The widespread use of atrazine in agriculture threatens soil health and the safety of agricultural products. In this study, the removal and mechanism of green manure plants (GMPs) hairy vetch (Vicia villosa Roth, VV) and ryegrass (Lolium perenne L., LP) to atrazine were investigated. The results showed that VV and LP show a certain tolerance to 5∼25 mg/kg atrazine contamination compared to VV and LP without atrazine (VV0 and LP0), with LP exhibiting higher tolerance. Moreover, compared to CK, VV and LP significantly promoted the removal of atrazine by 13.49%∼26.41% and 13.98%∼23.42%, respectively. VV was more effective at lower concentrations (5∼10 mg/kg), while LP showed better results at 25 mg/kg. Soil enzyme activities (catalase and urease), as well as bacterial abundance and diversity, were significantly increased by VV and LP treatments. LP had a stronger effect. The function analysis revealed that VV enhances the Cell growth and death pathway in the rhizosphere soil, while LP primarily boosts the Replication and repair pathway to cope with atrazine stress. This difference likely results from the distinct root structures of the two plants, which create varying rhizosphere environments. Additionally, VV and LP upregulate the Atrazine degradation pathway by enriching atrazine-degrading bacteria, thereby promoting atrazine removal. VV growth was affected under 25 mg/kg atrazine treatment, which may lead to lower Atrazine degradation pathway abundance in the rhizosphere compared to LP. This study provides a theoretical basis for selecting plant species for the remediation of atrazine-contaminated soils.
Keywords: agricultural soil; atrazine; green manure plant; phytoremediation; rhizosphere microorganisms.
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