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谢梦琪, 张诗雨, 许荔立, 蒋飞, 袁军法, 吴志新, 陈孝煊. 不同性别和生长阶段对克氏原螯虾肠道菌群多样性的影响[J]. 水生生物学报, 2021, 45(6): 1243-1254. DOI: 10.7541/2021.2020.130
引用本文: 谢梦琪, 张诗雨, 许荔立, 蒋飞, 袁军法, 吴志新, 陈孝煊. 不同性别和生长阶段对克氏原螯虾肠道菌群多样性的影响[J]. 水生生物学报, 2021, 45(6): 1243-1254. DOI: 10.7541/2021.2020.130
XIE Meng-Qi, ZHANG Shi-Yu, XU Li-Li, JIANG Fei, YUAN Jun-Fa, WU Zhi-Xin, CHEN Xiao-Xuan. THE INTESTINAL MICROBIOTA DIVERSITIES OF PROCAMBARUS CLARKIA AT DIFFERENT SEXES AND GROWTH STAGES[J]. ACTA HYDROBIOLOGICA SINICA, 2021, 45(6): 1243-1254. DOI: 10.7541/2021.2020.130
Citation: XIE Meng-Qi, ZHANG Shi-Yu, XU Li-Li, JIANG Fei, YUAN Jun-Fa, WU Zhi-Xin, CHEN Xiao-Xuan. THE INTESTINAL MICROBIOTA DIVERSITIES OF PROCAMBARUS CLARKIA AT DIFFERENT SEXES AND GROWTH STAGES[J]. ACTA HYDROBIOLOGICA SINICA, 2021, 45(6): 1243-1254. DOI: 10.7541/2021.2020.130

不同性别和生长阶段对克氏原螯虾肠道菌群多样性的影响

THE INTESTINAL MICROBIOTA DIVERSITIES OF PROCAMBARUS CLARKIA AT DIFFERENT SEXES AND GROWTH STAGES

  • 摘要: 为研究性别和生长阶段对克氏原螯虾(Procambarus clarkii)肠道菌群的影响, 实验对来自虾塘的雌雄成虾肠道样品及来自实验室养殖的幼虾和成虾的肠道样品进行了16S rRNA高通量测序分析。结果表明, 不同性别间克氏原螯虾肠道菌群的多样性和功能均没有显著性差异(独立样本t检验: P>0.05), 其优势菌群在门水平上均包括厚壁菌门(Firmicutes)、变形菌门(Proteobacteria)和拟杆菌门(Bacteroidetes)等; 属水平上包括拟杆菌属(Bacteroidia)、希瓦氏菌属(Shewanella)、梭菌属(Clostridium)和柠檬酸杆菌属(Citrobacter)等; 但各优势菌群在个体间的丰度差异较大, 且在成虾阶段趋于保守, 属肠道常驻菌群。幼虾肠道菌群的Alpha多样性显著高于成虾(独立样本t检验: P<0.05)。在门水平上, 优势菌群较为一致, 包括变形菌门、拟杆菌门、厚壁菌门和放线菌门(Actinobacteria)。成虾厚壁菌门与拟杆菌门的比例高于幼虾, 表明成虾分解食物和吸收营养的潜力更强。在属水平上, 成虾和幼虾肠道中均存在大量的黄杆菌属(Flavobacterium)、拟杆菌属和氢噬胞菌属(Hydrogenophaga), 这些菌属可以帮助机体进行多种营养代谢, 成虾肠道中与碳水化合物代谢相关的菌群多于幼虾。PICRUSt功能预测显示, 在克氏原螯虾肠道中, 营养代谢功能相关的菌群相对丰度最高, 而成虾肠道菌群代谢碳水化合物的功能显著高于幼虾。实验表明, 在野外虾塘养殖下的克氏原螯虾的肠道菌群不论是在群落多样性、物种丰度还是菌群功能预测上, 都未体现出性别间的差异, 且肠道菌群的个体差异较大; 但在不同生长阶段间, 克氏原螯虾肠道微生物的群落多样性、丰度及功能都有显著差异, 相比于幼虾, 成虾肠道菌群多样性降低, 多种代谢功能升高。

     

    Abstract: As one of the most important economic animals in China, red swamp crayfish (Procambarus clarkii) has been in short supply in recent years, and the market has put forward higher requirements for the production and quality of red swamp crayfish. To study the intestinal microbiota in red swamp crayfish at different sexes and stages of growth, we collected male and female adult crayfish of (27.00±1.50) cm in length from the natural environment and larval crayfish of (2.00±0.20) cm in length from lab, respectively, 16S rRNA high-throughput sequencing. The results showed that there were no significant difference in the diversity or function of the intestinal microbiota between different sexes, and the composition was relatively consistent (Independent sample t-test, P>0.05). The dominant bacterial phyla included Firmicutes, Proteobacteria and Bacteroidetes, and bacterial genera included Bacteroidia, Shewanella, Clostridium and Citrobacter. The abundances of dominant bacterial groups varied greatly among individuals. These dominant bacterial groups tended to be conservative in adult crayfish intestine as resident microorganisms. The analysis of Beta diversity showed that male and female crayfish samples were not clustered separately, which indicated no significant difference between male and female crayfish. Among the intestinal microbiota at different growth stages, the Alpha diversity indexes of intestinal microbiota in larval crayfish were significantly higher than those in adult crayfish (Independent sample t-test, P<0.05). In terms of the composition and structure at the phylum level, the dominant bacterial groups in two stages were relatively consistent, including Proteobacteria, Bacteroides, Firmicutes, and Actinobacteria. The ratio of Firmicutes to Bacteroides in adult crayfish was higher than that in larval crayfish, indicating that the adult crayfish has a greater potential to digest foods and absorb nutrients. At the genus level, the composition of the dominant genera in the two stages of growth were quite different. The dominant genera of larval crayfish included Unclassified_Burkholderiales (21.1%), Hydrogenophaga (7.6%), Flavobacterium (7.4%), Unclassified_Comamonadaceae (5.4%) and Alkaliphilus (5.2%). The dominant genera of adult crayfish included Bacteroidia (12.5%), Flavobacterium (10.8%), Paracoccus (9.1%) and Unclassified_ Lachnospiraceae (5.5%). The top 20 most diverse genera of adult and larval crayfish included Mycoplana, Asticcacaulis, Sphingomonas, Alkaliphilus, Novosphingobium, Methylopila, Sphingobium, Dyadobacter, Rhodococcus, Hydrogenophaga, Mycobacterium, Tepidibacter, Demequina, Kaistobacter, Ancylobacter, Delftia, Ochrobactrum, Rheinheimera, Methyloversatilis and Sediminibacterium. A large number of Flavobacterium, Bacteroidetes and Hydrogenophaga in the intestines of adult and larval crayfish help the body to carry out a variety of nutrient metabolisms and there were more bacteria related to carbohydrate metabolism in adult crayfish. The Beta diversity of intestinal microbiota showed that adult and larval crayfish samples were clustered separately in PCA analysis, PCoA analysis, NMDS analysis, UPGMA cluster analysis and PLS-DA analysis, indicating great difference between adult and larval crayfish. In addition, the analysis of Adonis/PERMANOVA showed significant difference in the intestinal microbiota between adult and larval crayfish. PICRUSt function prediction showed that the relative abundance of nutrient metabolism function was the highest in the functions of intestinal microbiota in crayfish. The dominant functions of intestinal microbiota in adult crayfish included membrane transport and carbohydrate metabolism, the dominant functions of larval crayfish included cell movement, biodegradation and metabolism of xenobiotics and lipid metabolism. The abundance of metabolizing carbohydrates in adult crayfish was significantly higher than that of larval crayfish. During the breeding cycle of red swamp crayfish, the diet habits will change from plankton to granular feed as the development of crayfish. The capacity of secreting various digestive enzymes in the intestine is enhanced, accompanied by the changes of intestinal microbiota in composition and function to adapt to the shift in diet habits. Our results provide reliable data support and theoretical guidance for the subsequent improvement of the production and quality of red swamp crayfish, the selection of intestinal probiotics and the study of probiotic preparations.

     

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