In this study, scale-based runoff plots of concaved grasslands were designed and simulated rainfall experiments were conducted to investigate their retention effectiveness for runoff volume and pollutant loads, and to analyze the influences of concaved depths on runoff and pollution retention of grasslands. Results showed that mean time to runoff of concaved grasslands was 88.5 minutes, which was 5.3 times than that of flat grassland. Average peak flow rate of concaved grasslands was reduced by 36.2% compared with flat grassland. Concaved grasslands averagely retained 58.2% of stormwater runoff. Deeper concaved depths significantly increased runoff detention and retention performance of grasslands. TSS load reduction rates of concaved grasslands were ranged from 50.8% to 97.3%. TN load reduction rate was 49.8% for concaved depth of 10 cm. TP load reduction rates were 45.0% and 93.9% for grasslands with 5 cm and 10 cm concaved depths, respectively. Pollution load reduction rates of TSS, TN and TP enhanced along with the increase in concaved depths. The estimated minimum area ratios of upslope impervious surface to grasslands of 5 cm and 10 cm concaved depths were approximately 1:1 under 20 mm rainfall events, and 38:1 under 5 mm rainfalls, respectively.
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