New Insights into Microbial Interactions with Dissolved Organic Matter in Acid Mine Drainage with the Integration of Microbial Community and Chemical Composition Analysis

Acid mine drainage (AMD) environments are one of the most extreme ecosystems on earth, and their biogeochemical cycling has been widely studied. However, the carbon cycling underlying microbial interactions with dissolved organic matter (DOM) is poorly understood in these environments. Here, we evaluated the relationships between microbial populations and DOM pools in an AMD lake by combining high-throughput microbial and chemical compositional analyses. The results demonstrated that microalgae were the predominant primary producers in the system and significantly contributed to the total DOM concentration in the water column, whereas DOM chemodiversity was correlated with bacterial community diversity. Network analyses further revealed that DOM associated with microalgae had low diversity but high relative abundance, suggesting microalgal selective organic matter contribution to the DOM pool. Conversely, diverse DOM molecules with generally low abundance were associated with heterotrophic acidophiles, including members of Alphaproteobacteria, Actinobacteria, Firmicutes, and Acidobacteria. Moreover, microalgae and bacteria exhibited predominantly positive co-occurrences with potential metabolic interactions via DOM exchange. Taken together, this study provides new insights into the microbe-DOM interactions in extreme AMD ecosystems and has significant implications for understanding the carbon cycle and microbial metabolism in extreme environments.