The first virtual cranial endocast of a lungfish (sarcopterygii: dipnoi)

Lungfish, or dipnoans, have a history spanning over 400 million years and are the closest living sister taxon to the tetrapods. Most Devonian lungfish had heavily ossified endoskeletons, whereas most Mesozoic and Cenozoic lungfish had largely cartilaginous endoskeletons and are usually known only fr...

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Bibliographic Details
Published in:PloS one 2014-11, Vol.9 (11), p.e113898-e113898
Main Authors: Clement, Alice M, Ahlberg, Per E
Format: Article
Language:English
Subjects:
Animals
Australia
Biologi med inriktning mot evolutionär organismbiologi
Biological Evolution
Biology and Life Sciences
Biology with specialization in Evolutionary Organismal Biology
Brain - anatomy & histology
Brain research
braincase
Canals
Canals (anatomy)
Cenozoic
Dental caries
Devonian
Dipnoi
Earth Sciences
endocast
Evolution
Evolutionary biology
Fishes - anatomy & histology
Fishing
Fossils
Fossils - anatomy & histology
Genera
Labyrinth
Latimeria
Lepidosiren
lungfish
Medicine and Health Sciences
Mesozoic
Microtomography
Morphology
Neoceratodus
Organismal biology
Paleontology
Phylogenetics
Protopterus
Recesses
Research and Analysis Methods
Sarcopterygii
Skull
Skull - anatomy & histology
Teeth
Telencephalon
Tomography
Vertebrates
X rays
Zoology
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Summary:Lungfish, or dipnoans, have a history spanning over 400 million years and are the closest living sister taxon to the tetrapods. Most Devonian lungfish had heavily ossified endoskeletons, whereas most Mesozoic and Cenozoic lungfish had largely cartilaginous endoskeletons and are usually known only from isolated tooth plates or disarticulated bone fragments. There is thus a substantial temporal and evolutionary gap in our understanding of lungfish endoskeletal morphology, between the diverse and highly variable Devonian forms on the one hand and the three extant genera on the other. Here we present a virtual cranial endocast of Rhinodipterus kimberleyensis, from the Late Devonian Gogo Formation of Australia, one of the most derived fossil dipnoans with a well-ossified braincase. This endocast, generated from a Computed Microtomography (µCT) scan of the skull, is the first virtual endocast of any lungfish published, and only the third fossil dipnoan endocast to be illustrated in its entirety. Key features include long olfactory canals, a telencephalic cavity with a moderate degree of ventral expansion, large suparaotic cavities, and moderately enlarged utricular recesses. It has numerous similarities to the endocasts of Chirodipterus wildungensis and Griphognathus whitei, and to a lesser degree to 'Chirodipterus' australis and Dipnorhynchus sussmilchi. Among extant lungfish, it consistently resembles Neoceratodus more closely than Lepidosiren and Protopterus. Several trends in the evolution of the brains and labyrinth regions in dipnoans, such as the expansions of the utricular recess and telencephalic regions over time, are identified and discussed.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0113898