final estimate is based on a total of 45 ingroup taxa, including 41 recent species covering the full range of extant ophiuroid higher taxon diversity and 4 fossil species known from exceptionally preserved material, and the Lower Carboniferous Aganaster gregarius as the outgroup. A total of 130 characters were scored directly on specimens. The tree resulting from the Bayesian inference analysis of the full data matrix is reasonably well resolved and well supported, and refutes all previous classifications, with most traditional families discredited as poly- or paraphyletic. In contrast, our tree agrees remarkably well with the latest molecular estimate, thus paving the way towards an integrated new classification of the Ophiuroidea. Among the characters which were qualitatively found to accord best with our tree topology, we selected a list of potential synapomorphies for future formal clade definitions. Furthermore, an analysis with 13 of the ingroup taxa reduced to the lateral arm plate characters produced a tree which was essentially similar to the full dataset tree. This suggests that dissociated lateral arm plates can be analysed in combination with fully known taxa and thus effectively unlocks the extensive record of fossil lateral arm plates for phylogenetic estimates. Finally, the age and position within our tree implies that the ophiuroid crown-group had started to diversify by the Early Triassic. [ABSTRACT FROM AUTHOR]

Published

2016

19. Continent-wide declines in shallow reef life over a decade of ocean warming.

Author

Edgar GJ, Stuart-Smith RD, Heather FJ, Barrett NS, Turak E, Sweatman H, Emslie MJ, Brock DJ, Hicks J, French B, Baker SC, Howe SA, Jordan A, Knott NA, Mooney P, Cooper AT, Oh ES, Soler GA, Mellin C, Ling SD, Dunic JC, Turnbull JW, Day PB, Larkin MF, Seroussi Y, Stuart-Smith J, Clausius E, Davis TR, Shields J, Shields D, Johnson OJ, Fuchs YH, Denis-Roy L, Jones T, and Bates AE

Subjects

Animals, Australia, Population Dynamics, Population Density, Extinction, Biological, Conservation of Natural Resources trends, Echinodermata classification, Anthozoa, Coral Reefs, Fishes classification, Invertebrates classification, Oceans and Seas, Global Warming statistics & numerical data, Seaweed classification, Extreme Heat, Seawater analysis

Abstract

Human society is dependent on nature 1,2 , but whether our ecological foundations are at risk remains unknown in the absence of systematic monitoring of species' populations 3 . Knowledge of species fluctuations is particularly inadequate in the marine realm 4 . Here we assess the population trends of 1,057 common shallow reef species from multiple phyla at 1,636 sites around Australia over the past decade. Most populations decreased over this period, including many tropical fishes, temperate invertebrates (particularly echinoderms) and southwestern Australian macroalgae, whereas coral populations remained relatively stable. Population declines typically followed heatwave years, when local water temperatures were more than 0.5 °C above temperatures in 2008. Following heatwaves 5,6 , species abundances generally tended to decline near warm range edges, and increase near cool range edges. More than 30% of shallow invertebrate species in cool latitudes exhibited high extinction risk, with rapidly declining populations trapped by deep ocean barriers, preventing poleward retreat as temperatures rise. Greater conservation effort is needed to safeguard temperate marine ecosystems, which are disproportionately threatened and include species with deep evolutionary roots. Fundamental among such efforts, and broader societal needs to efficiently adapt to interacting anthropogenic and natural pressures, is greatly expanded monitoring of species' population trends 7,8 ., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

20. Feed or flee: Effect of a predation-risk cue on sea urchin foraging activity.

Author

Harding, Adam P.C. and Scheibling, Robert E.

Subjects

*PREDATION, *SEA urchins, *FORAGING behavior, *ECHINODERMATA classification, *ALGAE as food, *TURBULENT flow, *COMPARATIVE studies

Abstract

We examined the potential for a trait-mediated indirect interaction (TMII), whereby a behavioural response to a predator (crab Cancer borealis ) alters the per capita effect of a reacting species (sea urchin Strongylocentrotus droebachiensis ) on its algal food (kelp Saccharina latissima ), in field and laboratory experiments. We used time-lapse video to monitor sea urchin movement in response to either an attractant food cue (kelp) or a repellant predation-risk cue (crabs) placed in small cages at the centre of 7 m 2 circular plots in a wave-exposed sea urchin barrens off Nova Scotia. We found that sea urchins generally moved randomly over the rock substratum and showed a limited response to cues emanating from a cage with kelp, with a few individuals exhibiting directed movement towards kelp and greater proportion of urchins in contact with the cue cage (with kelp) compared to the control (without kelp) at the end of the experiment. Similarly, only a few individuals that came in close contact with a cage containing crabs showed a clear flight response, compared to the control. In experiments with individual kelp thalli that were systematically dispersed around the central cage in the same plots, we found that the presence of crabs in the cage did not reduce sea urchin grazing rates on kelp compared to a control without crabs. We observed similar results using a similar experimental design in large tanks (900 L) under controlled flow conditions in the laboratory. We conclude that C. borealis does not significantly inhibit the foraging activity of S. droebachiensis under turbulent flow conditions in nature, and that a TMII is unlikely to contribute to a trophic cascade in the shallow rocky subtidal zone of the Northwest Atlantic. [ABSTRACT FROM AUTHOR]

Published

2015

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

Author

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

Subjects

Animals, Echinodermata classification, Life History Traits, Phylogeny, Sweden, Biological Evolution, Echinodermata anatomy & histology, Environment, Fossils anatomy & histology

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., (© 2022. The Author(s).)

Published

2022

22. Echinobase: leveraging an extant model organism database to build a knowledgebase supporting research on the genomics and biology of echinoderms.

Author

Arshinoff BI, Cary GA, Karimi K, Foley S, Agalakov S, Delgado F, Lotay VS, Ku CJ, Pells TJ, Beatman TR, Kim E, Cameron RA, Vize PD, Telmer CA, Croce JC, Ettensohn CA, and Hinman VF

Subjects

Animals, Echinodermata classification, Genomics, Internet, Knowledge Bases, Molecular Sequence Annotation, Phylogeny, Xenopus genetics, Databases, Genetic, Echinodermata genetics, Gene Regulatory Networks, Genome, User-Computer Interface

Abstract

Echinobase (www.echinobase.org) is a third generation web resource supporting genomic research on echinoderms. The new version was built by cloning the mature Xenopus model organism knowledgebase, Xenbase, refactoring data ingestion pipelines and modifying the user interface to adapt to multispecies echinoderm content. This approach leveraged over 15 years of previous database and web application development to generate a new fully featured informatics resource in a single year. In addition to the software stack, Echinobase uses the private cloud and physical hosts that support Xenbase. Echinobase currently supports six echinoderm species, focused on those used for genomics, developmental biology and gene regulatory network analyses. Over 38 000 gene pages, 18 000 publications, new improved genome assemblies, JBrowse genome browser and BLAST + services are available and supported by the development of a new echinoderm anatomical ontology, uniformly applied formal gene nomenclature, and consistent orthology predictions. A novel feature of Echinobase is integrating support for multiple, disparate species. New genomes from the diverse echinoderm phylum will be added and supported as data becomes available. The common code development design of the integrated knowledgebases ensures parallel improvements as each resource evolves. This approach is widely applicable for developing new model organism informatics resources., (© The Author(s) 2021. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2022

23. Catalogue of living crinoids (Echinodermata: Crinoidea) from Brazil.

Author

Gondim AI, DE Moura RB, and Christoffersen ML

Subjects

Animals, Atlantic Ocean, Brazil, Echinodermata classification

Abstract

Knowledge of living crinoids from Brazil is chiefly restricted to the contributions of Dr Luis Roberto Tommasi between the decades of 1950 and 1970. Herein we present an updated catalogue of the crinoids occurring along the Brazilian coast, including data on synonyms, type localities, type material, geographical distribution, bathymetric ranges, and occurrences of species along the coast. The data is based on an extensive revision of the literature and on a survey of several databases. A total of 20 species were catalogued, of which two are endemic (Phrixometra longipinna var. brasiliensis and Thaumatometra minutissima). According to information from the literature, P. longipinna var. brasiliensis represents an undescribed taxon. Although Brazil supports the greatest number of crinoid species in the Southwestern Atlantic, its crinoid fauna remains understudied and likely underestimated. Research on crinoids remains a subject of great potential, not only for taxonomy but also for other areas of knowledge.

Published

2021

24. Deep-sea Ophiuroidea (Echinodermata) from the Danish Galathea II Expedition, 1950-52, with taxonomic revisions.

Author

Stöhr S and O'Hara TD

Subjects

Animal Distribution, Animals, Classification, Denmark, Expeditions, Oceans and Seas, Species Specificity, Echinodermata anatomy & histology, Echinodermata classification, Echinodermata genetics, Phylogeny

Abstract

The brittle star samples collected by the Danish cruise 'Galathea II' (1950-52) had not been studied completely. We examined the remaining deep-sea samples (400 m) and present the species inventory, discussing taxonomic issues in relation to recent phylogenetic data. About 235 samples were examined, over 9,300 individuals, from 67 species and 74 sampling localities, at depths of 425-5340 m. The species complex Amphiophiura bullata (Thomson, 1877) is morphologically not well separated, but molecular data suggest at least two clades. We propose to apply A. bullata for Atlantic and Australian populations and A. convexa (Lyman, 1878) for the North Pacific clade. We consider A. bullata pacifica Litvinova, 1971 conspecific with A. convexa. Ophiuroglypha irrorata (Lyman, 1878) and its subspecies are a polyphyletic group with unclear morphological boundaries. We propose to transfer Ophiura ossiculata (Koehler, 1908), Ophiura plana (Lütken Mortensen, 1899) and Ophiura scomba Paterson, 1985 to Ophiuroglypha. Silax Fell, 1962, until now synonymised with Amphioplus Verrill, 1899, is proposed as a valid genus with the species S. verrilli (Lyman, 1879), S. consors (Koehler, 1908), S. daleus (Lyman, 1879), S. patulus (Lyman, 1879) and S. magnificus (Koehler, 1907). Triplodia Turner Hallen, 2011 (a replacement name for Triodia A. M. Clark, 1970, due to homonymy) is synonymised with Silax, and possible specimens of its type species Triodia abdita A. M. Clark, 1970 are analysed. The species limits of Ophiacantha cosmica Lyman, 1879 and Ophiacantha pacifica Lütken Mortensen, 1899 could not be confirmed morphologically, but published molecular data suggest two clades. We propose to apply O. pacifica to the Northern/Central Pacific population and O. cosmica to the Southern Pacific/Antarctic population.

Published

2021

25. A diverse crinoid fauna (Echinodermata, Crinoidea) from the Lower Eocene of the Gulf of Languedoc (Corbières, Aude, southern France).

Author

Roux M, Martinez A, and Vizcaïno D

Subjects

Animals, France, Oceans and Seas, Species Specificity, Echinodermata anatomy & histology, Echinodermata classification, Fossils

Abstract

Detailed studies of the middle Ilerdian (lower Ypresian) blue marls of the Gulf of Languedoc (Corbières, Aude, France), belonging to the north Pyrenean foreland basin, have revealed a more abundant and diverse crinoid fauna than previously documented from the Lower Eocene. Here we describe five species of stalked crinoids in the family Rhizocrinidae (Cherbonniericrinus requiensis n. sp., ?Democrinus elongatus, Globulocrinus amphoraformis n. gen., n. sp., Pseudoconocrinus doncieuxi and P. lavadensis n. sp.), one barnacle-like species in the stalkless family Holopodidae (Holopus plaziati n. sp.) and a single feather star in the family Conometridae (Amphorometra atacica). Several sites have yielded brachials and rhizoids in addition to abundant aboral cups and columnals indicating in situ fossilisation of the dissociated skeletal elements. P. lavadensis n. sp. and ?D. elongatus have been collected only from outcrops located in the upper part of the middle blue marls, while P. doncieuxi predominates, with a wide range of morphological variation, in the lower blue marls. The fossil assemblage at the locality of Réqui near Montlaur differs from the others in the smaller size of most individuals and the presence of H. plaziati n. sp., C. requiensis n. sp., G. amphoraformis n. gen., n. sp., and P. doncieuxi suboblongus n. subsp. This particular association with high juvenile mortality corresponds to an unstable environment with mixed substrates (muddy and rocky). The crinoid fauna of the Corbières appears to be the most diverse of Early Eocene age known to date. With the fauna of the London Clay, a boreal formation of the same age, it shares the presence of the genera Democrinus and Amphorometra in an open-sea environment. A comparison with extant faunas allows the depth of deposition at the Ypresian sites in the Gulf of Languedoc to be estimated between from 100 and 140 meters.

Published

2021

26. Taxonomy of the sea stars (Echinodermata: Asteroidea) from Bahia State, including ontogenetic variation and an illustrated key to the Brazilian species.

Author

Cunha R, Martins L, Menegola C, and Souto C

Subjects

Animals, Biology, Brazil, Ecosystem, Starfish, Echinodermata classification

Abstract

Describing ontogenetic morphological change is an important part of integrative taxonomy; still, most taxonomic studies are based only on adult characters. Here, we provide illustrations and a morphological description of the sea stars from Bahia, including ontogenetic and intraspecific variation, and identify taxonomic issues. A total of 293 specimens from different localities along the Bahia State coastline and comparative material from other localities were examined. Eighteen species (11 genera, eight families) of Asteroidea were identified; Astropectinidae was the most representative family. All species identified also occur in subtropical Brazilian waters and most species are from shallow water habitats with soft bottoms. Most observed ontogenetic variation was quantitative in nature, such as the increase in the number of spines in the furrow and of spinelets in the paxillae with specimen growth. Genera that require further taxonomic studies are Astropecten and Othilia, whose specimens are commonly misidentified in local studies. One third of the species from Bahia are currently classified as "Vulnerable" in the Brazilian Red List, but baseline data on the population biology of these species are scarce. An illustrated identification key to the 65 Brazilian sea star species is also provided. This taxonomic study will facilitate the identification of specimens occurring along the Brazilian coast and help scientists and policy makers to establish the conservation status of the Brazilian species.

Published

2021

27. Molecular and functional characterization of somatostatin-type signalling in a deuterostome invertebrate.

Author

Zhang Y, Yañez Guerra LA, Egertová M, Zampronio CG, Jones AM, and Elphick MR

Subjects

Amino Acid Sequence, Animals, Cloning, Molecular, Echinodermata classification, Echinodermata genetics, Evolution, Molecular, Gene Expression, Gene Order, Immunohistochemistry, In Situ Hybridization, Muscle Relaxation drug effects, Neuropeptides chemistry, Neuropeptides genetics, Neuropeptides metabolism, Neuropeptides pharmacology, Peptides chemistry, Peptides genetics, Peptides metabolism, Peptides pharmacology, Phylogeny, Protein Transport, RNA, Messenger genetics, RNA, Messenger metabolism, Sequence Alignment, Somatostatin chemistry, Somatostatin genetics, Starfish classification, Starfish genetics, Starfish metabolism, Echinodermata metabolism, Signal Transduction, Somatostatin metabolism

Abstract

Somatostatin (SS) and allatostatin-C (ASTC) are structurally and evolutionarily related neuropeptides that act as inhibitory regulators of physiological processes in mammals and insects, respectively. Here, we report the first molecular and functional characterization of SS/ASTC-type signalling in a deuterostome invertebrate-the starfish Asterias rubens (phylum Echinodermata). Two SS/ASTC-type precursors were identified in A. rubens (ArSSP1 and ArSSP2) and the structures of neuropeptides derived from these proteins (ArSS1 and ArSS2) were analysed using mass spectrometry. Pharmacological characterization of three cloned A. rubens SS/ASTC-type receptors (ArSSR1-3) revealed that ArSS2, but not ArSS1, acts as a ligand for all three receptors. Analysis of ArSS2 expression in A. rubens using mRNA in situ hybridization and immunohistochemistry revealed stained cells/fibres in the central nervous system, the digestive system (e.g. cardiac stomach) and the body wall and its appendages (e.g. tube feet). Furthermore, in vitro pharmacological tests revealed that ArSS2 causes dose-dependent relaxation of tube foot and cardiac stomach preparations, while injection of ArSS2 in vivo causes partial eversion of the cardiac stomach. Our findings provide new insights into the molecular evolution of SS/ASTC-type signalling in the animal kingdom and reveal an ancient role of SS-type neuropeptides as inhibitory regulators of muscle contractility.

Published

2020

28. Evolution and Development at the Origin of a Phylum.

Author

Deline B, Thompson JR, Smith NS, Zamora S, Rahman IA, Sheffield SL, Ausich WI, Kammer TW, and Sumrall CD

Subjects

Animals, Fossils, Biological Evolution, Body Patterning genetics, Echinodermata anatomy & histology, Echinodermata classification

Abstract

Quantifying morphological evolution is key to determining the patterns and processes underlying the origin of phyla. We constructed a hierarchical morphological character matrix to characterize the radiation and establishment of echinoderm body plans during the early Paleozoic. This showed that subphylum-level clades diverged gradually through the Cambrian, and the distinctiveness of the resulting body plans was amplified by the extinction of transitional forms and obscured by convergent evolution during the Ordovician. Higher-order characters that define these body plans were not fixed at the origin of the phylum, countering hypotheses regarding developmental processes governing the early evolution of animals. Instead, these burdened characters were flexible, enabling continued evolutionary innovation throughout the clades' history., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

29. Biomineralization by particle attachment in early animals.

Author

Gilbert PUPA, Porter SM, Sun CY, Xiao S, Gibson BM, Shenkar N, and Knoll AH

Subjects

Animals, Fossils, Animal Shells metabolism, Biomineralization physiology, Calcium Carbonate metabolism, Cnidaria classification, Cnidaria metabolism, Echinodermata classification, Echinodermata metabolism, Mollusca classification, Mollusca metabolism

Abstract

Crystallization by particle attachment (CPA) of amorphous precursors has been demonstrated in modern biomineralized skeletons across a broad phylogenetic range of animals. Precisely the same precursors, hydrated (ACC-H 2 O) and anhydrous calcium carbonate (ACC), have been observed spectromicroscopically in echinoderms, mollusks, and cnidarians, phyla drawn from the 3 major clades of eumetazoans. Scanning electron microscopy (SEM) here also shows evidence of CPA in tunicate chordates. This is surprising, as species in these clades have no common ancestor that formed a mineralized skeleton and appear to have evolved carbonate biomineralization independently millions of years after their late Neoproterozoic divergence. Here we correlate the occurrence of CPA from ACC precursor particles with nanoparticulate fabric and then use the latter to investigate the antiquity of the former. SEM images of early biominerals from Ediacaran and Cambrian shelly fossils show that these early calcifiers used attachment of ACC particles to form their biominerals. The convergent evolution of biomineral CPA may have been dictated by the same thermodynamics and kinetics as we observe today., Competing Interests: Conflict of interest statement: P.U.P.A.G., C.-Y.S., and Tali Mass are coauthors on 2 research articles published in 2017., (Copyright © 2019 the Author(s). Published by PNAS.)

Published

2019

30. Dark offshoot: Phylogenomic data sheds light on the evolutionary history of a new species of cave brittle star.

Author

Bribiesca-Contreras G, Pineda-Enríquez T, Márquez-Borrás F, Solís-Marín FA, Verbruggen H, Hugall AF, and O'Hara TD

Subjects

Animals, Geography, Mexico, Species Specificity, Caves, Echinodermata classification, Echinodermata genetics, Phylogeny

Abstract

Caves are a useful system for testing evolutionary and biogeographic hypotheses, as they are isolated, and their environmental conditions have resulted in adaptive selection across different taxa. Although in recent years many more cave species have been discovered, cave-dwelling members of the class Ophiuroidea (brittle stars) remain scarce. Out of the more than two thousand species of brittle stars described to date, only three are regarded as true cave-dwellers. These occurrences represent rare colonising events, compared to other groups that are known to have successfully diversified in these systems. A third species from an anchihaline cave system in the Yucatan Peninsula, Mexico, has been previously identified from cytochrome oxidase I (COI) barcodes. In this study, we reassess the species boundaries of this putative cave species using a phylogenomic dataset (20 specimens in 13 species, 100 exons, 18.7 kbp). We perform species delimitation analyses using robust full-coalescent methods for discovery and validation of hypotheses on species boundaries, as well as infer its phylogenetic relationships with species distributed in adjacent marine regions, in order to investigate the origin of this cave-adapted species. We assess which hypotheses on the origin of subterranean taxa can be applied to this species by taking into account its placement within the genus Ophionereis and its demographic history. We provide a detailed description of Ophionereis commutabilis n. sp., and evaluate its morphological characters in the light of its successful adaptation to life in caves., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

31. On the impact of Citizen Science-derived data quality on deep learning based classification in marine images.

Author

Langenkämper D, Simon-Lledó E, Hosking B, Jones DOB, and Nattkemper TW

Subjects

Animals, Aquatic Organisms, Arthropods anatomy & histology, Arthropods classification, Cnidaria anatomy & histology, Cnidaria classification, Echinodermata anatomy & histology, Echinodermata classification, Humans, Imaging, Three-Dimensional, Marine Biology instrumentation, Mollusca anatomy & histology, Mollusca classification, Porifera anatomy & histology, Porifera classification, Citizen Science methods, Deep Learning, Image Processing, Computer-Assisted statistics & numerical data, Marine Biology methods

Abstract

The evaluation of large amounts of digital image data is of growing importance for biology, including for the exploration and monitoring of marine habitats. However, only a tiny percentage of the image data collected is evaluated by marine biologists who manually interpret and annotate the image contents, which can be slow and laborious. In order to overcome the bottleneck in image annotation, two strategies are increasingly proposed: "citizen science" and "machine learning". In this study, we investigated how the combination of citizen science, to detect objects, and machine learning, to classify megafauna, could be used to automate annotation of underwater images. For this purpose, multiple large data sets of citizen science annotations with different degrees of common errors and inaccuracies observed in citizen science data were simulated by modifying "gold standard" annotations done by an experienced marine biologist. The parameters of the simulation were determined on the basis of two citizen science experiments. It allowed us to analyze the relationship between the outcome of a citizen science study and the quality of the classifications of a deep learning megafauna classifier. The results show great potential for combining citizen science with machine learning, provided that the participants are informed precisely about the annotation protocol. Inaccuracies in the position of the annotation had the most substantial influence on the classification accuracy, whereas the size of the marking and false positive detections had a smaller influence., Competing Interests: The GPU donation from NVIDIA Corporation does not introduce a competing interest. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2019

32. Mitigating Anticipated Effects of Systematic Errors Supports Sister-Group Relationship between Xenacoelomorpha and Ambulacraria.

Author

Philippe H, Poustka AJ, Chiodin M, Hoff KJ, Dessimoz C, Tomiczek B, Schiffer PH, Müller S, Domman D, Horn M, Kuhl H, Timmermann B, Satoh N, Hikosaka-Katayama T, Nakano H, Rowe ML, Elphick MR, Thomas-Chollier M, Hankeln T, Mertes F, Wallberg A, Rast JP, Copley RR, Martinez P, and Telford MJ

Subjects

Animals, Chordata classification, Echinodermata classification, Invertebrates anatomy & histology, Biological Evolution, Invertebrates classification, Phylogeny

Abstract

Xenoturbella and the acoelomorph worms (Xenacoelomorpha) are simple marine animals with controversial affinities. They have been placed as the sister group of all other bilaterian animals (Nephrozoa hypothesis), implying their simplicity is an ancient characteristic [1, 2]; alternatively, they have been linked to the complex Ambulacraria (echinoderms and hemichordates) in a clade called the Xenambulacraria [3-5], suggesting their simplicity evolved by reduction from a complex ancestor. The difficulty resolving this problem implies the phylogenetic signal supporting the correct solution is weak and affected by inadequate modeling, creating a misleading non-phylogenetic signal. The idea that the Nephrozoa hypothesis might be an artifact is prompted by the faster molecular evolutionary rate observed within the Acoelomorpha. Unequal rates of evolution are known to result in the systematic artifact of long branch attraction, which would be predicted to result in an attraction between long-branch acoelomorphs and the outgroup, pulling them toward the root [6]. Other biases inadequately accommodated by the models used can also have strong effects, exacerbated in the context of short internal branches and long terminal branches [7]. We have assembled a large and informative dataset to address this problem. Analyses designed to reduce or to emphasize misleading signals show the Nephrozoa hypothesis is supported under conditions expected to exacerbate errors, and the Xenambulacraria hypothesis is preferred in conditions designed to reduce errors. Our reanalyses of two other recently published datasets [1, 2] produce the same result. We conclude that the Xenacoelomorpha are simplified relatives of the Ambulacraria., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

33. Cell type phylogenetics informs the evolutionary origin of echinoderm larval skeletogenic cell identity.

Author

Erkenbrack EM and Thompson JR

Subjects

Animal Shells anatomy & histology, Animal Shells cytology, Animal Shells growth & development, Animals, Bayes Theorem, Biological Evolution, Echinodermata classification, Embryo, Nonmammalian, Extinction, Biological, Gene Expression Regulation, Developmental, Larva cytology, Larva growth & development, Mesoderm cytology, Mesoderm growth & development, Mesoderm metabolism, Stem Cells cytology, Stem Cells metabolism, Animal Shells metabolism, Echinodermata genetics, Gene Regulatory Networks, Larva metabolism, Phylogeny

Abstract

The multiplicity of cell types comprising multicellular organisms begs the question as to how cell type identities evolve over time. Cell type phylogenetics informs this question by comparing gene expression of homologous cell types in distantly related taxa. We employ this approach to inform the identity of larval skeletogenic cells of echinoderms, a clade for which there are phylogenetically diverse datasets of spatial gene expression patterns. We determined ancestral spatial expression patterns of alx1, ets1, tbr, erg , and vegfr , key components of the skeletogenic gene regulatory network driving identity of the larval skeletogenic cell. Here we show ancestral state reconstructions of spatial gene expression of extant eleutherozoan echinoderms support homology and common ancestry of echinoderm larval skeletogenic cells. We propose larval skeletogenic cells arose in the stem lineage of eleutherozoans during a cell type duplication event that heterochronically activated adult skeletogenic cells in a topographically distinct tissue in early development., Competing Interests: The authors declare no competing interests.

Published

2019

34. A stem group echinoderm from the basal Cambrian of China and the origins of Ambulacraria.

Author

Topper TP, Guo J, Clausen S, Skovsted CB, and Zhang Z

Subjects

Animals, Biological Evolution, China, Chordata, Nonvertebrate anatomy & histology, Chordata, Nonvertebrate classification, Chordata, Nonvertebrate physiology, Echinodermata classification, Echinodermata physiology, Fossils history, Geologic Sediments analysis, History, Ancient, Echinodermata anatomy & histology, Fossils anatomy & histology, Phylogeny

Abstract

Deuterostomes are a morphologically disparate clade, encompassing the chordates (including vertebrates), the hemichordates (the vermiform enteropneusts and the colonial tube-dwelling pterobranchs) and the echinoderms (including starfish). Although deuterostomes are considered monophyletic, the inter-relationships between the three clades remain highly contentious. Here we report, Yanjiahella biscarpa, a bilaterally symmetrical, solitary metazoan from the early Cambrian (Fortunian) of China with a characteristic echinoderm-like plated theca, a muscular stalk reminiscent of the hemichordates and a pair of feeding appendages. Our phylogenetic analysis indicates that Y. biscarpa is a stem-echinoderm and not only is this species the oldest and most basal echinoderm, but it also predates all known hemichordates, and is among the earliest deuterostomes. This taxon confirms that echinoderms acquired plating before pentaradial symmetry and that their history is rooted in bilateral forms. Yanjiahella biscarpa shares morphological similarities with both enteropneusts and echinoderms, indicating that the enteropneust body plan is ancestral within hemichordates.

Published

2019

35. Species delimitation in the presence of strong incomplete lineage sorting and hybridization: Lessons from Ophioderma (Ophiuroidea: Echinodermata).

Author

Weber AA, Stöhr S, and Chenuil A

Subjects

Animals, Bayes Theorem, DNA, Mitochondrial, Discriminant Analysis, Geography, Mitochondria genetics, Multigene Family, Principal Component Analysis, Species Specificity, Time Factors, Echinodermata classification, Echinodermata genetics, Hybridization, Genetic, Phylogeny

Abstract

Accurate species delimitation is essential to properly assess biodiversity, but also for management and conservation purposes. Yet, it is not always trivial to accurately define species boundaries in closely related species due to incomplete lineage sorting. Additional difficulties may be caused by hybridization, now evidenced as a frequent phenomenon. The brittle star cryptic species complex Ophioderma longicauda encompasses six mitochondrial lineages, including broadcast spawners and internal brooders, yet the actual species boundaries are unknown. Here, we combined three methods to delimit species in the Ophioderma longicauda complex and to infer its divergence history: (i) unsupervised species discovery based on multilocus genotypes; (ii) divergence time estimation using the multi-species coalescent; (iii) divergence scenario testing (including gene flow) using Approximate Bayesian Computation (ABC) methods. 30 sequence markers (transcriptome-based, mitochondrial or non-coding) for 89 O. longicauda and outgroup individuals were used. First, multivariate analyses revealed six genetic clusters, which globally corresponded to the mitochondrial lineages, yet with many exceptions, suggesting ancient hybridization events and challenging traditional mitochondrial barcoding approaches. Second, multi-species coalescent-based analyses confirmed the occurrence of six species and provided divergence time estimates, but the sole use of this method failed to accurately delimit species, highlighting the power of multilocus genotype clustering to delimit recently diverged species. Finally, Approximate Bayesian Computation showed that the most likely scenario involves hybridization between brooders and broadcasters. Our study shows that despite strong incomplete lineage sorting and past hybridization, accurate species delimitation in Ophioderma was possible using a combination of complementary methods. We propose that these methods, especially multilocus genotype clustering, may be useful to resolve other complex speciation histories., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

36. Atlantic West Ophiothrix spp. in the scope of integrative taxonomy: Confirming the existence of Ophiothrix trindadensis Tommasi, 1970.

Author

Alitto RADS, Amaral ACZ, de Oliveira LD, Serrano H, Seger KR, Guilherme PDB, Domenico MD, Christensen AB, Lourenço LB, Tavares M, and Borges M

Subjects

Animals, Bayes Theorem, Brazil, DNA, Mitochondrial genetics, Echinodermata anatomy & histology, Echinodermata genetics, Electron Transport Complex IV genetics, Genes, Mitochondrial, Genetic Variation, Phylogeny, Species Specificity, Echinodermata classification

Abstract

We re-describe and confirm the validity of Ophiothrix trindadensis Tommasi, 1970 (Echinodermata: Ophiuroidea). This is a native species from Brazil, however it lacked a type series deposited in scientific collections. The recognition of O. trindadensis was made possible using integrative taxonomy applied to many specimens from the type locality (Trindade Island) as well as from different locations along the Brazilian coast (Araçá Bay and Estuarine Complex of Paranaguá). Initially, 835 specimens were studied and divided into four candidate species (CS) inferred from external morphological characters. Afterwards, the CSs were compared using integrative taxonomy based on external morphology, arm microstructures morphology (arm ossicle), morphometry, and molecular studies (fragments of the mitochondrial genes 16S and COI). Analyses indicated CS1 and CS2 as O. trindadensis, and CS3 as O. angulata, both valid species. CS4 remains O. cf. angulata as more data, including their ecology and physiology, are needed to be definitively clarified. Our integrative investigation using specimens from the type locality overcame the lack of type specimens and increased the reliable identification of O. trindadensis and O. angulata., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

37. Phylogenomics, life history and morphological evolution of ophiocomid brittlestars.

Author

O'Hara TD, Hugall AF, Cisternas PA, Boissin E, Bribiesca-Contreras G, Sellanes J, Paulay G, and Byrne M

Subjects

Animals, Atlantic Ocean, Echinodermata genetics, Environment, Fossils, Genes, Mitochondrial genetics, Pacific Ocean, Sequence Analysis, DNA, Species Specificity, Echinodermata anatomy & histology, Echinodermata classification, Evolution, Molecular, Phylogeny

Abstract

Brittlestars in the family Ophiocomidae are large and colourful inhabitants of tropical shallow water habitats across the globe. Here we use targeted capture and next-generation sequencing to generate robust phylogenomic trees for 39 of the 43 species in order to test the monophyly of existing genera. The large genus Ophiocoma, as currently constituted, is paraphyletic on our trees and required revision. Four genera are recognised herein: an expanded Ophiomastix (now including Ophiocoma wendtii, O. occidentalis, O. endeani, O. macroplaca, and Ophiarthrum spp), Ophiocomella (now including the non-fissiparous Ophiocoma pumila, aethiops and valenciae) and Breviturma (now including Ophiocoma pica, O. pusilla, O. paucigranulata and O. longispina) and a restricted Ophiocoma. The resulting junior homonym Ophiomastix elegans is renamed O. brocki. The genus Ophiomastix exhibits relatively high rates of morphological disparity compared to other lineages. Ophiomastix flaccida and O. (formerly Ophiarthrum) pictum have divergent mitochondrial genomes, characterised by gene-order rearrangements, strand recoding, enriched GT base composition, and a corresponding divergence of nuclear mitochondrial protein genes. The new phylogeny indicates that larval and developmental transitions occurred rarely. Larval culture trials show that species with abbreviated lecithotrophic larval development occur only within Ophiomastix, although the possible monophyly of these species is obscured by the rapid early radiation within this genus. Asexual reproduction by fission is limited to one species-complex within Ophiocomella, also characterised by elevated levels of allelic heterozygosity, and which has achieved a relatively rapid global distribution. The crown ages of the new genera considerably predate the closure of the Tethyan seaway and all four are distributed in both the Atlantic and Indo-Pacific Oceans. Two species pairs appear to reflect the closure of the Panama Seaway, although their fossil-calibrated node ages (12-14 ± 6 my), derived from both concatenated sequence and multispecies coalescent analyses, considerably predate the terminal closure event. Ophiocoma erinaceus has crossed the East Pacific barrier and is recorded from Clipperton Island, SW of Mexico., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

38. Conservation of mitochondrial genome arrangements in brittle stars (Echinodermata, Ophiuroidea).

Author

Galaska MP, Li Y, Kocot KM, Mahon AR, and Halanych KM

Subjects

Animals, Bayes Theorem, Cell Nucleus genetics, RNA, Transfer genetics, Echinodermata classification, Echinodermata genetics, Gene Order genetics, Genome, Mitochondrial genetics, Phylogeny

Abstract

Brittle stars are conspicuous members of benthic ecosystems, fill many ecological niches and are the most speciose of all classes of echinoderms. With high levels of biodiversity, elucidating the evolutionary history of this group is important. Understanding of higher-level relationships within Ophiuroidea has been aided by multilocus nuclear data and DNA barcoding. However, the degree of consistency between mitochondrial and nuclear data within ophiuroids remains unclear and deserves further assessment. In this study, 17 mitochondrial genomes spanning the taxonomic breadth of Ophiuroidea were utilized to explore evolutionary relationships through maximum likelihood analyses, Bayesian inference and comparative assessment of gene order. Our phylogenetic analyses, based on both nucleotide and amino acid residues, support recent findings based on multilocus nuclear data and morphology, in that the brittle star clades Ophintegrida and Euryophiurida were recovered as monophyletic with the latter comprising Euyalida, Ophiuridae and Ophiopyrgidae. Only three different arrangements of the 13 protein coding and 2 ribosomal RNA genes were observed. As expected, tRNA genes were more likely to have undergone rearrangement but the order of all 37 genes was found to be conserved in all sampled Euryalida and Ophiuridae. Both Euryalida and the clade comprised of Ophiuridae and Ophiopyrgidae, each had their own conserved rearrangement of protein coding genes and ribosomal genes, after divergence from their last common ancestor. Euryalida has a rearrangement of the two ribosomal RNA genes, rrnS and rrnL, in contrast to Ophiuridae and Ophiopyrgidae, which had an inversion of the genes nad1, nad2, and cob relative to Ophintegrida. Further, our data support the gene order found in all sampled Euryalida as the most likely ancestral order for all Ophiuroidea., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

39. Two more Posterior Hox genes and Hox cluster dispersal in echinoderms.

Author

Szabó R and Ferrier DEK

Subjects

Amino Acid Motifs, Amino Acid Sequence, Animals, Echinodermata classification, Echinodermata growth & development, Homeodomain Proteins chemistry, Multigene Family, Phylogeny, Sequence Alignment, Echinodermata genetics, Evolution, Molecular, Genes, Homeobox, Homeodomain Proteins genetics

Abstract

Background: Hox genes are key elements in patterning animal development. They are renowned for their, often, clustered organisation in the genome, with supposed mechanistic links between the organisation of the genes and their expression. The widespread distribution and comparable functions of Hox genes across the animals has led to them being a major study system for comparing the molecular bases for construction and divergence of animal morphologies. Echinoderms (including sea urchins, sea stars, sea cucumbers, feather stars and brittle stars) possess one of the most unusual body plans in the animal kingdom with pronounced pentameral symmetry in the adults. Consequently, much interest has focused on their development, evolution and the role of the Hox genes in these processes. In this context, the organisation of echinoderm Hox gene clusters is distinctive. Within the classificatory system of Duboule, echinoderms constitute one of the clearest examples of Disorganized (D) clusters (i.e. intact clusters but with a gene order or orientation rearranged relative to the ancestral state)., Results: Here we describe two Hox genes (Hox11/13d and e) that have been overlooked in most previous work and have not been considered in reconstructions of echinoderm Hox complements and cluster organisation. The two genes are related to Posterior Hox genes and are present in all classes of echinoderm. Importantly, they do not reside in the Hox cluster of any species for which genomic linkage data is available., Conclusion: Incorporating the two neglected Posterior Hox genes into assessments of echinoderm Hox gene complements and organisation shows that these animals in fact have Split (S) Hox clusters rather than simply Disorganized (D) clusters within the Duboule classification scheme. This then has implications for how these genes are likely regulated, with them no longer covered by any potential long-range Hox cluster-wide, or multigenic sub-cluster, regulatory mechanisms.

Published

2018

40. The peristomial plates of ophiuroids (Echinodermata: Ophiuroidea) highlight an incongruence between morphology and proposed phylogenies.

Author

Wilkie IC and Brogger MI

Subjects

Animals, Biological Evolution, Geography, Phenotype, Phylogeny, Water, Echinodermata anatomy & histology, Echinodermata classification

Abstract

The peristomial plates are skeletal components of the interbrachial frame (or mouth frame), which is located below the true mouth of ophiuroids. Whilst the peristomial plates were extensively described and used as diagnostic characters by some early workers, for the past 100 years they have been largely neglected as a taxonomic resource. In this investigation the peristomial plates of 48 species representing 21 families were examined directly, and information on a further 61 species, including representatives of another eight families, was obtained from the published literature. Observations were made with regard to fragmentation state, relative size and orientation of the peristomial plates. Although fragmentation state showed little consistency at any taxonomic level, relative size and orientation segregated a group of families comprising species with relatively small, inclined peristomial plates, viz. Ophiotrichidae, Ophiopholidae, Ophiactidae, Amphiuridae and Ophiocomidae, together with a single hemieuryalid species-Ophioplocus januarii. The distribution of peristomial plate traits was strongly correlated with that of several other character states pertaining to the interbrachial frame. This supported the proposition that two major types of interbrachial frame are present in ophiuroids (designated 'A' and 'B'). Current phylogenies inferred from both morphological and molecular data imply that type B is derived and has evolved independently at least twice in the orders Amphilepidida and Ophiacanthida. This represents a remarkable example of evolutionary convergence. An analysis of the distribution of all interbrachial frame character states suggested that within the Amphilepidida paedomorphosis was probably responsible for the complete reversion of the interbrachial frame to the ancestral type A condition in two families (Ophiothamnidae and Amphilepididae) of suborder Gnathophiurina and possibly responsible for varying degrees of trait reversal in the four families of suborder Ophionereidina. Such paedomorphic events may have been associated with a secondary return to the deep-sea from shallow-sea environments., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

41. Embryonic neurogenesis in echinoderms.

Author

Hinman VF and Burke RD

Subjects

Animals, Echinodermata classification, Echinodermata genetics, Embryo, Nonmammalian metabolism, Gastrulation genetics, Gene Expression Regulation, Developmental, Nervous System metabolism, Phylogeny, Echinodermata embryology, Embryo, Nonmammalian embryology, Nervous System embryology, Neurogenesis

Abstract

The phylogenetic position of echinoderms is well suited to revealing shared features of deuterostomes that distinguish them from other bilaterians. Although echinoderm neurobiology remains understudied, genomic resources, molecular methods, and systems approaches have enabled progress in understanding mechanisms of embryonic neurogenesis. Even though the morphology of echinoderm larvae is diverse, larval nervous systems, which arise during gastrulation, have numerous similarities in their organization. Diverse neural subtypes and specialized sensory neurons have been identified and details of neuroanatomy using neuron-specific labels provide hypotheses for neural function. The early patterning of ectoderm and specification of axes has been well studied in several species and underlying gene regulatory networks have been established. The cells giving rise to central and peripheral neural components have been identified in urchins and sea stars. Neurogenesis includes typical metazoan features of asymmetric division of neural progenitors and in some cases limited proliferation of neural precursors. Delta/Notch signaling has been identified as having critical roles in regulating neural patterning and differentiation. Several transcription factors functioning in pro-neural phases of specification, neural differentiation, and sub-type specification have been identified and structural or functional components of neurons are used as differentiation markers. Several methods for altering expression in embryos have revealed aspects of a regulatory hierarchy of transcription factors in neurogenesis. Interfacing neurogenic gene regulatory networks to the networks regulating ectodermal domains and identifying the spatial and temporal inputs that pattern the larval nervous system is a major challenge that will contribute substantially to our understanding of the evolution of metazoan nervous systems. This article is categorized under: Comparative Development and Evolution > Model Systems Comparative Development and Evolution > Body Plan Evolution Early Embryonic Development > Gastrulation and Neurulation., (© 2018 Wiley Periodicals, Inc.)

Published

2018

42. Molecular mechanisms of fission in echinoderms: Transcriptome analysis.

Author

Dolmatov IY, Afanasyev SV, and Boyko AV

Subjects

Animals, Computational Biology methods, Echinodermata classification, Gene Expression Profiling, Gene Ontology, Genetic Association Studies, Molecular Sequence Annotation, Phylogeny, Signal Transduction, Echinodermata physiology, Reproduction, Asexual genetics, Transcriptome

Abstract

Echinoderms are capable of asexual reproduction by fission. An individual divides into parts due to changes in the strength of connective tissue of the body wall. The structure of connective tissue and the mechanisms of variations in its strength in echinoderms remain poorly studied. An analysis of transcriptomes of individuals during the process of fission provides a new opportunity to understand the mechanisms of connective tissue mutability. In the holothurian Cladolabes schmeltzii, we have found a rather complex organization of connective tissue. Transcripts of genes encoding a wide range of structural proteins of extracellular matrix, as well as various proteases and their inhibitors, have been discovered. All these molecules may constitute a part of the mechanism of connective tissue mutability. According to our data, the extracellular matrix of echinoderms is substantially distinguished from that of vertebrates by the lack of elastin, fibronectins, and tenascins. In case of fission, a large number of genes of transcription factors and components of different signaling pathways are expressed. Products of these genes are probably involved in regulation of asexual reproduction, connective tissue mutability, and preparation of tissues for subsequent regeneration. It has been shown that holothurian tensilins are a special group of tissue inhibitors of metalloproteinases, which has formed within the class Holothuroidea and is absent from other echinoderms. Our data can serve a basis for the further study of the mechanisms of extracellular matrix mutability, as well as the mechanisms responsible for asexual reproduction in echinoderms.

Published

2018

43. Description of a New Subfamily, Astrocloninae (Ophiuroidea: Euryalida: Gorgonocephalidae), Based on Molecular Phylogeny and Morphological Observations.

Author

Okanishi M and Fujita T

Subjects

Animals, Echinodermata anatomy & histology, Echinodermata genetics, Evolution, Molecular, Sequence Analysis, DNA, Echinodermata classification, Phylogeny

Abstract

Previous phylogenetic studies of the family Gorgonocephalidae (brittle stars and basket stars) have identified three subfamilies, Astrotominae, Astrothamninae, and Gorgonocephalinae. The genus Astroclon was tentatively assigned to the subfamily Astrothamninae in previous studies, but its morphology is enigmatic and molecular data of the genus was insufficient. Therefore, the systematic position of Astroclon required confirmation to reconstruct the accurate systematics of the Euryalida. In the present study, we sought to clarify the subfamilial classification in the family Gorgonocephalidae (Echinodermata: Ophiuroidea: Euryalida). We revisited molecular phylogenetics of the Gorgonocephalidae including Astroclon and the major taxa in the family. The molecular analysis supported monophyly of the two species of Astroclon and its clear separation from Astrothamninae. The two Astroclon species were also distinguished from the other two subfamilies, Astrotominae and Gorgonocephalinae. Astroclon and three other subfamilies were divided in the basal position of the Gorgonocephalidae, and were assigned to subfamilies. A new subfamily, Astrocloninae was monotypically established for Astroclon in addition to the previous three subfamilies. Morphology of the first ventral arm plates and tentacle pores also supported distinctiveness of the new subfamily.

Published

2018

44. Regeneration in Stellate Echinoderms: Crinoidea, Asteroidea and Ophiuroidea.

Author

Ben Khadra Y, Sugni M, Ferrario C, Bonasoro F, Oliveri P, Martinez P, and Candia Carnevali MD

Subjects

Animals, Biological Evolution, Echinodermata classification, Echinodermata physiology, Regeneration

Abstract

Reparative regeneration is defined as the replacement of lost adult body parts and is a phenomenon widespread yet highly variable among animals. This raises the question of which key cellular and molecular mechanisms have to be implemented in order to efficiently and correctly replace entire body parts in any animal. To address this question, different studies using an integrated cellular and functional genomic approach to study regeneration in stellate echinoderms (crinoids, asteroids and ophiuroids) had been carried out over the last few years. The phylum Echinodermata is recognized for the striking regeneration potential shown by the members of its different clades. Indeed, stellate echinoderms are considered among the most useful and tractable experimental models for carrying comprehensive studies focused on ecological, developmental and evolutionary aspects. Moreover, most of them are tractable in the laboratory and, thus, should allow us to understand the underlying mechanisms, cellular and molecular, which are involved. Here, a comprehensive analysis of the cellular/histological components of the regenerative process in crinoids, asteroids and ophiuroids is described and compared. However, though this knowledge provided us with some clear insights into the global distribution of cell types at different times, it did not explain us how the recruited cells are specified (and from which precursors) over time and where are they located in the animal. The precise answer to these queries needs the incorporation of molecular approaches, both descriptive and functional. Yet, the molecular studies in stellate echinoderms are still limited to characterization of some gene families and protein factors involved in arm regeneration but, at present, have not shed light on most of the basic mechanisms. In this context, further studies are needed specifically to understand the role of regulatory factors and their spatio-temporal deployment in the growing arms. A focus on developing functional tools over the next few years should be of fundamental importance.

Published

2018

45. Evolution of thyroid hormone signaling in animals: Non-genomic and genomic modes of action.

Author

Taylor E and Heyland A

Subjects

Animals, Cephalochordata classification, Cephalochordata genetics, Echinodermata classification, Echinodermata genetics, Evolution, Molecular, Gene Expression, Genomics, Humans, Phylogeny, Receptors, Thyroid Hormone classification, Receptors, Thyroid Hormone genetics, Thyroid Gland metabolism, Thyroid Hormones classification, Thyroid Hormones genetics, Urochordata classification, Urochordata genetics, Cephalochordata metabolism, Echinodermata metabolism, Receptors, Thyroid Hormone metabolism, Signal Transduction genetics, Thyroid Hormones metabolism, Urochordata metabolism

Abstract

Much research has focused on vertebrate thyroid hormone (TH) synthesis and their function in development and metabolism. While important differences in TH synthesis and signaling exist, comparative studies between vertebrates fail to explain the evolutionary origins of this important regulatory axis. For that, one needs to make sense out of the diverse TH effects which have been described in invertebrate phyla but for which a mechanistic understanding is largely missing. Almost every major group of non-vertebrate animals possesses the capability to synthesize and metabolize thyroid hormones and there is evidence for a nuclear thyroid hormone receptor mediated mechanism in the bilateria, especially in molluscs, echinoderms, cephalochordates and ascidians. Still, genomic pathways cannot fully explain many observed effects of thyroid hormones in groups such as cnidarians, molluscs, and echinoderms and it is therefore possible that TH may signal via other mechanisms, such as non-genomic signaling systems via membrane bound or cytoplasmic receptors. Here we provide a brief review of TH actions in selected invertebrate species and discuss the hypothesis that non-genomic TH action may have played a critical role in TH signaling throughout animal evolution., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

46. Phenotypic Innovation and Adaptive Constraints in the Evolutionary Radiation of Palaeozoic Crinoids.

Author

Wright DF

Subjects

Animals, Echinodermata classification, Adaptation, Physiological radiation effects, Echinodermata physiology, Echinodermata radiation effects, Evolution, Molecular, Phenotype

Abstract

To better understand the patterns and processes shaping large-scale phenotypic diversification, I integrate palaeobiological and phylogenetic perspectives to investigate a ~200-million-year radiation using a global sample of Palaeozoic crinoid echinoderms. Results indicate the early history of crinoid diversification is characterized by early burst dynamics with decelerating morphologic rates. However, in contrast with expectation for a single "early burst" model, morphospace continued to expand following a slowdown in rates. In addition, I find evidence for an isolated peak in morphologic rates occurring late in the clade's history. This episode of elevated rates is not associated with increased disparity, morphologic novelty, or the radiation of a single subclade. Instead, this episode of elevated rates involved multiple subclade radiations driven by environmental change toward a pre-existing adaptive optimum. The decoupling of morphologic disparity with rates of change suggests phenotypic rates are primarily shaped by ecologic factors rather than the origination of morphologic novelty alone. These results suggest phenotypic diversification is far more complex than models commonly assumed in comparative biology. Furthermore, palaeontological disparity patterns are not a reliable proxy for rates after an initial diversifying phase. These issues highlight the need for continued synthesis between fossil and phylogenetic approaches to macroevolution.

Published

2017

47. Discovery of novel representatives of bilaterian neuropeptide families and reconstruction of neuropeptide precursor evolution in ophiuroid echinoderms.

Author

Zandawala M, Moghul I, Yañez Guerra LA, Delroisse J, Abylkassimova N, Hugall AF, O'Hara TD, and Elphick MR

Subjects

Amino Acid Sequence, Animals, Biological Evolution, Calcium-Binding Proteins genetics, Calcium-Binding Proteins metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Echinodermata classification, Echinodermata metabolism, Endothelins genetics, Endothelins metabolism, Gene Dosage, Gene Expression, Insect Hormones genetics, Insect Hormones metabolism, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neuropeptide Y genetics, Neuropeptide Y metabolism, Neuropeptides classification, Neuropeptides metabolism, Nucleobindins, Protein Precursors classification, Protein Precursors metabolism, Sequence Alignment, Sequence Homology, Amino Acid, Echinodermata genetics, Neuropeptides genetics, Phylogeny, Protein Precursors genetics, Transcriptome

Abstract

Neuropeptides are a diverse class of intercellular signalling molecules that mediate neuronal regulation of many physiological and behavioural processes. Recent advances in genome/transcriptome sequencing are enabling identification of neuropeptide precursor proteins in species from a growing variety of animal taxa, providing new insights into the evolution of neuropeptide signalling. Here, detailed analysis of transcriptome sequence data from three brittle star species, Ophionotus victoriae , Amphiura filiformis and Ophiopsila aranea , has enabled the first comprehensive identification of neuropeptide precursors in the class Ophiuroidea of the phylum Echinodermata. Representatives of over 30 bilaterian neuropeptide precursor families were identified, some of which occur as paralogues. Furthermore, homologues of endothelin/CCHamide, eclosion hormone, neuropeptide-F/Y and nucleobinin/nesfatin were discovered here in a deuterostome/echinoderm for the first time. The majority of ophiuroid neuropeptide precursors contain a single copy of a neuropeptide, but several precursors comprise multiple copies of identical or non-identical, but structurally related, neuropeptides. Here, we performed an unprecedented investigation of the evolution of neuropeptide copy number over a period of approximately 270 Myr by analysing sequence data from over 50 ophiuroid species, with reference to a robust phylogeny. Our analysis indicates that the composition of neuropeptide 'cocktails' is functionally important, but with plasticity over long evolutionary time scales., (© 2017 The Authors.)

Published

2017

48. A New Species of Sexually Dimorphic Brittle Star of the Genus Ophiodaphne (Echinodermata: Ophiuroidea).

Author

Tominaga H, Hirose M, Igarashi H, Kiyomoto M, and Komatsu M

Subjects

Animal Distribution, Animals, Echinodermata genetics, Female, Japan, Male, Phylogeny, Species Specificity, Echinodermata classification

Abstract

We describe a new species of sexually dimorphic brittle star, Ophiodaphne spinosa, from Japan associated with the irregular sea urchin, Clypeaster japonicus based on its external morphology, and phylogenetic analyses of mitochondrial COI (cytochrome c oxidase subunit I). Females of this new species of Ophiodaphne are characterized mainly by the presence of wavy grooves on the surface of the radial shields, needle-like thorns on the oral skeletal jaw structures, and a low length-to-width ratio of the jaw angle in comparison with those of type specimens of its Ophiodaphne congeners: O. scripta, O. materna, and O. formata. A tabular key to the species characteristics of Ophiodaphne is provided. Phylogenetic analyses indicate that the new species of Ophiodaphne, O. scripta, and O. formata are monophyletic. Our results indicate that the Japanese Ophiodaphne include both the new species and O. scripta, and that there are four Ophiodaphne species of sexually dimorphic brittle stars with androphorous habit.

Published

2017

49. The importance of offshore origination revealed through ophiuroid phylogenomics.

Author

Bribiesca-Contreras G, Verbruggen H, Hugall AF, and O'Hara TD

Subjects

Animals, Biological Evolution, Echinodermata classification, Phylogeny

Abstract

Our knowledge of macro-evolutionary processes in the deep sea is poor, leading to much speculation about whether the deep sea is a source or sink of evolutionary adaptation. Here, we use a phylogenetic approach, on large molecular (688 species, 275 kbp) and distributional datasets (104 513 records) across an entire class of marine invertebrates (Ophiuroidea), to infer rates of bathymetric range shift over time between shallow and deep water biomes. Biome conservation is evident through the phylogeny, with the majority of species in most clades distributed within the same bathome. Despite this, bathymetric shifts have occurred. We inferred from ancestral reconstructions that eurybathic or intermediate distributions across both biomes were a transitional state and direct changes between shallow and deep sea did not occur. The macro-evolutionary pattern of bathome shift appeared to reflect micro-evolutionary processes of bathymetric speciation. Results suggest that most of the oldest clades have a deep-sea origin, but multiple colonization events indicate that the evolution of this group conforms neither to a simple onshore-offshore hypothesis, nor the opposite pattern. Both shallow and deep bathomes have played an important role in generating the current diversity of this major benthic class., (© 2017 The Author(s).)

Published

2017

50. The skeletal proteome of the sea star Patiria miniata and evolution of biomineralization in echinoderms.

Author

Flores RL and Livingston BT

Subjects

Animals, Biological Evolution, Calcium Compounds chemistry, Echinodermata chemistry, Echinodermata classification, Evolution, Molecular, Lectins, C-Type analysis, Phylogeny, Proteome analysis, Starfish chemistry, Starfish genetics

Abstract

Background: Proteomic studies of skeletal proteins have revealed large, complex mixtures of proteins occluded within the mineral. Many skeletal proteomes contain rapidly evolving proteins with repetitive domains, further complicating our understanding. In echinoderms, proteomic analysis of the skeletal proteomes of mineralized tissues of the sea urchin Strongylocentrotus purpuratus prominently featured spicule matrix proteins with repetitive sequences linked to a C-type lectin domain. A comparative study of the brittle star Ophiocoma wendtii skeletal proteome revealed an order of magnitude fewer proteins containing C-type lectin domains. A number of other proteins conserved in the skeletons of the two groups were identified. Here we report the complete skeletal proteome of the sea star Patiria miniata and compare it to that of the other echinoderm groups., Results: We have identified eighty-five proteins in the P. miniata skeletal proteome. Forty-two percent of the proteins were determined to be homologous to proteins found in the S. purpuratus skeletal proteomes. An additional 34 % were from similar functional classes as proteins in the urchin proteomes. Thirteen percent of the P. miniata proteins had homologues in the O. wendtii skeletal proteome with an additional 29% showing similarity to brittle star skeletal proteins. The P. miniata skeletal proteome did not contain any proteins with C-lectin domains or with acidic repetitive regions similar to the sea urchin or brittle star spicule matrix proteins. MSP130 proteins were also not found. We did identify a number of proteins homologous between the three groups. Some of the highly conserved proteins found in echinoderm skeletons have also been identified in vertebrate skeletons., Conclusions: The presence of proteins conserved in the skeleton in three different echinoderm groups indicates these proteins are important in skeleton formation. That a number of these proteins are involved in skeleton formation in vertebrates suggests a common origin for some of the fundamental processes co-opted for skeleton formation in deuterostomes. The proteins we identify suggest transport of proteins and calcium via endosomes was co-opted to this function in a convergent fashion. Our data also indicate that modifications to the process of skeleton formation can occur through independent co-option of proteins following species divergence as well as through domain shuffling.

Published

2017