Removal of chlorpyrifos in recirculating vertical flow constructed wetlands with five wetland plant species.

Abstract

The removal efficiency of the pesticide chlorpyrifos (50 and 500\u202fμg\u202fL-1) by five wetland plant species (Cyperus alternifolius, Canna indica, Iris pseudacorus, Juncus effusus and Typha orientalis) was studied in recirculating vertical flow constructed wetland systems (RVFCWs). Results reveal that for chlorpyrifos at different concentrations, good removal efficiencies (94-98%) were observed using the same plant systems, while no significant differences in removal efficiencies were seen between the different plant systems. In addition, the chlorpyrifos removal efficiency of the planted systems increased significantly compared with the unplanted controls. The chlorpyrifos removal efficiency for wetland systems over time fit to the first-order kinetic model, with the first-order kinetic constant (k) ranging from 0.045 to 0.065 h-1. The half-life of chlorpyrifos in the systems ranged from 10.66-15.43\u202fh. The shortest chlorpyrifos half-life was detected in the wetland system containing C.\xa0indica, followed by that with C.\xa0alternifolius and I.\xa0pseudacorus. The main pathways to remove chlorpyrifos in these wetland systems were sorption (accounting for 64.6-86.4% of the total removal efficiency) and biodegradation (8.1-33.7%). Plants can enhance chlorpyrifos removal through enhanced biodegradation in the system. Plants with high biomass and transpiration were able to accelerate the removal of chlorpyrifos and conventional pollutants. Hence, C.\xa0indica, C.\xa0alternifolius and I.\xa0pseudacorus could be used as optimal plants for pesticide removal in wetland systems.