Understanding Microbial Arsenic-Mobilization in Multiple Aquifers: Insight from DNA and RNA Analyses

Wei Xiu, Tiantian Ke, Jonathan R Lloyd, Jiaxing Shen, Naji M Bassil, Hokyung Song, David A Polya, Yi Zhao, Huaming Guo

Research output: Contribution to journalArticlepeer-review

Abstract

Biogeochemical processes critically control the groundwater arsenic (As) enrichment; however, the key active As-mobilizing biogeochemical processes and associated microbes in high dissolved As and sulfate aquifers are poorly understood. To address this issue, the groundwater-sediment geochemistry, total and active microbial communities, and their potential functions in the groundwater-sediment microbiota from the western Hetao basin were determined using 16S rRNA gene (rDNA) and associated 16S rRNA (rRNA) sequencing. The relative abundances of either sediment or groundwater total and active microbial communities were positively correlated. Interestingly, groundwater active microbial communities were mainly associated with ammonium and sulfide, while sediment active communities were highly related to water-extractable nitrate. Both sediment-sourced and groundwater-sourced active microorganisms (rRNA/rDNA ratios > 1) noted Fe(III)-reducers (induced by ammonium oxidation) and As(V)-reducers, emphasizing the As mobilization via Fe(III) and/or As(V) reduction. Moreover, active cryptic sulfur cycling between groundwater and sediments was implicated in affecting As mobilization. Sediment-sourced active microorganisms were potentially involved in anaerobic pyrite oxidation (driven by denitrification), while groundwater-sourced organisms were associated with sulfur disproportionation and sulfate reduction. This study provides an extended whole-picture concept model of active As-N-S-Fe biogeochemical processes affecting As mobilization in high dissolved As and sulfate aquifers.

Original languageEnglish
Pages (from-to)15181-15195
Number of pages15
JournalEnvironmental Science & Technology
Volume55
Issue number22
Early online date28 Oct 2021
DOIs
Publication statusPublished - 16 Nov 2021

Keywords

  • Arsenic/analysis
  • DNA
  • Ferric Compounds
  • Geologic Sediments
  • Groundwater
  • RNA, Ribosomal, 16S/genetics
  • Water Pollutants, Chemical/analysis

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