Your search keyword '"Gogo Formation"' showing total 3 results

1. Endoskeletal structure in<scp>C</scp>heirolepis(<scp>O</scp>steichthyes,<scp>A</scp>ctinopterygii), An early ray‐finned fish

Author

Zerina Johanson, Sam Giles, Martin D. Brazeau, Matt Friedman, Robert Atwood, Michael I. Coates, Russell J. Garwood, and Commission of the European Communities

Subjects

Sarcopterygii, Zoology, Devonian, Biology, Endoskeleton, Paleontology, 0603 Evolutionary Biology, Cheirolepis, Gogo Formation, neurocranium, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, INTERRELATIONSHIPS, Science & Technology, 0602 Ecology, palaeontology, Parasphenoid, SARCOPTERYGII, Actinopterygii, computed tomography, DEVONIAN GOGO FORMATION, WESTERN-AUSTRALIA, biology.organism_classification, EVOLUTION, ANATOMY, EAST GREENLAND, 0403 Geology, BRAINCASE, Hyomandibula, Mimipiscis, BONY FISHES, Life Sciences & Biomedicine, COMMON ANCESTOR

Abstract

As the sister lineage of all other actinopterygians, the Middle to Late Devonian (Eifelian-Frasnian) Cheirolepis occupies a pivotal position in vertebrate phylogeny. Although the dermal skeleton of this taxon has been exhaustively described, very little of its endoskeleton is known, leaving questions of neurocranial and fin evolution in early ray-finned fishes unresolved. The model for early actinopterygian anatomy has instead been based largely on the Late Devonian (Frasnian) Mimipiscis, preserved in stunning detail from the Gogo Formation of Australia. Here, we present re-examinations of existing museum specimens through the use of high-resolution laboratory- and synchrotron-based computed tomography scanning, revealing new details of the neuro-cranium, hyomandibula and pectoral fin endoskeleton for the Eifelian Cheirolepis trailli. These new data highlight traits considered uncharacteristic of early actinopterygians, including an uninvested dorsal aorta and imperforate propterygium, and corroborate the early divergence of Cheirolepis within actinopterygian phylogeny. These traits represent conspicuous differences between the endoskeletal structure of Cheirolepis and Mimipiscis. Additionally, we describe new aspects of the parasphenoid, vomer and scales, most notably that the scales display peg-and-socket articulation and a distinct neck. Collectively, these new data help clarify primitive conditions within ray-finned fishes, which in turn have important implications for understanding features likely present in the last common ancestor of living osteichthyans.

Published

2015

2. A new species of long-snouted lungfish from the Late Devonian of Australia, and its functional and biogeographical implications

Author

Alice M. Clement

Subjects

Lungfish, biology, Skull roof, Parasphenoid, Paleontology, Postcrania, Zoology, biology.organism_classification, Devonian, medicine.anatomical_structure, Neurocranium, medicine, Gogo Formation, Late Devonian extinction, Ecology, Evolution, Behavior and Systematics

Abstract

A new species of the Late Devonian lungfish Rhinodipterus is described from the Frasnian Gogo Formation, northern Western Australia. The description is based on a single specimen preserved in a small concretion, represented by elements of the skull roof, lower jaw, palate, neurocranium, hyoid arch, pectoral girdle and other parts of the postcranial skeleton. Rhinodipterus kimberleyensis sp. nov. differs from other species in the shape of its parasphenoid, number of tooth rows, nature of the tooth plates and characteristics of the skull roof. Functional morphology suggests Rhinodipterus kimberleyensis sp. nov. had a weak bite and may have fed off the reef substrate. Rhinodipterus kimberleyensis sp. nov. possessed a suite of skeletal characters that suggest it may have breathed air. Morphological comparison and a cladistic analysis place Rhinodipterus crown-ward of all other Gogo lungfishes and closely related to Oervigia, Andreyevichthys and Orlovichthys. Faunal comparisons between Australia and Laurussia indicate palaeobiogeographical links existed between these landmasses during the Middle to Late Devonian.

Published

2012

3. A New Eurypterid (Chelicerata: Eurypterida) from the Upper Devonian Gogo Formation of Western Australia, With A Review of the Rhenopteridae

Author

Derek E. G. Briggs, Simon J. Braddy, Piers D. Butler, and O. Erik Tetlie

Subjects

biology, Paleontology, biology.organism_classification, Nautiloid, Devonian, Orthocone, Rhenopterus, Rhenopteridae, Gogo Formation, Chelicerata, Eurypterid, Ecology, Evolution, Behavior and Systematics, Geology

Abstract

A new eurypterid, Rhenopterus waterstoni sp. nov., is described from the Gogo Formation (Frasnian, Upper Devonian) of Western Australia. This species is distinguished from related forms by the tuberculation of the anteriormost tergite and crenulated posterior margins of the carapace and opisthosomal segments. It is the only eurypterid specimen known from the Gogo Formation, the most complete eurypterid from Australia, and also the youngest representative of Rhenopterus in the fossil record. Structures retrieved from between the prosomal-opisthosomal juncture comprise polygonal tubes 30–40 μm in diameter, which are interpreted as sarcomeral sheaths of muscular tissue. Rhenopterus is reviewed: R. latus Stormer, 1936 is synonymized with R. diensti Stormer, 1936 as it is here recognized as a female sexual dimorph; R. maccarthyi (Kjellesvig-Waering, 1934) is an orthocone nautiloid.

Published

2004