Akvaplan-niva Iceland Office, Akralind 4, 201 Kópavogur, Iceland; Department of Biological Science, University of Bergen, High Technology Centre, 5020 Bergen, Norway.
Akvaplan-niva, Framsenteret, 9296 Tromsø, Norway.
Comp Biochem Physiol A Mol Integr Physiol. 2019 Feb;228:62-70. doi: 10.1016/j.cbpa.2018.11.004. Epub 2018 Nov 12.
In order to provide year round spawning broodstock, lumpfish (initial size 746 g and 24.9 cm) were reared under four different photoperiod regimes from January 2017 to July 2018. One group was reared under simulated natural photoperiod (LDN, control group) for Tromsø (70°N). The second group was transferred to continuous light (LD240) on 30 January 2017 and reared at LD24:0 throughout the trial period. Two compressed and phase advanced photoperiods were also established. Both groups were moved from LDN to LD24:0 on 30 January 2017, and after that reared at compressed natural photoperiods where the annual photoperiod was compressed down to six months (L6) or nine months (L9) for the duration of the study. Spawning time was shifted in both compressed groups during both years of the study. Spawning activity in the second year of the study was higher and followed more closely the expected spawning period in the compressed and the LDN groups. Spawning in the LD240 group was spread out over the experimental period with no distinct peak in spawning. A seasonal and pronounced drop in condition factor was found for females in the L9, L6 and the LDN groups. This post-spawning loss in condition was closely related to the spawning activity of each group. The current findings suggest that photoperiod has a strong influence on the timing of lumpfish maturation and can be used as an efficient and inexpensive tool to secure lumpfish reproduction operations i.e. year-round supply of egg and milt and/or timing with optimal temperature regimes.
为了提供全年可繁殖的亲鱼,2017 年 1 月至 2018 年 7 月,我们采用四种不同的光周期制度来饲养鳕鱼(初始大小为 746 克和 24.9 厘米)。一组按照特罗姆瑟(70°N)的模拟自然光周期(LDN,对照组)进行饲养。第二组于 2017 年 1 月 30 日转入持续光照(LD240),并在整个试验期间保持 LD24:0 的光照。还建立了两个压缩和相位提前的光周期。两组均于 2017 年 1 月 30 日从 LDN 转为 LD24:0,此后按照压缩自然光周期进行饲养,将全年的光周期压缩至 6 个月(L6)或 9 个月(L9)。在研究期间,两组的产卵时间都发生了变化。在研究的第二年,两组的产卵活动均有所增加,并且更接近压缩组和 LDN 组的预期产卵期。LD240 组的产卵在整个实验期间分布较为分散,没有明显的产卵高峰期。在 L9、L6 和 LDN 组的雌性中,发现了季节性和明显的条件系数下降。这种产后条件的下降与各组的产卵活动密切相关。目前的研究结果表明,光周期对鳕鱼成熟时间有很强的影响,可以作为一种高效、廉价的工具来确保鳕鱼的繁殖操作,例如全年供应卵子和精液,或者与最佳温度制度相匹配。
