Impact of freshwater rearing on saltwater performance: A genotype-environment interaction study in Atlantic Salmon (Salmo salar)

IF 3.9 1区农林科学 Q1 FISHERIES

Aquaculture Pub Date : 2025-06-25 DOI:10.1016/j.aquaculture.2025.742892

Mette J. Tollervey , Saif Agha , Michaël Bekaert , Almas A. Gheyas , Ross D. Houston , Andrea Doeschl-Wilson , Ashie Norris , Herve Migaud , Alejandro P. Gutierrez , Monica B. Betancor

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Abstract

Atlantic salmon, Salmo salar, have traditionally been reared in net-pens in freshwater (FW) lochs up to smoltification, with subsequent transfer to saltwater (SW) cages for grow-out. Recently, interest in recirculating aquaculture systems (RAS) has grown due to environmental and husbandry benefits. To investigate the impact of RAS on their production cycle, we conducted an experiment under commercial conditions, raising a group of salmon in either a FW-RAS or -loch system. The study evaluated the effects of FW-rearing on SW performance by investigating phenotypic performance, genetic architecture, and genotype-environment interactions (GxE), which describe how the effects of different genotypes on traits change with environmental variation, potentially impacting performance across systems. We co-reared salmon for approximately nine-months before splitting them: half remained in FW-RAS and half transferred to FW-loch, where they were separated for about eight weeks. Both groups were then transferred to a SW cage-site. We sampled fish at the end of FW-rearing as smolts and three-months post-SW transfer as post-smolts, taking fin clips for genotyping. Results indicate that RAS-reared smolts were smaller in FW but demonstrated enhanced growth and lower trait variance post-transfer. Sexually dimorphic growth was observed in the loch population. Heritability of morphological traits increased post-SW transfer in the loch population but decreased in RAS. GxE for SW morphological traits were minimal, though significant genotype re-ranking was observed for SW growth. Genetic correlations between FW and SW morphological traits were high, except for whole-body weight in the loch population. These findings indicate that RAS-origin post-smolts, despite smaller FW size, showed faster growth and reduced phenotypic variance in SW compared to loch-origin fish. Differences in heritability estimates and genotype re-ranking for SW growth suggest that breeding programs may need to refine selection strategies for varied rearing environments.

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淡水养殖对咸水生产性能的影响：大西洋鲑鱼基因型-环境互作研究

传统上，大西洋鲑鱼（Salmo salar）是在淡水（FW）湖的网笼中饲养的，直到闷死，然后转移到盐水（SW）笼中生长。最近，由于环境和畜牧业效益，对循环水养殖系统（RAS）的兴趣日益增长。为了研究RAS对其生产周期的影响，我们在商业条件下进行了一项实验，在FW-RAS或-loch系统中饲养一组鲑鱼。该研究通过研究表型性能、遗传结构和基因型-环境相互作用（GxE）来评估fw饲养对SW性能的影响，GxE描述了不同基因型对性状的影响如何随环境变化而变化，从而可能影响整个系统的性能。我们共同饲养了大约9个月的鲑鱼，然后将它们分开：一半留在FW-RAS，一半转移到FW-loch，在那里它们被分开大约8周。然后两组都被转移到一个SW笼子里。我们在幼鱼饲养结束时作为幼鱼，在sw转移后3个月作为幼鱼取样，取鳍夹进行基因分型。结果表明，ras饲养的幼崽在FW上较小，但在转移后表现出生长增强和性状方差降低。在湖泊种群中观察到两性二态生长。sw转移后，形态性状的遗传力在湖泊种群中增加，而在RAS种群中降低。SW形态性状的GxE最小，但在SW生长中观察到显著的基因型重排序。除整体体重外，FW与SW形态性状的遗传相关性较高。这些结果表明，与湖源鱼相比，ras来源的幼鱼尽管FW尺寸较小，但在SW中表现出更快的生长和更小的表型变异。SW生长的遗传力估计和基因型重新排序的差异表明，育种计划可能需要改进不同饲养环境的选择策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Aquaculture 农林科学-海洋与淡水生物学

CiteScore

8.60

自引率

17.80%

发文量

1246

审稿时长

56 days

期刊介绍： Aquaculture is an international journal for the exploration, improvement and management of all freshwater and marine food resources. It publishes novel and innovative research of world-wide interest on farming of aquatic organisms, which includes finfish, mollusks, crustaceans and aquatic plants for human consumption. Research on ornamentals is not a focus of the Journal. Aquaculture only publishes papers with a clear relevance to improving aquaculture practices or a potential application.