Abstract
BACKGROUND: Studying the compositional structure and function of the gut microbiome is essential for evaluating adaptability of wildlife to their environment. Given the high plasticity of the gut microbiome in primates, studying conspecific populations under different habitat quality can provide valuable insights for the conservation and management. To investigate intersite differences in composition and function of the gut microbiome of endangered François' langurs (Trachypithecus francoisi), we employed 16S rRNA and metagenomic sequencing. RESULTS: The results showed that higher gut microbiota diversity of François' langurs was associated with higher habitat quality, possibly driven by the dietary diversity. In contrast, François' langurs inhabiting lower-quality habitats had a higher relative abundance of Bacillota and more enriched functional genes related to amino acid metabolism and metabolic pathways than those in higher-quality habitats, which support enhanced fiber degradation to meet energy demands. Additionally, the proportion of tetracycline-related ARGs (tetA(58)) was more abundant in lower-quality habitats, likely due to villagers applying livestock and poultry manure. CONCLUSION: Our study concludes that intersite differences in gut microbiome are associated with habitat quality in the François' langurs, underscoring its role in habitat adaptation and necessity for physiological indicators to elucidate the mechanisms by which wildlife responds to human disturbance and ecological variability. In addition, we recommend prioritizing the restoration of native vegetation diversity in the langurs' habitats, which leverages their gut microbiota's adaptive potential to provide a suitable fundamental environment for the langurs' long-term survival.