Your search keyword '"Thodoris Argyriou"' showing total 8 results

1. A Permian fish reveals widespread distribution of neopterygian-like jaw suspension

Author

Thodoris, Argyriou, Sam, Giles, and Matt, Friedman

Subjects

Phenotype, Jaw, Fossils, Fishes, Animals, Biological Evolution, Phylogeny

Abstract

The actinopterygian crown group (comprising all living ray-finned fishes) originated by the end of the Carboniferous. However, most late Paleozoic taxa are stem actinopterygians, and broadly resemble stratigraphically older taxa. The early Permian †

Published

2020

2. Internal cranial anatomy of Early Triassic species of †Saurichthys (Actinopterygii: †Saurichthyiformes): implications for the phylogenetic placement of †saurichthyiforms

Author

Ilja Kogan, Sam Giles, Thodoris Argyriou, Marcelo R. Sánchez-Villagra, Carlo Romano, Matt Friedman, University of Zurich, and Argyriou, Thodoris

Subjects

0106 biological sciences, 010506 paleontology, Time Factors, Evolution, Early Triassic, Chondrostei, 10125 Paleontological Institute and Museum, 010603 evolutionary biology, 01 natural sciences, Saurichthys, Microtomography (μCT), Behavior and Systematics, Nepal, QH359-425, Animals, Tomography, †Saurichthys, Acipenser, Birgeria, Phylogeny, Ecology, Evolution, Behavior and Systematics, East Greenland, 0105 earth and related environmental sciences, Synapomorphy, Cranial fossae, Ecology, Actinopterygii, biology, Fossils, Skull, Parasphenoid, Fishes, Paleontology, biology.organism_classification, Triassic, 1105 Ecology, Evolution, Behavior and Systematics, 560 Fossils & prehistoric life, Sister group, Evolutionary biology, Endocast, Research Article

Abstract

Background †Saurichthyiformes were a successful group of latest Permian–Middle Jurassic predatory actinopterygian fishes and constituted important, widely-distributed components of Triassic marine and freshwater faunas. Their systematic affinities have long been debated, with †saurichthyiforms often being aligned with chondrosteans, a group today comprising sturgeons and paddlefishes. However, their character-rich endocranial anatomy has not been investigated in detail since the first half of the 20th century. Since then, major advances have occurred in terms of our understanding of early actinopterygian anatomy, as well as techniques for extracting morphological data from fossils. Results We used μCT to study the internal cranial anatomy of two of the stratigraphically oldest representatives of †Saurichthys, from the Early Triassic of East Greenland and Nepal. Our work revealed numerous previously unknown characters (e.g., cryptic oticooccipital fissure; intramural diverticula of braincase; nasobasal canals; lateral cranial canal; fused dermohyal), and permitted the reevalution of features relating to the structure of cranial fossae, basicranial circulation and opercular anatomy of the genus. Critically, we reinterpret the former †saurichthyiform opercle as an expanded subopercle. For comparison, we also produced the first digital models of a braincase and endocast of a sturgeon (A. brevirostrum). New information from these taxa was included in a broad phylogenetic analysis of Actinopterygii. †Saurichthyiforms are resolved as close relatives of †Birgeria, forming a clade that constitutes the immediate sister group of crown actinopterygians. However, these and other divergences near the actinopterygian crown node are weakly supported. Conclusions Our phylogeny disagrees with the historically prevalent hypothesis favoring the chondrostean affinities of †saurichthyiforms. Previously-proposed synapomorphies uniting the two clades, such as the closure of the oticooccipital fissure, the posterior extension of the parasphenoid, and the absence of an opercular process, are all widespread amongst actinopterygians. Others, like those relating to basicranial circulation, are found to be based on erroneous interpretations. Our work renders the †saurichthyiform character complex adequately understood, and permits detailed comparisons with other stem and crown actinopterygians. Our phylogenetic scheme highlights outstanding questions concerning the affinity of many early actinopterygians, such as the Paleozoic–early Mesozoic deep-bodied forms, which are largely caused by lack of endoskeletal data. Electronic supplementary material The online version of this article (10.1186/s12862-018-1264-4) contains supplementary material, which is available to authorized users.

Published

2018

3. Exceptional preservation reveals gastrointestinal anatomy and evolution in early actinopterygian fishes

Author

Erin E. Maxwell, Marcelo R. Sánchez-Villagra, Marcus Clauss, Heinz Furrer, Thodoris Argyriou, University of Zurich, and Argyriou, Thodoris

Subjects

0301 basic medicine, 010506 paleontology, 10253 Department of Small Animals, Zoology, Morphology (biology), 10125 Paleontological Institute and Museum, Body size, 01 natural sciences, Saurichthys, Article, 03 medical and health sciences, Phylogenetics, Spiral valve, biology.animal, Animals, 14. Life underwater, Phylogeny, 0105 earth and related environmental sciences, 1000 Multidisciplinary, Multidisciplinary, 630 Agriculture, biology, Fossils, Fishes, Vertebrate, biology.organism_classification, Biological Evolution, Gastrointestinal Tract, Phylogenetic diversity, 030104 developmental biology, Taxon, 570 Life sciences

Abstract

Current knowledge about the evolutionary morphology of the vertebrate gastrointestinal tract (GIT) is hindered by the low preservation potential of soft tissues in fossils. Exceptionally preserved cololites of individual †Saurichthys from the Middle Triassic of Switzerland provide unique insights into the evolutionary morphology of the GIT. The GIT of †Saurichthys differed from that of other early actinopterygians and was convergent to that of some living sharks and rays, in exhibiting up to 30 turns of the spiral valve. Dissections and literature review demonstrate the phylogenetic diversity of GIT features and signs of biological factors that influence its morphology. A phylogenetically informed analysis of a dataset containing 134 taxa suggests that body size and phylogeny are important factors affecting the spiral valve turn counts. The high number of turns in the spiral valve of †Saurichthys and some recent sharks and rays reflect both energetically demanding lifestyles and the evolutionary histories of the groups.

Published

2015

4. Pachycormid fish fed on octobrachian cephalopods: new evidence from the 'Schistes bitumineux' (early Toarcian) of southern Luxembourg.

Author

Weis, Robert, Delsate, Dominique, Klug, Christian, Argyriou, Thodoris, and Fuchs, Dirk

Subjects

FISHES, FOSSILS, FISH feeds

Abstract

A re-examination of the early Toarcian fish fossils preserved in public paleontological collections in Luxembourg revealed 70 specimens of large Toarcian pachycormid fish with an excellent three-dimensional preservation within calcareous nodules. Six of them are associated with octobrachian coleoid gladii in their oesophagus or stomach, an association not previously described from Luxembourg. The pachycormids are ascribed to Pachycormus macropterus (Blainville, 1818) and Saurostomus esocinus Agassiz, 1843 while the octobrachian gladii are ascribed to Teudopsis bollensis Voltz, 1836, Teudopsis sp. indet. and Loligosepiidae indet. The position and orientation of the gladii provide direct evidence of these fishes feeding on coleoids and thus a teuthophagous diet, rather than an accidental joint burial. Together with evidence from coeval deposits in Germany, these findings suggest that teuthophagy was a widespread feeding strategy at the base of the clade that contains the suspension-feeding pachycormid giants of the Jurassic–Cretaceous. [ABSTRACT FROM AUTHOR]

Published

2024

5. The earliest evidence of deep-sea vertebrates.

Author

Baucon, Andrea, Ferretti, Annalisa, Fioroni, Chiara, Pandolfi, Luca, Serpagli, Enrico, Piccinini, Armando, de Carvalho, Carlos Neto, Cachão, Mário, Linley, Thomas, Muñiz, Fernando, Belaústegui, Zain, Jamieson, Alan, Lo Russo, Girolamo, Guerrini, Filippo, Ferrando, Sara, and Priede, Imants

Subjects

TRACE fossils, FOSSIL fishes, FOSSILS, OCEAN bottom, VERTEBRATES

Abstract

Vertebrate macroevolution has been punctuated by fundamental habitat transitions from shallow marine origins to terrestrial, freshwater, and aerial environments. Invasion of the deep sea is a less well-known ecological shift because of low fossilization potential and continual loss of abyssal fossil record by ocean floor subduction. Therefore, there has been a lack of convincing evidence of bottom-living vertebrates from pre-Paleogene deep seas. Here, we describe trace fossils from abyssal plain turbidites of the Tethys Ocean, which, combined with nannofossil dating, indicate that fishes have occupied the deep seafloor since at least the Early Cretaceous (Hauterivian-Barremian). These structures are identical to those produced by modern demersal fishes that feed by either scratching the substrate or expose their prey by water flow generated by suction or jetting. The trace fossils suggest activity of at least three fish species exploiting a productive abyssal invertebrate sediment fauna. These observations are consistent with Early Cretaceous vertebrate transition to the deep sea triggered by the availability of new food sources. Our results anticipate the appearance of deep-seafloor fishes in the fossil record by over 80 My while reassessing the mode of vertebrate colonization of the deep sea. [ABSTRACT FROM AUTHOR]

Published

2023

6. A fossil assemblage from the mid–late Maastrichtian of Gavdos Island, Greece, provides insights into the pre-extinction pelagic ichthyofaunas of the Tethys.

Author

Argyriou, Thodoris, Alexopoulos, Apostolos, Carrillo-Briceño, Jorge D., and Cavin, Lionel

Subjects

CRETACEOUS-Paleogene boundary, FOSSILS, MASS extinctions, ISLANDS

Abstract

The global body-fossil record of marine 'fishes' from the time interval immediately preceding the Cretaceous–Paleogene Extinction is markedly poor. This deficiency appears to be further exacerbated with regards to offshore and deep-water taxa, obscuring our understanding of the state and composition of corresponding vertebrate faunas at the onset of this major extinction event. Recent fieldwork in the mid–late Maastrichtian exposures of the Pindos Unit in Gavdos Island, Greece, yielded a small but informative sample of fossil 'fishes', which inhabited the Tethys approximately three to four million years before the extinction. In this work we describe this sample, which comprises between eight and nine discrete morphotypes of various size classes, belonging to †Ichthyodectoidei, Aulopiformes (†Dercetidae, †Enchodontidae, †Ichthyotringidae), cf. †Sardinioididae, as well as the hexanchid shark †Gladioserratus sp. The new material expands the faunal list for the Maastrichtian of Gavdos Island, and the Pindos Unit as a whole, and further allows for the description of a new genus and species of †Enchodontidae and a new species of †Ichthyotringidae. The two new taxa are found to be widespread in the Maastrichtian of the Pindos Unit. The overall character of the assemblage agrees with previous interpretations of an offshore and rather deep depositional environment for the fossiliferous horizons. Furthermore, it exhibits a higher diversity than, and little taxonomic overlap with penecontemporaneous teleost assemblages from the Tethys, and informs on the otherwise poorly known Maastrichtian offshore and deep-water marine ichthyofaunas of the region. [ABSTRACT FROM AUTHOR]

Published

2022

7. New histological information on Holoptychius Agassiz, 1839 (Sarcopterygii, Porolepiformes) provides insights into the palaeoecological implications and evolution of the basal plate of the scales of osteichthyans.

Author

Mondéjar Fernández, Jorge and Meunier, François J.

Subjects

PALEOECOLOGY, FOSSIL vertebrates, FOSSILS, DEVONIAN Period

Abstract

The porolepiform Holoptychius Agassiz, 1839 from the Upper Devonian is one of the most widely found vertebrates in the Palaeozoic fossil record. Holoptychius is considered to display a more ubiquitous mode of life and a greater potential of dispersion than any other sarcopterygian taxon, consistent with its cosmopolitan distribution and profuse fossil record, mainly represented by scales. Previous studies on the squamation of Holoptychius have discussed the variable ornamentation of the superficial layer; however, the basal plate has been less explored. Here we furnish new histological data on the scales of Holoptychius, focusing on the mineralisation rate and organisation of the lamellar bone. Ground sections show that the basal plate is made of a stacking of thick collagenous layers with a plywood-like structure. Collagenous fibres are parallel within layers, with two successive layers orthogonally arranged and with every second layer rotated by an angle of 36º. This condition, known as a double-twisted plywood-like organisation, is similar to that of other sarcopterygians like Eusthenopteron and extant coelacanths and dipnoans. The new palaeohistological data provide insights into the morphofunctional, palaeoecological and phylogenetical implications of the microstructural characteristics of the scales, adding to our knowledge of the histological diversity of osteichthyans. [ABSTRACT FROM AUTHOR]

Published

2021

8. First African thylacocephalans from the Famennian of Morocco and their role in Late Devonian food webs.

Author

Jobbins, Melina, Haug, Carolin, and Klug, Christian

Subjects

FOOD chains, ARTHROPODA, TAPHONOMY, FAMENNIAN Stage, FOSSILS

Abstract

Thylacocephalans are enigmatic arthropods with an erratic Palaeozoic and Mesozoic fossil record. In many of the few localities where they occur, they are quite abundant. This also holds true for the Famennian Thylacocephalan Layer in the Maider (eastern Anti-Atlas of Morocco), a small epicontinental basin hosting some strata with taphonomic properties of a conservation deposit yielding exceptionally preserved gnathostomes and non-vertebrates. In a thin argillaceous interval in the earliest middle Famennian, thylacocephalans occur in such great numbers that they became eponyms of this unit. Therein, we discovered a new taxon of thylacocephalans, Concavicaris submarinus sp. nov., which represent the oldest records of thylacocephalans from Africa. In the CT-imagery, the holotype of Concavicaris submarinus sp. nov. revealed anatomical details including its eyes, appendages and other soft parts. Sedimentary facies and faunal composition of the Thylacocephalan Layer suggest that these animals populated the water column above the low-oxygen sea floor. Thus, thylacocephalans likely represented an important component of the diet of chondrichthyans and placoderms, which are quite common as well. The abundance of thylacocephalans in other conservation deposits like the Cleveland Shale (USA) and the Gogo Formation (Australia) underline their pivotal role in Late Devonian pelagic food webs. [ABSTRACT FROM AUTHOR]

Published

2020