The intestinal microflora of host, vital for nutrient absorption and immune regulation, can experience dysbiosis under environmental stress, thereby potentially enhancing host susceptibility to pathogenic invasion. The impact of ocean acidification on bivalves is substantial, yet its effects on the intestinal microflora remain poorly understood. This study employed high-throughput 16S rRNA sequencing technology to investigate the variations in the intestinal microflora of Sinonovacula constricta between the control group (CON) and the seawater acidification group (OA) at different time points.After exposure to OA, changes in the composition of the intestinal microflora of S. constricta were observed, with no significant difference in α-diversity between the acidified and control groups. At the phylum level, there was an increase in the abundance of Proteobacteria, while Cyanobacteria decreased in the OA14d and OA35d groups. Additionally, the relative abundance of Firmicutes increased in the OA7d and OA35d groups. At the genus level, the relative content of Pseudomonas was lower than that in the control group, while the relative content of Flavobacterium, Acinetobacter, and Enterobacter showed a gradual increasing trendin the OA14d and OA35d groups.. LEfSe analysis identified Serpens as discriminative biomarkers in the OA7d group, while Enterobacteriales, Rhodobacteraceae and Martvita were biomarker in the OA14d group, and Serpens, Acidibacteria and Aeromonadaceae were biomarker in the OA35d group. Functional prediction results indicated significant enrichment in metabolic pathways at different time points following ocean acidification stress… The pathways involved in biosynthesis in the OA14d group and in sucrose degradation in the OA35d group were significantly disrupted. These results suggest that OA stress can have adverse effects on the intestinal microflora of S. constricta, but it does not cause obvious damage to the digestive system. This study provides new insights into the intestinal microflora of marine bivalves under acidification stress.
Wei Y., Dou H., Liu H., Liang S., Li Y., Guo Y. & Liang J., 2024. Impact of ocean acidification on the intestinal microflora of Sinonovacula constricta. SSSN. Article.
