A multi-tasking stomach: functional coexistence of acid-peptic digestion and defensive body inflation in three distantly related vertebrate lineages
Ferreira, P., Kwan, G.T., Haldorson, S., Rummer, J.L., Tashiro, F., Castro, L.F.C., Tresguerres, M., and Wilson, J.M. (2022) A multi-tasking stomach: functional coexistence of acid-peptic digestion and defensive body inflation in three distantly related vertebrate lineages. Biology Letters, 18 (2). 20210583.
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Abstract
Puffer and porcupine fishes (families Diodontidae and Tetraodontidae, order Tetradontiformes) are known for their extraordinary ability to triple their body size by swallowing and retaining large amounts of seawater in their accommodating stomachs. This inflation mechanism provides a defence to predation; however, it is associated with the secondary loss of the stomach's digestive function. Ingestion of alkaline seawater during inflation would make acidification inefficient (a potential driver for the loss of gastric digestion), paralleled by the loss of acid–peptic genes. We tested the hypothesis of stomach inflation as a driver for the convergent evolution of stomach loss by investigating the gastric phenotype and genotype of four distantly related stomach inflating gnathostomes: sargassum fish, swellshark, bearded goby and the pygmy leatherjacket. Strikingly, unlike in the puffer/porcupine fishes, we found no evidence for the loss of stomach function in sargassum fish, swellshark and bearded goby. Only the pygmy leatherjacket (Monochanthidae, Tetraodontiformes) lacked the gastric phenotype and genotype. In conclusion, ingestion of seawater for inflation, associated with loss of gastric acid secretion, is restricted to the Tetraodontiformes and is not a selective pressure for gastric loss in other reported gastric inflating fishes.
Item ID: | 72468 |
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Item Type: | Article (Research - C1) |
ISSN: | 1744-957X |
Keywords: | Histrio histrio, Cephaloscyllium ventriosum, Sufflogobius bibarbatus, Brachaluteres jacksonianus, proton pump, gene loss |
Copyright Information: | © 2022 The Author(s) Published by the Royal Society. All rights reserved. |
Date Deposited: | 16 Feb 2022 08:07 |
FoR Codes: | 31 BIOLOGICAL SCIENCES > 3109 Zoology > 310910 Animal physiology - systems @ 30% 31 BIOLOGICAL SCIENCES > 3104 Evolutionary biology > 310403 Biological adaptation @ 35% 31 BIOLOGICAL SCIENCES > 3104 Evolutionary biology > 310404 Evolution of developmental systems @ 35% |
SEO Codes: | 28 EXPANDING KNOWLEDGE > 2801 Expanding knowledge > 280102 Expanding knowledge in the biological sciences @ 100% |
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