野生和养殖兰州鲇肠道菌群结构的比较

COMPARATIVE STUDY ON INTESTINAL FLORA STRUCTURE OF WILD AND CULTURED SILURUS LANZHOUENSIS

  • 摘要: 研究以不同生境兰州鲇群体为研究对象, 通过细菌16S rDNA V3—V4区域高通量测序的方法, 开展不同环境下肠道菌群组成、丰富度、多样性差异和功能预测的研究。实验共分为4组, 其中养殖型为池塘组(CT)和网箱组(WX); 野生型为陶乐组(TL)和磴口组(DK)。结果显示, 兰州鲇肠道核心菌门为梭杆菌门(Fusobacteria)和变形菌门(Proteobacteria); 核心菌属为鲸杆菌属(Cetobacterium)和邻单胞菌属(Plesiomonas)。肠道菌群α和β多样性分析结果显示, 26.5℃较20℃的兰州鲇肠道菌群多样性更高; 单一种类的网箱养殖较其他养殖模式的兰州鲇肠道菌群多样性更低。进一步对兰州鲇肠道菌群组成及丰度进行组间差异性分析, 结果显示, CT组拟杆菌门(Bacteroidetes)的相对丰度与TL组有极显著差异(P≤0.01)、与WX组有显著性差异(P≤0.05); 而CT组放线菌门(Actinobacteria)的相对丰度显著高于野生型两组(P≤0.05), 甲基杆菌属(Methylobacterium)丰度显著高于WX组和TL组(P≤0.05)。进一步结合环境因子分析表明, 温度、pH和氨氮浓度可能是兰州鲇肠道菌群组成和丰度的重要影响因素。预测的肠道菌群功能表明, 不同的环境会影响兰州鲇肠道菌群的代谢能力。综上所述, 不同的生长环境对兰州鲇肠道菌群的组成、丰富度和预测的菌群功能具有显著影响, 这有助于通过改善pH、温度和氨氮浓度, 有效控制兰州鲇肠道菌群, 进而降低兰州鲇患病概率和提高兰州鲇苗种的驯食转化率, 从而促进兰州鲇养殖业的可持续发展。

     

    Abstract: As a unique carnivorous groundfish in the middle and upper reaches of the Yellow River basin, Silurus lanzhouensis has a delicious meat quality, a large market demand and a promising breeding prospect. Because of its characteristics of feeding on live bait such as small fish and shrimps in natural waters, it is difficult to transform the breeding domestication, and the survival rate of fry breeding is low, which becomes an important bottleneck limiting the sustainable development of the S. lanzhouensis breeding industry. This study was conducted to predict the composition, abundance, diversity and function of the intestinal flora in different environments by high-throughput sequencing of the bacterial 16S rDNA V3—V4 region of the S. lanzhouensis population in different habitats. The results showed that the main phyla of the intestinal tract in S. lanzhouensis were Proteobacteria, Fusobacteria, Firmicutes, Bacteroidetes and Actinobacteria, and the main genera were Cetobacterium, Plesiomonas, Aeromonas, Methylobacterium, Escherichia-Shigella, Acinetobacter and Shewanella. Among them, Fusobacteria and Proteobacteria accounted for more than 60% of the four groups of species and were the core phyla; the core genera were Cetobacterium and Plesiomonas. The results of gut flora α and β diversity analysis showed that the richness and evenness of the gut flora were CT>DK>WX>TL; the diversity of gut flora species was different between the two groups of culture type; the diversity of gut flora was higher in S. lanzhouensis at 26.5℃ than that at 20℃; the diversity of gut flora was lower in S. lanzhouensis in single species net tank culture than that in other culture modes. Further analysis of the composition and abundance of the intestinal flora of S. lanzhouensis showed that the relative abundance of Bacteroidetes in the CT group was significantly different from the TL group (P≤0.01) and the WX group (P≤0.05), while the relative abundance of Actinobacteria in the cultured CT group was significantly higher than that in the wild-type groups (P≤0.05), and the abundance of Methylobacterium was significantly higher than that in the WX and TL groups (P≤0.05). Further analysis in combination with environmental factors indicated that temperature, pH and ammonia concentration may be important factors influencing the composition and abundance of the intestinal flora in S. lanzhouensis. The predicted intestinal flora function indicated that different environments would affect the metabolic capacity of the intestinal flora of S. lanzhouensis. Among them, the DK group was a separate branch and its gut flora had higher abundance of lipid metabolism and carbohydrate metabolism pathways, which may be related to the higher F/B ratio of wild-type S. lanzhouensis gut flora to help the host to digest food more efficiently for more energy in the wild environment. In summary, different growth environments have significant effects on the composition, abundance, and predicted flora function of the S. lanzhouensis gut flora, which can help to promote sustainable S. lanzhouensis farming by changing external conditions and thus effectively controlling the S. lanzhouensis gut flora.

     

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