KAUST DepartmentRed Sea Research Center (RSRC)
Permanent link to this recordhttp://hdl.handle.net/10754/577048
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AbstractThe sexual ontogeny of butterfish Odax pullus was examined in the Hauraki Gulf of New Zealand through histological analysis of gonad material, size and age information and seasonal patterns of sexual maturation. The patterns of gonad development and schedules of male recruitment were established and sexual ontogeny of O. pullus was diagnosed as monandric protogyny, with all males developing from mature females after female-to-male sex reversal. All individuals underwent an immature female phase before maturing as functional females at 228·7-264·8 mm fork length (LF) and at 1·1-1·5 years of age, and there was no evidence of a juvenile bisexual phase. Degenerating mature oogenic elements were found in the gonad lumen of individuals with developing spermatogenic tissue, providing histological evidence for functional protogyny. Sex change was estimated to occur at 359-379 mm LF and 2-3 years of age. The diagnosis of monandric protogyny for O. pullus coincided with the pattern of sexual ontogeny seen in the majority of labrids, particularly those of the same clade (tribe Hypsigenyini) and contrasted with that seen in a number of other temperate labrids. This study suggests that the protogynous mode of sexual development in O. pullus is likely to be lineage-specific, i.e. associated with the phylogeny of labrid sexual development, and is not constrained by environmental effects on the evolution of sex change in temperate regions. © 2011 The Authors. Journal of Fish Biology © 2011 The Fisheries Society of the British Isles.
SponsorsAuthors thank J. Johnson, B. Doak and M. Birch for help with collection of samples; S. Reilly and J. Chen for help with histology; M. Liu for help with interpretation. This study and E. L. T. were supported by a Royal Society of New Zealand Marsden grant to D. R., K. D. C. and J. H. C. E. D. L. T. was also supported by a University of Auckland International Fees Bursary, the University of Auckland's School of Biological Sciences, and the University of Auckland Performance Based Research Fund. We also thank two anonymous reviewers whose comments improved an earlier draft of this manuscript.
JournalJournal of Fish Biology