Bacterial community structures and dynamics associated with rotated positioning syndrome in gilthead sea bream (Sparus aurata) larviculture

Naima Bel Mokhtar, Georgia Apostolopoulou, G. Koumoundouros, Kostas Tzokas, Kosmas Toskas, Evgenia Gourzioti, P. Stathopoulou, G. Tsiamis
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Abstract

The availability of high-quality gilthead seabream (Sparus aurata) larvae in larviculture represents a major bottleneck to the aquaculture. This challenge can be compounded by losses resulting from the emergence of a clinical disorder’s symptomatology. In this study, the observed syndrome included a rotated positioning of the larval sagittal plane and in most cases leading eventually to death. Herein, we examined using amplicon sequencing of the 16S rDNA the bacterial communities associated with S. aurata larvae at different conditions (including both fish with no evidence of the syndrome and fish with syndrome) during the early developmental stages along with the contribution of rearing water, organic matter and provided feed in the microbiota during an experiment of 18 days. Over the development of larvae, differences were observed in the bacterial composition between healthy and symptomatic larvae as well as between components of the system. A remarkable presence of members of the Psychrobacter genus was observed in symptomatic larvae with a significant increase at 18dph. The healthy larvae harbor different bacterial profile with a dominance of Vibrio and Bacillus genera during 3-8dph, various members of Alphaproteobacteria during 11-14dph and Marinifilum at 18dph. The rearing water showed a different bacterial profile compared to the other components, with a slight effect of healthy larvae at 3-8dph. The bacteriome of feeds provided during the rearing of larvae was found to be diverse. Chlorella was mainly dominated by members of Firmicutes, while Rotifer and Artemia were mainly dominated by members of Proteobacteria including different species of Psychrobacter. At 18dph, Artemia feed seems to affect the symptomatic larvae bacteriome, where it enhanced the presence of Psychrobacter spp.Interestingly, the comparative network analysis at 18dph indicated that the bacterial associations in symptomatic larvae were primarily driven by members of the Psychrobacter genus. While various phyla contributed to bacterial associations in healthy larvae with different frequencies including mainly members of Proteobacteria, Bacteroidota and Firmicutes phyla. Finally, the Gammaproteobacteria/Alphaproteobacteria ratio was found to be related to the health condition of larvae. This study provides valuable information which can be used as indicators for monitoring the health status of S. aurata larvae.
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金头鲷(Sparus aurata)幼鱼养殖中与旋转定位综合征相关的细菌群落结构和动力学
优质金头鲷(Sparus aurata)幼鱼的供应是水产养殖的一个主要瓶颈。临床疾病症状的出现导致的损失会加剧这一挑战。在这项研究中,观察到的综合征包括幼体矢状面旋转定位,在大多数情况下最终导致死亡。在此,我们使用 16S rDNA 扩增子测序技术,在为期 18 天的实验中,研究了在不同条件下(包括无症状的鱼和有症状的鱼),金眼鲷幼鱼早期发育阶段的细菌群落,以及饲养水、有机物和提供的饲料对微生物群落的影响。在幼鱼的发育过程中,观察到健康幼鱼和有症状幼鱼之间以及系统各组成部分之间的细菌组成存在差异。在有症状的幼虫体内观察到了明显的精神杆菌属成员,并且在 18dph 时显著增加。健康幼虫体内的细菌情况有所不同,3-8dph 期间以弧菌属和芽孢杆菌属为主,11-14dph 期间以各种变形蛋白菌属为主,18dph 期间则以马氏菌属为主。与其他成分相比,饲养水显示出不同的细菌特征,在 3-8dph 时,健康幼体略受影响。研究发现,幼虫饲养过程中提供的饲料中的细菌群多种多样。小球藻主要由固着菌属的成员组成,而轮虫和鲍鱼主要由蛋白菌属的成员组成,包括不同种类的精神杆菌。有趣的是,18dph 时的比较网络分析表明,有症状幼虫体内的细菌关联主要由精神杆菌属成员驱动。而在健康幼虫体内,不同门类以不同的频率促成了细菌关联,其中主要包括变形菌门、类杆菌门和固着菌门的成员。最后,研究还发现伽马蛋白菌/弱碱性蛋白菌的比例与幼虫的健康状况有关。这项研究提供了有价值的信息,可作为监测仓鼠幼虫健康状况的指标。
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