Fecal microbiome analysis uncovers hidden stress effects of low stocking density on rainbow trout.

IF 4.9 Q1 MICROBIOLOGY Animal microbiome Pub Date : 2024-10-16 DOI:10.1186/s42523-024-00344-1

Guglielmo Raymo, Fabiane Januario, Ali Ali, Ridwan O Ahmed, Rafet Al-Tobasei, Mohamed Salem

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Abstract

Background: Recirculating aquaculture systems can cause chronic stress in fish when stocking density is too high. However, this study tested whether low stocking density can cause fish stress. Adult rainbow trout, with an average weight of 1.517 kg (± 0.39), were subjected to low (12 kg/m3 ± 0.94) and moderate (43 kg/m3 ± 2.03) stocking densities for 24 days in a recirculating system maintained at 15 °C. At the end of the experiment, fecal microbiome analysis was carried out using a 16S rRNA amplicon sequencing. Additionally, an untargeted plasma metabolomics analysis was conducted.

Results: The moderate stocking density group harboured greater numbers of commensals, such as C. somerae, R. lituseburensis, and L. plantarum. In contrast, detrimental species such as S. putrifacens and P. putida were abundant in the low-stocking density fish. Functional microbiome profiling revealed vitamin B12 salvage and synthesis in moderate stocking densities, which may support intestinal tight junction function. Additionally, vitamin B1 biosynthesis pathways were more abundant in the moderate stocking density group, which may function towards oxidative energy metabolism and protect against oxidative stress. A complementary plasma metabolomics study, although done at slightly different stocking densities and duration, confirmed the presence of blood metabolic stress markers. Elevated levels of L-lactic acid and L-Norvaline, L-Valine, and L-glutamine, indicate low stocking density fish were under stress. Furthermore, a P4HA2 stress gene biomarker confirmed the occurrence of stress in low-density fish. This study suggests that low stocking density can induce stress in fish. Moreover, moderate stocking density leads to a distinct and beneficial fecal microbiome profile.

Conclusion: Our study highlights the potential benefits of optimizing the stocking density of fish in recirculating aquaculture systems. This can improve fish health and welfare, promoting a more resilient fecal microbiome.

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粪便微生物组分析揭示了低放养密度对虹鳟鱼的隐性压力效应。

背景：当放养密度过高时，循环水产养殖系统会对鱼类造成慢性应激。然而，本研究测试了低放养密度是否会导致鱼类应激。将平均体重为 1.517 千克（± 0.39）的成年虹鳟鱼分别置于低密度（12 千克/立方米 ± 0.94）和中密度（43 千克/立方米 ± 2.03）的放养密度下，在 15 °C的循环系统中养殖 24 天。实验结束后，使用 16S rRNA 扩增片测序法对粪便微生物组进行了分析。此外，还进行了非靶向血浆代谢组学分析：结果：适度放养密度组中有更多的共生菌，如C. somerae、R. lituseburensis和L. plantarum。与此相反，低放养密度组鱼类中大量存在有害物种，如 S. putrifacens 和 P. putida。功能微生物组分析表明，在中等放养密度的鱼类中，维生素 B12 可被挽救和合成，这可能支持肠道紧密连接功能。此外，维生素 B1 的生物合成途径在适度放养密度组中更为丰富，这可能有助于氧化能量代谢和抵御氧化应激。尽管放养密度和放养时间略有不同，但一项补充性血浆代谢组学研究证实了血液代谢应激标记物的存在。L-乳酸、L-正缬氨酸、L-缬氨酸和 L-谷氨酰胺水平升高，表明低放养密度鱼类处于应激状态。此外，P4HA2 应激基因生物标志物也证实了低密度鱼类出现了应激反应。这项研究表明，低放养密度会诱发鱼类的应激反应。此外，适度的放养密度会产生独特而有益的粪便微生物组：我们的研究强调了优化循环水养殖系统中鱼类放养密度的潜在益处。这可以改善鱼类的健康和福利，促进更具弹性的粪便微生物组。

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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