商业孵化场中巨型石斑鱼(Epinephelus lanceolatus)幼体的早期生命微生物组受饲料中微生物的影响。

IF 4.9 Q1 MICROBIOLOGY
Jin Yan Lim, Yun Kit Yeoh, Maximiliano Canepa, Richard Knuckey, Dean R Jerry, David G Bourne
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引用次数: 0

摘要

鱼类的健康、生长和疾病与其相关的微生物群密切相关。了解微生物组的影响、来源并最终对其进行管理,尤其是对生命早期脆弱阶段的微生物组进行管理,已被确定为提高养殖鱼类产量的关键要求之一。大石斑鱼(Epinephelus lanceolatus)是亚太地区重要的水产养殖热带鱼品种。石斑鱼幼体健康和存活率的变化部分取决于其早期微生物组的接触和发育。在此,我们研究了商业饲养的巨石斑鱼幼体、其周围环境以及活食物来源的微生物组的发展情况,以了解幼体所接触的细菌种类,以及一些细菌来源的情况。我们的研究表明,幼体微生物组的物种丰富度和微生物多样性在孵化后的头 4 天显著增加,在孵化设施中的最初 10 天内,群落组成继续发生变化。主要的幼虫细菌类群似乎主要来自活体培养的微藻类和轮虫饲料,包括马氏单胞菌(Marixanthomonas)、肝曲霉菌(Candidatus Hepatincola)、子囊菌(Meridianimaribacter)和弧菌(Vibrio)。相比之下,作为孵化场操作程序的一部分而添加的商业益生菌未能在幼体微生物组中建立。微生物来源追踪表明,饲料对巨石斑鱼幼体微生物组的组成影响最大(高达 55.9%),这支持了商业孵化场通过改善饮食来调节鱼类微生物组的尝试。弧菌的显著丰度(在幼鱼的 16S rRNA 基因拷贝中高达 21.7%)凸显了对饲料原料进行严格质量控制的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The early life microbiome of giant grouper (Epinephelus lanceolatus) larvae in a commercial hatchery is influenced by microorganisms in feed.

Fish health, growth and disease is intricately linked to its associated microbiome. Understanding the influence, source and ultimately managing the microbiome, particularly for vulnerable early life-stages, has been identified as one of the key requirements to improving farmed fish production. One tropical fish species of aquaculture importance farmed throughout the Asia-Pacific region is the giant grouper (Epinephelus lanceolatus). Variability in the health and survival of E. lanceolatus larvae is partially dependent on exposure to and development of its early microbiome. Here, we examined the development in the microbiome of commercially reared giant grouper larvae, its surrounding environment, and that from live food sources to understand the type of bacterial species larvae are exposed to, and where some of the sources of bacteria may originate. We show that species richness and microbial diversity of the larval microbiome significantly increased in the first 4 days after hatching, with the community composition continuing to shift over the initial 10 days in the hatchery facility. The dominant larval bacterial taxa appeared to be predominantly derived from live cultured microalgae and rotifer feeds and included Marixanthomonas, Candidatus Hepatincola, Meridianimaribacter and Vibrio. In contrast, a commercial probiotic added as part of the hatchery's operating procedure failed to establish in the larvae microbiome. Microbial source tracking indicated that feed was the largest influence on the composition of the giant grouper larvae microbiome (up to 55.9%), supporting attempts to modulate fish microbiomes in commercial hatcheries through improved diets. The marked abundances of Vibrio (up to 21.7% of 16S rRNA gene copies in larvae) highlights a need for rigorous quality control of feed material.

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CiteScore
7.20
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