Effects of Ocean Acidification, Hypoxia, and Warming on the Gut Microbiota of the Thick Shell Mussel Mytilus coruscus Through 16S rRNA Gene Sequencing
Frontiers in Marine Science2021
35 citations
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Fahim Ullah Khan,
Youji Wang
Youji Wang
Yueyong Shang,
Menghong Hu,
Yueyong Shang,
Wei Liu,
James Kar‐Hei Fang,
Menghong Hu,
Youji Wang
Youji Wang
Youji Wang
Menghong Hu,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Amina Zuberi,
Xueqing Chang,
Xueqing Chang,
Wei Liu,
Wei Liu,
Wei Liu,
Yueyong Shang,
Yueyong Shang,
Yueyong Shang,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Fahim Ullah Khan,
Youji Wang
Menghong Hu,
Wei Liu,
Xueqing Chang,
Xueqing Chang,
Menghong Hu,
Menghong Hu,
Xueqing Chang,
Menghong Hu,
James Kar‐Hei Fang,
Youji Wang
Youji Wang
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Youji Wang
Amina Zuberi,
Menghong Hu,
Youji Wang
James Kar‐Hei Fang,
Menghong Hu,
Youji Wang
Hui Kong,
Youji Wang
Xueqing Chang,
Fahim Ullah Khan,
Fahim Ullah Khan,
Wei Liu,
Youji Wang
Wei Liu,
Menghong Hu,
Menghong Hu,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Menghong Hu,
Youji Wang
Yueyong Shang,
Youji Wang
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Youji Wang
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Menghong Hu,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Menghong Hu,
Yueyong Shang,
Wei Liu,
Wei Liu,
Wei Liu,
Wei Liu,
Amina Zuberi,
Youji Wang
Menghong Hu,
Menghong Hu,
Yueyong Shang,
James Kar‐Hei Fang,
Menghong Hu,
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Fahim Ullah Khan,
Youji Wang
Menghong Hu,
Youji Wang
Youji Wang
Wei Liu,
James Kar‐Hei Fang,
Wei Liu,
Yueyong Shang,
Youji Wang
Youji Wang
Youji Wang
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Yueyong Shang,
Youji Wang
Yueyong Shang,
Menghong Hu,
Youji Wang
Menghong Hu,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Wei Liu,
Jinxia Peng,
Wei Liu,
Youji Wang
Youji Wang
Youji Wang
Youji Wang
James Kar‐Hei Fang,
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Fahim Ullah Khan,
Youji Wang
Menghong Hu,
Menghong Hu,
Yueyong Shang,
Youji Wang
Menghong Hu,
Youji Wang
Menghong Hu,
Fahim Ullah Khan,
Menghong Hu,
Youji Wang
Youji Wang
Menghong Hu,
Menghong Hu,
Menghong Hu,
Youji Wang
Youji Wang
James Kar‐Hei Fang,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Jinxia Peng,
Youji Wang
Youji Wang
Fahim Ullah Khan,
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Youji Wang
Youji Wang
Yueyong Shang,
Youji Wang
Youji Wang
Menghong Hu,
James Kar‐Hei Fang,
Menghong Hu,
James Kar‐Hei Fang,
Menghong Hu,
Xingzhi Zhang,
Wei Liu,
Menghong Hu,
Youji Wang
Menghong Hu,
Menghong Hu,
Youji Wang
Menghong Hu,
Menghong Hu,
Menghong Hu,
Youji Wang
Menghong Hu,
Wei Liu,
Menghong Hu,
Youji Wang
Youji Wang
Menghong Hu,
Menghong Hu,
Menghong Hu,
Youji Wang
Menghong Hu,
Youji Wang
James Kar‐Hei Fang,
James Kar‐Hei Fang,
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Jinxia Peng,
Youji Wang
Wei Liu,
Youji Wang
Youji Wang
Menghong Hu,
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Youji Wang
Summary
Researchers found that combined ocean acidification, hypoxia, and warming significantly altered the gut microbiota of the thick shell mussel Mytilus coruscus, disrupting microbial community structure and potentially compromising host health under future climate scenarios.
Gut microbiota play a very important role in the health of the host, such as protecting from pathogens and maintaining homeostasis. However, environmental stressors, such as ocean acidification, hypoxia, and warming can affect microbial communities by causing alteration in their structure and relative abundance and by destroying their network. The study aimed to evaluate the combined effects of low pH, low dissolved oxygen (DO) levels, and warming on gut microbiota of the mussel Mytilus coruscus . Mussels were exposed to two pH levels (8.1, 7.7), two DO levels (6, 2 mg L −1 ), and two temperature levels (20, 30°C) for a total of eight treatments for 30 days. The experiment results showed that ocean acidification, hypoxia, and warming affected the community structure, species richness, and diversity of gut microbiota. The most abundant phyla noted were Proteobacteria, Bacteroidetes, and Firmicutes. Principal coordinate analysis (PCoA) revealed that ocean acidification, hypoxia, and warming change microbial community structure. Low pH, low DO, and increased temperature can cause shifting of microbial communities toward pathogen dominated microbial communities. Linear discriminant analysis effect size (LEfSe) showed that the significantly enriched biomarkers in each group are significantly different at the genus level. Phylogenetic investigation of communities by reconstruction of unobserved states (PICRUSt) analysis revealed that the gut microbiome of the mussels is associated with many important functions, such as amino acid transport and metabolism, transcription, energy production and conservation, cell wall, membrane and envelope biogenesis, and other functions. This study highlights the complexity of interaction among pH, DO, and temperature in marine organisms and their effects on the gut microbiota and health of marine mussels.