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Phototrophic Nitrogen Fixation, a Neglected Biogeochemical Process in Mine Tailings?

Yongbin Li, Xiaoxu Sun, Rui Yang, Lifang Guo, Cangbai Li, Xiaoyu Wang, Baoqin Li, Huaqing Liu, Qi Wang, Mohsen Soleimani, Youhua Ren, Weimin Sun

2024Environmental Science & Technology38 citationsDOI

Abstract

Biological nitrogen fixation (BNF) has important ecological significance in mine tailing by contributing to the initial accumulation of nitrogen. In addition to chemolithotrophic and heterotrophic BNF, light may also fuel BNF in oligotrophic mine tailings. However, knowledge regarding the occurrence and ecological significance of this biogeochemical process in mine tailings remains ambiguous. The current study observed phototrophic BNF in enrichment cultures established from three primary successional stages (i.e., original tailings, biological crusts, and pioneer plants) of tailings. Notably, phototrophic BNF in tailings may be more active at vegetation stages (i.e., biological crusts and pioneering plants) than in bare tailings. DNA-stable isotope probing identified Roseomonas species as potential aerobic anoxygenic phototrophs responsible for phototrophic BNF. Furthermore, metagenomic binning as well as genome mining revealed that Roseomonas spp. contained essential genes involved in nitrogen fixation, anoxygenic photosynthesis, and carbon fixation, suggesting their genetic potential to mediate phototrophic BNF. A causal inference framework equipped with the structural causal model suggested that the enrichment of putative phototrophic diazotrophic Roseomonas may contribute to an elevated total nitrogen content during primary succession in these mine tailings. Collectively, our findings suggest that phototrophic diazotrophs may play important roles in nutrient accumulation and hold the potential to facilitate ecological succession in tailings.

Topics & Concepts

TailingsBiogeochemical cycleEnvironmental scienceNitrogen fixationNitrogenPhototrophBiogeochemistryMining engineeringWaste managementEnvironmental chemistryGeologyChemistryEngineeringPhysical chemistryPaleontologyOrganic chemistryBacteriaBiocrusts and Microbial EcologyAquatic Ecosystems and Phytoplankton DynamicsIron oxide chemistry and applications