The atrazine and clomazone molecules have potential to contaminate environments, especially water resources. Phytoremediation decontamination can prevent or reduce the quantity of these products reaching watercourses. The objective was to evaluate the remedial potential and the physiological sensitivity of Eremanthus crotonoides (DC.) Sch. Bip and Inga striata Benth to atrazine and clomazone in soils contaminated with 0.0, 0.5, 1.0 and 2.0 times the recommended commercial dose of these herbicides. The photosynthesis, CO₂ consumed stomatal conductance and transpiration of E. crotonoides and I. striata, in soils contaminated with atrazine and clomazone, were evaluated. The herbicide residues were detected by ultra-high performance liquid chromatography tandem mass spectrometry (UHPLC-MS/MS) 30 days after the last herbicide application. The photosynthesis rate and CO₂ consumed by E. crotonoides and I. striata were lower in soils contaminated by atrazine and clomazone. Inga striata had lower stomatal conductance and transpiration in soil contaminated with clomazone. Eremanyhus crotonoides and I. striata reduced the residues of these herbicides. The atrazine and clomazone reduced the physiological variables of E. crotonoides and I. striata. These plants can be used to recover areas with residues of these herbicides, acting as filters that will decrease the amount of herbicides that would reach the watercourses.

r去津和广灭灵分子可能会污染环境，尤其是水资源。植物修复去污可以防止或减少到达水道的这些产品的数量。目的是评估补肾丹（Eremanthus crotonoides）（DC。Sch）的修复潜力和生理敏感性。BIP和因加纹状体广藿香莠去津，并沾染0.0，0.5，1.0和这些除草剂的推荐剂量商业2.0倍土壤异恶草酮。光合作用，CO ₂消耗了巴豆大肠埃希菌和纹状体埃希伯特的气孔导度和蒸腾作用在被at去津和广灭灵污染的土壤中进行了评估。最后一次除草剂施用后30天，通过超高效液相色谱串联质谱法（UHPLC-MS / MS）检测除草剂残留。在被r去津和广灭灵污染的土壤中，巴豆大肠杆菌和纹状体的光合作用速率和CO ₂消耗量较低。Inga纹状体在被广灭灵污染的土壤中具有较低的气孔导度和蒸腾作用。Eremanyhus crotonoides和I. striata减少了这些除草剂的残留量。阿特拉津和广灭灵降低了巴豆大肠杆菌和纹状体的生理变量。这些植物可用于回收带有这些除草剂残留的区域，用作过滤器，以减少到达水道的除草剂的量。