Chlorpyrifos and the metabolite 3, 5, 6-trichloro-2-pyridinol (TCP) are widespread contamination of aquatic environments especially freshwater fish. The objectives of this study were to evaluate the contribution of using Ficus zero-valent iron nanoparticles supported on adsorbents (F-Fe0 ad) as green nanotechnology and Plantago major as phytoremediation for removing chlorpyrifos and degradation product TCP polluted water. The shapes of F-Fe0 were circular, with sizes from 2.46nm to 11.49 nm. Wheat bran (WB) showed the highest extent of removal of chlorpyrifos, while Rice straw ash (RSA) showed the lowest extent of removal. F-Fe0 supported on adsorbents has demonstrated faster removal toward chlorpyrifos compared with tested adsorbents or F-Fe0. Chlorpyrifos was removed more quickly and effectively by P. major L. plus F-Fe0 supported on different adsorbents (nearly 100%) than that by P. major (43.76%) or F-Fe0 (81.69%). The degradation product TCP was more greatly accumulated in water treated with F-Fe0 than that P. major alone or F-Fe0 supported with adsorbents and combined with P. major. Furthermore, TCP significantly accumulated in P. major roots and leaves in the water treated with F-Fe0 supported with adsorbents plus P. major more than that in the P. major roots and leaves alone, this is attributed to the role of F-Fe0 adsorbents for the degradation of chlorpyrifos to TCP, Which strongly accumulated in the P. major roots and leaves. It can be concluded that the contribution of using F-Fe0 supported on adsorbents, especially WB as green nanotechnology and P. major as phytoremediation would be a major role for the complete removal of chlorpyrifos from the water with a significant reduction in the toxic degradation product TCP.