Degradation, adsorption and leaching of phenazine-1-carboxamide in agricultural soils

• Published in: Ecotoxicology and environmental safety Vol. 205; p. 111374
• Main Authors: Ou, Jiang, Li, Hui, Ou, Xiaoming, Yang, Zhifu, Chen, Mengxian, Liu, Kailin, Teng, Yuting, Xing, Baoshan
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 01.12.2020
• Subjects: Adsorption; Agricultural soils; Degradation; Leaching; Phenazine-1-carboxamide; Degradation; Phenazine-1-carboxamide; Agricultural soils; Adsorption; Leaching
• ISSN: 0147-6513; 1090-2414
• DOI: 10.1016/j.ecoenv.2020.111374

Phenazines, a large group of nitrogen-containing heterocycles with promising bioactivities, can be widely used as medicines and pesticides. But phenazines also generate toxicity risks due to their non-selective DNA binding. The environmental fate of phenazines in soils is the key to assess their risks; however, hitherto, there have been very few related studies. Therefore in the present study, the degradation, adsorption and leaching behaviors of a typical natural phenazine—phenazine-1-carboxamide (PCN) in agricultural soils from three representative places in China with different physicochemical properties were, for the first time, systematically studied in laboratory simulation experiments. Our results indicated that the degradation of PCN in all the tested soils followed the first order kinetics, with half-lives ranging from 14.4 to 57.8 d under different conditions. Soil anaerobic microorganisms, organic matter content and pH conditions are important factors that regulating PCN degradation. The adsorption data of PCN were found to be well fitted using the Freundlich model, with the r2 values above 0.978. Freundlich adsorption coefficient Kf of PCN ranged from 5.75 to 12.8 [(mg/kg)/(mg/L)1/n] in soils. The retention factor Rf values ranged from 0.0833 to 0.354, which means that the mobility of PCN in the three types of soil is between immobile to moderately mobile. Our results demonstrate that PCN is easily degraded, has high adsorption affinity and low mobility in high organic matter content and clay soils, thus resulting in lower risks of contamination to groundwater systems. In contrast, it degraded slowly, has low adsorption affinity and moderately mobile in soils with low organic matter and clay content, therefore it has higher polluting potential to groundwater systems. Overall, these findings provide useful insights into the future evaluation of environmental as well as health risks of PCN. [Display omitted] •This is the first report of the environmental behaviors of phenazine in soils.•Anaerobic microorganisms were more important than the aerobic for degradation of PCN.•PCN easily degraded, has high adsorption and low mobility in high OMC and clay soils.•PCN in high OMC and clay soils has lower contamination risks to groundwater systems. PCN degraded slowly, has low adsorption affinity and moderate mobility in low OMC and clay content soils, therefore has higher polluting potential to groundwater systems.