Keywords: 
• CuO NPs /
• alfalfa /
• ROS /
• antioxidant enzyme activity /
• root activity

Abstract: The root is usually the major organ directly contaminated by the environment pollutants such as heavy metal ions and metal oxide nanoparticles. This study explored the effects of CuO NPs on ROS, antioxidant enzyme activities and root activity of alfalfa seedling. The results showed that (1) CuO NPs had significant effects on H₂O₂ and O₂^-· content of the alfalfa seedling root (H₂O₂, P=0.003; O₂^-·, P<0.001). With the increase of CuO NPs concentration, H₂O₂ and O₂^-· contents both firstly increased and then decreased as a whole. Except that H₂O₂ content of the alfalfa seedling root decreased under the 0.00125 mol·L^-1 CuO NPs treatment, all H₂O₂ and O₂^-· contents increased under other CuO NPs treatments compared to the control. And these two indexes both reached the maximum under the 0.0125 mol·L^-1 CuO NPs treatment. (2) CuO NPs had significant effects on the antioxidant enzyme activity of the alfalfa seedling root (P<0.001 for all SOD, POD, APX and CAT).With the increase of CuO NPs concentration, the activities of SOD, POD, APX and CAT of the alfalfa seedling root all firstly increased and then decreased. The activities of SOD and POD both reached maximum under the 0.00625 mol·L^-1 CuO NPs treatment, while the maximum APX activity value was observed under the 0.0125 mol·L^-1 CuO NPs treatment and CAT activity maximum under the 0.0625 mol·L^-1 CuO NPs treatment. It is indicated that these antioxidant enzymes underwent a strong collaboration and compensation in clearing up reactive oxygen species of the alfalfa seedling root. (3) CuO NPs had significant effects on the root activity of the alfalfa seedling (P<0.001). With the increase of CuO NPs concentration, root activity of the alfalfa seedling gradually increased, which is a performance of biological adaptation to external stress.