AI Article Synopsis
- Rare earth elements (REE), like lanthanum and cerium, are widely used in agriculture for their benefits to plant growth, yet their environmental impact, particularly regarding soil microbes, is not well studied.
- In this study, researchers found that high levels of REE nitrate negatively affected specific soil prokaryote phyla and altered the viral community while low levels had less impact on antibiotic resistance genes (ARGs).
- Ultimately, the overuse of REE nitrate could promote the spread of ARGs among soil microorganisms, although viruses were not significantly involved in this process.
Article Abstract
Rare earth elements (REE) are extensively exploited in the agricultural ecosystems due to their various beneficial roles on plant growth. However, the ecotoxicological effects and environmental risk of REE are poorly assessed. Here, we investigated the effects of lanthanum and cerium nitrate on soil prokaryote and viral metal resistance genes (MRGs) and antibiotics resistance genes (ARGs) using a metagenomic-based approach. We found that relative abundances of prokaryote phyla Bacteroidetes and Chloroflexi decreased with increasing of both REE compounds. In addition, low level REE nitrate (0.05 and 0.1 mmol kg soil) inhibited the viral family Phycodanaviridae, Rudiviridae, Schitoviridae, whereas high level (0.16 and 0.32 mmol kg soil) REE nitrate suppressed the viral family Herelleviridae, Iridoviridae, Podoviridae. ARGs were not significantly affected by low level of REE nitrate. However, high level of both REEs nitrate increased the abundances of dominant prokaryote genes resisting to most of the drug classes, such as aminoglycoside, elfamycin, fluoroquinolone, macrolide, rifamycin. Abundance of MRGs in prokaryote did not change consistently with REE nitrate compound type and input rate. MRGs were only partially detected in the virome in some of the treatments, while ARGs was not detected in virome. Together, we demonstrated that overuse of REE nitrate in agriculture would increase the risk of dissemination of ARGs through prokaryotes but not virus, although viral community was substantially shifted.
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| http://dx.doi.org/10.1016/j.scitotenv.2022.160704 | DOI Listing |
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