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The gas bladder of <scp> Pantodon buchholzi </scp> : Structure and relationships with the vertebrae

Authors :
Gioele Capillo
Marialuisa Aragona
Eugenia Rita Lauriano
Michał Kuciel
Giacomo Zaccone
Maria Cristina Guerrera
José M. Icardo
Source :
Journal of Morphology. 281:1588-1597
Publication Year :
2020
Publisher :
Wiley, 2020.

Abstract

We report here on the histological and structural characteristics of the gas bladder, the vertebral morphology, and the bladder-vertebra relationships of the butterfly fish, Pantodon buchholzi. The bladder opens at the boundary between the pharynx and the esophagus by a middle slit. A pneumatic duct is absent. The bladder shows a dorsolateral wall that adapts to the anfractuosities of the coelomic cavity and a ventral wall in contact with the abdominal organs. The vertebral bodies are formed by an hourglass shaped autocentrum, and by an arcocentrum reduced to several longitudinal ridges. The transverse processes adopt the structure of a cage whose walls are formed by bone trabeculae of variable size and distribution pattern. The dorsolateral wall of the bladder is a membrane that covers the kidney, adapts to the irregular shape of the vertebrae, and invades the transverse processes at several points before extending laterally. However, invasion of the vertebral bodies, the presence of a labyrinth, or the formation of respiratory parenchyma were not observed. The luminal surface of this wall is a thin respiratory barrier containing a single epithelial cell type. In addition, the wall contains numerous eosinophils that may be implicated in immune defense. The bladder ventral wall is a membrane rich in collagen, vessels, smooth muscle, and nerves that lacks a respiratory barrier. Its luminal surface contains ciliated and nonciliated cells. The two cell types appear implicated in surfactant production.

Details

ISSN :
10974687 and 03622525
Volume :
281
Database :
OpenAIRE
Journal :
Journal of Morphology
Accession number :
edsair.doi.dedup.....82f7f2a774ea43ce881b6ed74da974e1
Full Text :
https://doi.org/10.1002/jmor.21271