Jaw elements in
            Plumulites bengtsoni
            confirm that machaeridians are extinct armoured scaleworms

Machaeridians are Palaeozoic animals that are dorsally armoured with serialized, imbricating shell plates that cover or enclose the body. Prior to the discovery of an articulated plumulitid machaeridian from the Early Ordovician of Morocco that preserved unambiguous annelid characters (segmental parapodia with chaetae), machaeridians were a palaeontological mystery, having been previously linked to echinoderms, barnacles, tommotiids (putative stem-group brachiopods) or molluscs. Although the annelid affinities of machaeridians are now firmly established, their position within the phylum and relevance for understanding the early evolution of Annelida is less secure, with competing hypotheses placing Machaeridia in the stem or deeply nested within the crown group of annelids. We describe a scleritome of Plumulites bengtsoni from the Fezouata Formation of Morocco that preserves an anterior jaw apparatus consisting of at least two discrete elements that exhibit growth lines. Although jaws have multiple independent origins within the annelid crown group, comparable jaws are present only within Phyllodocida, the clade that contains modern aphroditiforms (scaleworms and relatives). Phylogenetic analysis places a monophyletic Machaeridia within the crown group of Phyllodocida in total-group Aphroditiformia, consistent with a common origin of machaeridian shell plates and scaleworm elytrae. The inclusion of machaeridians in Aphroditiformia truncates the ghost lineage of Phyllodocida by almost a hundred million years.

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A three-dimensionally preserved lobopodian from the Herefordshire (Silurian) Lagerstätte, UK

Royal Society Open Science ◽

10.1098/rsos.172101 ◽

2018 ◽

Vol 5 (8) ◽

pp. 172101 ◽

Cited By ~ 4

Author(s):

Derek J. Siveter ◽

Derek E. G. Briggs ◽

David J. Siveter ◽

Mark D. Sutton ◽

David Legg

Keyword(s):

Phylogenetic Analysis ◽

The Body ◽

New Genera ◽

Crown Group ◽

Head Region ◽

Total Group ◽

Sister Clade ◽

Wide Range ◽

Velvet Worm

The Herefordshire (Silurian) Lagerstätte (approx. 430 Myr BP) has yielded, among many exceptionally preserved invertebrates, a wide range of new genera belonging to crown-group Panarthropoda. Here, we increase this panarthropod diversity with the lobopodian Thanahita distos , a new total-group panarthropod genus and species. This new lobopodian preserves at least nine paired, long, slender appendages, the anterior two in the head region and the posterior seven representing trunk lobopods. The body ends in a short post-appendicular extension. Some of the trunk lobopods bear two claws, others a single claw. The body is covered by paired, tuft-like papillae. Thanahita distos joins only seven other known three-dimensionally preserved lobopodian or onychophoran (velvet worm) fossil specimens and is the first lobopodian to be formally described from the Silurian. Phylogenetic analysis recovered it, together with all described Hallucigenia species, in a sister-clade to crown-group panarthropods. Its placement in a redefined Hallucigeniidae, an iconic Cambrian clade, indicates the survival of this clade to Silurian times.

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A primitive starfish ancestor from the Early Ordovician of Morocco reveals the origin of crown group Echinodermata

10.1101/216101 ◽

2017 ◽

Cited By ~ 1

Author(s):

Aaron W. Hunter ◽

Javier Ortega-Hernández

Keyword(s):

Phylogenetic Analyses ◽

Radial Symmetry ◽

Early Evolution ◽

Phylogenetic Position ◽

Crown Group ◽

Brittle Stars ◽

Major Clade ◽

Early Ordovician ◽

Stem Group ◽

Successful Group

AbstractThe somasteroids are Ordovician star-shaped animals widely regarded as ancestors of Asterozoa, the group of extant echinoderms that includes brittle stars and starfish. The phylogenetic position of somasteroids makes them critical for understanding the origin and early evolution of crown group Echinodermata. However, the early evolution of asterozoans, the origin of their distinctive body organization and their relationships with other Cambrian and Ordovician echinoderms, such as edrioasteroids, blastozoans, crinoids, and other asterozoans, remain problematic due to the difficulties of comparing the calcitic endoskeleton of these disparate groups. Here we describe the new somasteroidCantabrigiaster fezouataensisfrom the Early Ordovician (Tremadocian) Fezouata Lagerstätte in Morocco.Cantabrigiastershares with other somasteroids the presence of rod-like virgal ossicles that articulate with the ambulacrals, but differs from all other known asterozoans in the absence of adambulacral ossicles defining the arm margins. The unique arm construction evokes parallels with non-asterozoan echinoderms. Developmentally informed Bayesian and parsimony based phylogenetic analyses, which reflect the homology of the biserial ambulacral ossicles in Paleozoic echinoderms according to the Extraxial-Axial Theory, recoverCantabrigiasteras basal within stem group Asterozoa. Our results indicate thatCantabrigiasteris the earliest diverging stem group asterozoan, revealing the ancestral morphology of this major clade and clarifying the affinities of problematic Ordovician taxa. Somasteroids are resolved as a paraphyletic grade within stem and crown group Asterozoa (starfishes), whereas stenuroids are paraphyletic within stem group Ophiuroidea (brittle stars).Cantabrigiasteralso illuminates the relationship between Ordovician crown group Echinodermata and its Cambrian stem lineage, which includes sessile forms with incipient radial symmetry such as edrioasteroids and blastozoans. The contentious Pelmatozoa hypothesis (i.e. monophyly of blastozoans and crinoids) is not supported; instead, blastozoans represent the most likely sister-taxon of crown group Echinodermata.Author summaryStarfish and brittle stars, collectively known as asterozoans, constitute a diverse and ecologically successful group of echinoderms that first appear in the fossil record some 480Ma. However, the early evolution of asterozoans, the origin of their distinctive body organization, and their phylogenetic relationships with Cambrian echinoderms remain largely unresolved. We describeCantabrigiaster fezouataensisgen. et sp. nov., a primitive asterozoan from the Fezouata Lagerstätte, Morocco, with a unique endoskeletal arm organization that reveals the ancestral morphology of this major clade. Bayesian and parsimony based phylogenetic analyses indicate thatCantabrigiasteris the earliest diverging stem group asterozoan, and resolve the phylogenetic position of Ordovician asterozoans such as somasteroids. Our analyses clarify the origin of crown group echinoderms relative to their problematic Cambrian stem group representatives.

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New mid-Cretaceous cryptic slime mold beetles and the early evolution of Sphindidae (Coleoptera: Cucujoidea)

Arthropod Systematics & Phylogeny ◽

10.3897/asp.79.e72724 ◽

2021 ◽

Vol 79 ◽

pp. 587-597

Author(s):

Yan-Da Li ◽

Erik Tihelka ◽

Zhen-Hua Liu ◽

Di-Ying Huang ◽

Chen‑Yang Cai

Keyword(s):

Phylogenetic Analysis ◽

Fossil Record ◽

Slime Mold ◽

Early Evolution ◽

Calibration Point ◽

Crown Group ◽

Slime Molds ◽

The Family ◽

Group Members

Abstract The cryptic slime mold beetles, Sphindidae, are a moderately diverse cucujoid beetle family, whose members are obligately tied to slime molds throughout their life. The fossil record of sphindid beetles is sparse; stem-sphindids and crown-group members of uncertain systematic placement have been reported from Cretaceous ambers. Here we review the Mesozoic fossil record of Sphindidae and report a new sphindid genus and species, Trematosphindus newtonigen. et sp. nov., from Albian/Cenomanian amber from northern Myanmar (ca. 99 Ma). Trematosphindus is set apart from all other sphindids by the presence of distinct lateral cavities on the anterior pronotal angles. Our phylogenetic analysis identifies Trematosphindus as an early-diverging genus within Sphindidae, sister to the remainder of the family except Protosphindus, or Protosphindus and Odontosphindus. The new fossils provide evidence that basal crown slime mold beetles begun to diversify by the mid-Cretaceous, providing a valuable calibration point for understanding timescale of sphindid co-evolution with slime molds.

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Exceptional multifunctionality in the feeding apparatus of a mid-Cambrian radiodont

Paleobiology ◽

10.1017/pab.2021.19 ◽

2021 ◽

pp. 1-21

Author(s):

Joseph Moysiuk ◽

Jean-Bernard Caron

Keyword(s):

Phylogenetic Analysis ◽

Division Of Labor ◽

The Body ◽

Functional Specialization ◽

Feeding Apparatus ◽

Burgess Shale ◽

Crown Group ◽

Ecological Diversification ◽

Functional Transition ◽

Different Parts

Abstract Radiodonts (stem Euarthropoda) were ecologically diverse, but species generally displayed limited functional specialization of appendages along the body axis compared with crown group euarthropods. This is puzzling, because such functional specialization is considered to have been an important driver of euarthropod ecological diversification. One way to circumvent this constraint could have been the functional specialization of different parts of the frontal appendages, known to have been ecologically important in radiodonts. This hypothesis has yet to be tested explicitly. Here we redescribe the poorly known mid-Cambrian hurdiid radiodont Stanleycaris hirpex from the Burgess Shale (Stephen Formation) and quantitatively assess functional specialization of the frontal appendages of stem euarthropods. The appendages of Stanleycaris are composed of 14 podomeres, variously differentiated by their possession of pectinate endites, mono- to trifurcate medial gnathites, and outer spines. The oral cone is tetraradially organized and can be uniquely distinguished from those of other hurdiids by the presence of 28 rather than 32 smooth tridentate plates. Our phylogenetic analysis finds Stanleycaris in a grade of hurdiids retaining plesiomorphic raptorial appendicular functionality alongside derived adaptations for sweep feeding and large, bilaterally opposed gnathites. We conclude that the latter performed a masticatory function, convergent with gnathal structures like mandibles in various panarthropods. Taken together, Stanleycaris and similar hurdiids provide an extreme example of the evolution of division of labor within the appendage of a stem euarthropod and suggest that this innovation may have facilitated the functional transition, from raptorial to sweep feeding, at the origin of the hurdiid clade.

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Anatomy ofRhinochelys pulchriceps(Protostegidae) and marine adaptation during the early evolution of chelonioids

PeerJ ◽

10.7717/peerj.6811 ◽

2019 ◽

Vol 7 ◽

pp. e6811 ◽

Cited By ~ 14

Author(s):

Serjoscha W. Evers ◽

Paul M. Barrett ◽

Roger B. J. Benson

Keyword(s):

Late Cretaceous ◽

Anatomical Study ◽

Early Evolution ◽

Taxon Sampling ◽

Crown Group ◽

Total Group ◽

Marine Life ◽

Marine Adaptation ◽

Phylogenetic Hypotheses ◽

Early Late

Knowledge of the early evolution of sea turtles (Chelonioidea) has been limited by conflicting phylogenetic hypotheses resulting from sparse taxon sampling and a superficial understanding of the morphology of key taxa. This limits our understanding of evolutionary adaptation to marine life in turtles, and in amniotes more broadly. One problematic group are the protostegids, Early–Late Cretaceous marine turtles that have been hypothesised to be either stem-cryptodires, stem-chelonioids, or crown-chelonioids. Different phylogenetic hypotheses for protostegids suggest different answers to key questions, including (1) the number of transitions to marine life in turtles, (2) the age of the chelonioid crown-group, and (3) patterns of skeletal evolution during marine adaptation. We present a detailed anatomical study of one of the earliest protostegids,Rhinochelys pulchricepsfrom the early Late Cretaceous of Europe, using high-resolution μCT. We synonymise all previously named European species and document the variation seen among them. A phylogeny of turtles with increased chelonioid taxon sampling and revised postcranial characters is provided, recovering protostegids as stem-chelonioids. Our results imply a mid Early Cretaceous origin of total-group chelonioids and an early Late Cretaceous age for crown-chelonioids, which may inform molecular clock analyses in future. Specialisations of the chelonioid flipper evolved in a stepwise-fashion, with innovations clustered into pulses at the origin of total-group chelonioids, and subsequently among dermochelyids, crown-cheloniids, and gigantic protostegids from the Late Cretaceous.

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A Devonian predatory fish provides insights into the early evolution of modern sarcopterygians

Science Advances ◽

10.1126/sciadv.1600154 ◽

2016 ◽

Vol 2 (6) ◽

pp. e1600154 ◽

Cited By ~ 18

Author(s):

Jing Lu ◽

Min Zhu ◽

Per Erik Ahlberg ◽

Tuo Qiao ◽

You’an Zhu ◽

...

Keyword(s):

Computed Tomography ◽

Phylogenetic Analysis ◽

Early Evolution ◽

Predatory Fish ◽

Crown Group ◽

High Resolution Computed Tomography ◽

Data Set ◽

Internal Structures ◽

Fish Group ◽

Anatomical Information

Crown or modern sarcopterygians (coelacanths, lungfishes, and tetrapods) differ substantially from stem sarcopterygians, such as Guiyu and Psarolepis, and a lack of transitional fossil taxa limits our understanding of the origin of the crown group. The Onychodontiformes, an enigmatic Devonian predatory fish group, seems to have characteristics of both stem and crown sarcopterygians but is difficult to place because of insufficient anatomical information. We describe the new skull material of Qingmenodus, a Pragian (~409-million-year-old) onychodont from China, using high-resolution computed tomography to image internal structures of the braincase. In addition to its remarkable similarities with stem sarcopterygians in the ethmosphenoid portion, Qingmenodus exhibits coelacanth-like neurocranial features in the otic region. A phylogenetic analysis based on a revised data set unambiguously assigns onychodonts to crown sarcopterygians as stem coelacanths. Qingmenodus thus bridges the morphological gap between stem sarcopterygians and coelacanths and helps to illuminate the early evolution and diversification of crown sarcopterygians.

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An Early Cambrian stem polychaete with pygidial cirri

Biology Letters ◽

10.1098/rsbl.2011.0592 ◽

2011 ◽

Vol 7 (6) ◽

pp. 929-932 ◽

Cited By ~ 39

Author(s):

Jakob Vinther ◽

Danny Eibye-Jacobsen ◽

David A. T. Harper

Keyword(s):

The Body ◽

Early Cambrian ◽

Crown Group ◽

Total Group ◽

Stem Group ◽

First Time

The oldest annelid fossils are polychaetes from the Cambrian Period. They are representatives of the annelid stem group and thus vital in any discussion of how we polarize the evolution of the crown group. Here, we describe a fossil polychaete from the Early Cambrian Sirius Passet fauna, Pygocirrus butyricampum gen. et sp. nov., with structures identified as pygidial cirri, which are recorded for the first time from Cambrian annelids. The body is slender and has biramous parapodia with chaetae organized in laterally oriented bundles. The presence of pygidial cirri is one of the characters that hitherto has defined the annelid crown group, which diversified during the Cambrian–Ordovician transition. The newly described fossil shows that this character had already developed within the total group by the Early Cambrian.

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Enzymes, Reacting with Organophosphorus Compounds as Detoxifiers: Diversity and Functions

International Journal of Molecular Sciences ◽

10.3390/ijms22041761 ◽

2021 ◽

Vol 22 (4) ◽

pp. 1761

Author(s):

Ilya Lyagin ◽

Elena Efremenko

Keyword(s):

Phylogenetic Analysis ◽

Future Development ◽

Organophosphorus Compounds ◽

The Body ◽

Chemical Transformations ◽

Negative Consequences ◽

Biological Targets ◽

Oxidation Reduction ◽

Structural Differences ◽

Living Organisms

Organophosphorus compounds (OPCs) are able to interact with various biological targets in living organisms, including enzymes. The binding of OPCs to enzymes does not always lead to negative consequences for the body itself, since there are a lot of natural biocatalysts that can catalyze the chemical transformations of the OPCs via hydrolysis or oxidation/reduction and thereby provide their detoxification. Some of these enzymes, their structural differences and identity, mechanisms, and specificity of catalytic action are discussed in this work, including results of computational modeling. Phylogenetic analysis of these diverse enzymes was specially realized for this review to emphasize a great area for future development(s) and applications.

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Black spicules from a new interstitial opheliid polychaete Thoracophelia minuta sp. nov. (Annelida: Opheliidae)

Scientific Reports ◽

10.1038/s41598-020-80702-6 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Naoto Jimi ◽

Shinta Fujimoto ◽

Mami Takehara ◽

Satoshi Imura

Keyword(s):

Developmental Biology ◽

Phylogenetic Analysis ◽

New Species ◽

Morphological Diversity ◽

The Body ◽

Evolutionary Significance ◽

Research Subject ◽

Ecological Diversity ◽

Coelomic Cavity ◽

Molecular Phylogenetic

AbstractThe phylum Annelida exhibits high morphological diversity coupled with its extensive ecological diversity, and the process of its evolution has been an attractive research subject for many researchers. Its representatives are also extensively studied in fields of ecology and developmental biology and important in many other biology related disciplines. The study of biomineralisation is one of them. Some annelid groups are well known to form calcified tubes but other forms of biomineralisation are also known. Herein, we report a new interstitial annelid species with black spicules, Thoracophelia minuta sp. nov., from Yoichi, Hokkaido, Japan. Spicules are minute calcium carbonate inclusions found across the body and in this new species, numerous black rod-like inclusions of calcium-rich composition are distributed in the coelomic cavity. The new species can be distinguished from other known species of the genus by these conspicuous spicules, shape of branchiae and body formula. Further, the new species’ body size is apparently smaller than its congeners. Based on our molecular phylogenetic analysis using 18S and 28S sequences, we discuss the evolutionary significance of the new species’ spicules and also the species' progenetic origin.

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Entomophilic nematodes, Diploscapter coronatus and Oscheius tipulae from Afghanistan

Zootaxa ◽

10.11646/zootaxa.4926.3.5 ◽

2021 ◽

Vol 4926 (3) ◽

pp. 401-416

Author(s):

MOHAMMAD HUSSAIN FALAHZADAH ◽

EBRAHIM SHOKOOHI ◽

GHOLAM HOSSEIN MORAVEJ ◽

PHATU WILLIAM MASHELA ◽

ABDUL KHALID MADADI ◽

...

Keyword(s):

Phylogenetic Analysis ◽

Genetic Distance ◽

Galleria Mellonella ◽

Morphological Characters ◽

Molecular Data ◽

Soil Samples ◽

The Body ◽

Morphometric Data ◽

Molecular Approaches ◽

The Relationship

Several soil samples from different habitats in Badakhshan province of Afghanistan were collected to isolate and characterize bacteria feeding nematodes. The Galleria mellonella-baiting method was used for the isolation of the Afghan insect-associated nematodes. The nematodes were studied using morphological and morphometric data. The Oscheius specimen was characterized by a longer body (630–820 µm) and shorter pharynx (125–145 µm), whereas other morphological characters were not unusual. The Diploscapter specimen had an annulated cuticle, with lip region width 1.5 times shorter than the stoma, and had separated pharyngeal corpus from the isthmus and vulva located in the middle of the body. The molecular data were derived using three loci; 18S, 28S (D2/D3 segment), and ITS rRNA region, which were utilized to measure the genetic distance. The phylogenetic analysis was conducted to reconstruct the relationship tree. Both morphological and molecular approaches confirmed the identity of nematode isolates as Oscheius tipulae and Diploscapter coronatus. This is the first report of insect-associated nematodes from the soil of Afghanistan. Both species were capable of infecting and killing G. mellonella larvae in less than 96 h.

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