Temperature regulates sex determination and growth in the paralichthid flatfish California halibut

Ruairi MacNamara, Jamie L. Mankiewicz, Scott A. Salger, Kevin Stuart, Russell J. Borski, John Godwin, Mark Drawbridge
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Abstract

California halibut (Paralichthys californicus) is a candidate species for aquaculture and stock enhancement. These applications rely on sex control, either to maximize the production of faster growing females or to match sex ratios in the wild. Other paralichthids exhibit temperature-dependent sex determination (TSD), but the presence and pattern of TSD is not well defined in California halibut. Juvenile California halibut were cultured at three distinct temperatures (15°C, 19°C, and 23°C) through the developmental period presumed to be thermosensitive based on findings from congeners. Sex ratios were quantified in each treatment using phenotypic sex identification techniques applied early (molecular biomarkers; 51–100 mm total length [TL]) and late (visual examination of the gonads; ≥100 mm TL) in the juvenile phase. Both techniques indicated similar sex determination trends at each temperature, with overall sex ratios assessed as 49.9% male at 15°C, 74.5% male at 19°C, and 98.2% male at 23°C. Growth rates were highest at 23°C and lowest at 15°C, with intrinsically fast- and slow-growing individuals at all temperatures. At 15°C and 19°C, females comprised a higher proportion among the fast growers than they did among the slow growers. These data show that California halibut exhibit TSD, with temperatures of 19°C and 23°C masculinizing fish while 15°C appears to produce a 1:1 sex ratio. This study will help optimize sex ratios and growth in hatcheries through thermal manipulation. Furthermore, the developed biomolecular tools and identified temperature thresholds will be important in future work to understand the influence of global warming on wild population demographics.

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温度调节副鳞比目鱼加州大比目鱼的性别决定和生长
加州大比目鱼(Paralichthys californicus)是水产养殖和种群增殖的候选鱼种。这些应用都依赖于性别控制,以最大限度地提高生长较快的雌鱼的产量,或与野生鱼类的性别比例相匹配。其它副鳞鱼类表现出温度依赖性性别决定(TSD),但加州大比目鱼的 TSD 存在和模式还不十分明确。在三个不同的温度(15°C、19°C和23°C)下培养幼年加州大比目鱼,根据同类的研究结果,推测其发育期对温度敏感。在幼鱼阶段的早期(分子生物标记;51-100 mm总长[TL])和晚期(目测性腺;≥100 mm总长),使用表型性别鉴定技术对每种处理中的性别比例进行量化。两种技术都表明,在每个温度下的性别鉴定趋势相似,总体性别比例评估结果为:15°C时雄性占49.9%,19°C时雄性占74.5%,23°C时雄性占98.2%。生长速度在 23 摄氏度时最高,在 15 摄氏度时最低,所有温度下都有生长快和生长慢的个体。在 15 摄氏度和 19 摄氏度条件下,生长快的个体中雌性个体所占比例高于生长慢的个体。这些数据表明,加州大比目鱼表现出TSD,19°C和23°C的温度会使鱼类男性化,而15°C似乎会产生1:1的性别比例。这项研究将有助于通过温度控制优化孵化场的性别比例和生长。此外,开发的生物分子工具和确定的温度阈值对于今后了解全球变暖对野生种群人口统计学的影响也很重要。
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来源期刊
Journal of experimental zoology. Part A, Ecological and integrative physiology
Journal of experimental zoology. Part A, Ecological and integrative physiology Biochemistry, Genetics and Molecular Biology-Molecular Biology
CiteScore
4.90
自引率
3.60%
发文量
0
期刊介绍: The Journal of Experimental Zoology – A publishes articles at the interface between Development, Physiology, Ecology and Evolution. Contributions that help to reveal how molecular, functional and ecological variation relate to one another are particularly welcome. The Journal publishes original research in the form of rapid communications or regular research articles, as well as perspectives and reviews on topics pertaining to the scope of the Journal. Acceptable articles are limited to studies on animals.
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