AUTHOR=McCorquodale-Bauer Kenton , Flores Orozco Daniel , Grosshans Richard , Zvomuya Francis , Cicek Nazim 

TITLE=Reduction of antimicrobial resistance genes in wastewater through phytoremediation

JOURNAL=Frontiers in Synthetic Biology

VOLUME=Volume 2 - 2024

YEAR=2025

URL=https://www.frontiersin.org/journals/synthetic-biology/articles/10.3389/fsybi.2024.1513580

DOI=10.3389/fsybi.2024.1513580

ISSN=2813-818X

ABSTRACT=Developing strategies for the prevention of antimicrobial resistance genes (ARG) in wastewater treatment facilities, such as municipal wastewater sewage lagoons, is important to prevent ARG introduction and proliferation to the environment. While previous studies have shown promising results in reducing ARGs through biological and phytoremediation systems like Constructed Wetlands, the underlying mechanisms and the impact of water chemistry on ARG reduction remain poorly understood. This study used metagenomics to investigate the effect of three different biological wastewater treatments on the microbial community and resistome. The results indicated that each biological treatment significantly reduced ARGs and metal resistance genes (MRGs). A network analysis identified eight bacterial genera strongly associated with resistance genes, six of which belonged to the phylum Pseudomonadota and two to Campylobacteria. Of the six genera in Pseudomonadota, four were facultative anaerobes. A strong correlation was observed between iron (Fe) concentration in water and total ARG abundance (r = 0.95), as well as between total metal concentration (across eight measured metals) and ARGs (r = 0.93). Additionally, there was a significant correlation between ARG abundance and Fe resistance (r = 0.86). This implies that high Fe and metal concentrations may favor ARG-harboring facultative bacteria by providing an electron donor for anaerobic respiration. This study suggests that phytoextraction of metals, including Fe, may play a significant role in reducing ARG abundance in treated water columns. These findings offer valuable insights into how metal removal and phytoremediation can effectively reduce ARG levels in wastewater.