A single chromosome region explains divergence in spawning time and
variation in otolith shape in an exploited marine fish
Abstract
Allochrony is a form of reproductive isolation characterized by
differences in the timing of breeding and may play a crucial role in the
genetic and phenotypic divergence within species. This study explores
the genetic and phenotypic divergence in Atlantic lumpfish (Cyclopterus
lumpus), focusing on spring and autumn spawners along the Norwegian
coast. Through genomic analysis and otolith morphology, we identified
pronounced genetic and morphologic differences between the two spawning
groups. Notably, chromosomes 13 and 14 exhibited local adaptations,
while chromosome 1 showed parallel evolution across different
localities, suggesting broader evolutionary processes influencing
reproductive isolation and adaptive divergence. analysis revealed genes
on chromosome 1 associated with responses to environmental stressors,
possibly adaptations to seasonal variations at high latitudes.
Morphological analysis of otoliths supported these findings, showing
differences that may be adaptations to seasonal light availability. The
presence of genomic islands of divergence, alongside a general lack of
differentiation across the mitochondrial genome, suggests recent and
rapid selection processes potentially moderated by ongoing gene flow.
This study underscores the importance of considering temporal genetic
structures in conservation and management strategies, particularly for
species with bimodal spawning time to prevent overexploitation and
optimize breeding programs.