Hermaphroditism and reproductive function of hatchery-produced sharpsnout seabream (Diplodus puntazzo) under attenuated annual thermal cycles

Acquiring more knowledge on the reproductive biology of the sharpsnout seabream (Diplodus puntazzo) can improve our ability to control its reproduction and enable hatcheries to reconsider this fish as a potential species for the Mediterranean aquaculture production. We investigated hermaphroditism a...

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Bibliographic Details
Published in:Aquaculture 2018-01, Vol.482, p.231-240
Main Authors: Papadaki, Maria, Mazzella, Davide, Santinelli, Veronica, Fakriadis, Ioannis, Sigelaki, Irini, Mylonas, Constantinos C.
Format: Article
Language:English
Subjects:
Broodstock management
Diplodus
Hermaphroditism
Seabream
Sex differentiation
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Summary:Acquiring more knowledge on the reproductive biology of the sharpsnout seabream (Diplodus puntazzo) can improve our ability to control its reproduction and enable hatcheries to reconsider this fish as a potential species for the Mediterranean aquaculture production. We investigated hermaphroditism and reproductive function in a hatchery-produced broodstock over a long period of 6years, which includes sex differentiation, puberty and four consecutive annual reproductive seasons, at relatively constant water temperatures of 18–20°C, which are typical of borehole seawater supplies used frequently in marine hatcheries for biosecurity reasons. At the end of the first year of life, the gonads were bisexual and were classified into three different categories: mainly testicular tissue with rudimentary ovarian tissue (Mf), substantial amounts of both tissues (MF) and mainly ovarian tissue with rudimentary testicular tissue (mF). Fully female (F) gonads appeared already in 1+ years old fish, whereas fully male (M) gonads appeared for the first time in 2+ years old fish. The sex ratio (F:M) of the studied populations during the first 6years of life in all age classes was not different from 1:1. Therefore, no annual restructuring of the broodstock is necessary in order to avoid the development of skewed sex ratios, since once functional sex is established it does not seem to change in the following years. Furthermore, the use of attenuated annual thermal cycling regimes did not seem to affect the annual gametogenic cycle and full maturation of this species, though spontaneous spawning was still missing and the fish exhibited the typical problems reported for this species in captivity. •The reproductive function of hatchery-produced sharpsnout seabream was examined over a period of years.•Sharpsnout seabream were confirmed to be rudimentary hermaphroditic with a male:female sex ratio of always 1:1.•No annual restructuring of the broodstock is necessary in order to avoid skewed sex ratios.•Attenuated annual thermal cycling regimes supported full gametogenesis.•Spontaneous spawning was still a significant problem for this species in captivity.
ISSN:0044-8486
1873-5622
DOI:10.1016/j.aquaculture.2017.09.028