Hybridization between char species (Salvelinus alpinus and Salvelinus fontinalis): a fast track for novel allometric trajectories

Hybridization between closely related species can generate genetic and phenotypic variation, providing valuable biological material to assess the physiological impact of the structural or functional variability of different organs. In the present study, we examined growth rates of various organs and...

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Bibliographic Details
Published in:Biology Open
Main Authors: Bernard-Antonin Dupont Cyr, France Dufresne, Felix Christen, Véronique Desrosiers, Émilie Proulx, Nathalie R. Le François, Grant W. Vandenberg, Pierre U. Blier
Format: Article in Journal/Newspaper
Language:English
Published: The Company of Biologists 2018
Subjects:
Arctic char
Brook char
Ontogeny
Morphometry
Heterosis
Transgressive segregation
Science
Q
Biology (General)
QH301-705.5
Arctic
Salvelinus alpinus
Online Access:https://doi.org/10.1242/bio.033332
https://doaj.org/article/fee789937d454398bc7aee4ec92f040a
Description
Summary:Hybridization between closely related species can generate genetic and phenotypic variation, providing valuable biological material to assess the physiological impact of the structural or functional variability of different organs. In the present study, we examined growth rates of various organs and whole body in brook char, Arctic char and their reciprocal hybrids over a period of 281 days. Parental species achieved significantly higher body mass than their hybrids. Hybridization significantly reduced the relative size of the heart, liver and spleen. The relative size of pyloric caeca did not differ among the four groups. The observed lower growth performance of the hybrids compared to parental species strongly suggests that divergence in the relative size of digestive organs, liver and heart partly dictate growth capacity. Our results also suggest that the increased variability achieved through hybridization may prove useful in a genetic selection program.

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