Phytoremediation is a technique by harvesting the plants which can remove large amounts of heavy metals from the contaminated sites. To enhance the mobility and bioavailability of the metals by applying chelating agents (e.g. EDTA) and to accelerate the effect of phytoextraction, french marigold (Tagetes patula), garden verbena (Verbena bipinnatifida) and impatiens (Impatiens walleriana) had been approved that they not only have potential removal of Cd and Pb in the site but also adapt to the climate condition of Taiwan. The objectives of this study are to understand the maximum tolerance and potential accumulation of Cd and Pb of these three plants growing in the Cd- and Pb-contaminated soils. Different EDTA concentrations are also applied to enhance the phytoextraction of Cd and Pb. The pot experiments were conducted in the phytotron of National Taiwan University, which controlled at 30 ℃ in the day and 25 ℃ in the night, respectively. The treatments of heavy metals are control, 20, 40 and 80 mg Cd kg-1, 1000 and 2000 mg Pb kg-1. Four replicates were conducted for each treatment. All plants were harvested at 35th day after transplanting into the pots. The chelating agent, EDTA, was applied with different concentrations into 20 mg Cd kg-1 and 1000 mg Pb kg-1 at the 28th day after transplanting, which were harvested at the 7th day after applying EDTA. Soil solutions were also collected by rhizon soil moisture sampler (RSMS) at the different days to monitor the changes of metal concentrations in the soil solutions. The plant samples were digested by the HNO3/HClO4 digestion method. The concentrations of Cd and Pb in the solution samples and plants were determined by atomic absorption spectrometry (Hitachi 180-30 type). The results indicated that the potential toxic concentrations of Cd for french marigold and impatiens were 40 and 80 mg kg-1 and the maximum Cd concentrations in the shoots of two plants were 366 ±41 mg kg-1 and 1230 ±101 mg kg-1, respectively. The Cd concentrations in the shoot of these two plants have reached 4-12 folds of the threshold value, 100 mg kg-1, in hyperaccumulators of Cd. The potential toxic concentrations of Pb for garden verbena and impatiens were 1000 Pb mg kg-1 and the maximum Pb concentrations in the shoots of two plants were 114 ±6 mg kg-1 and 131 ±28 mg kg-1, respectively. Although they do not reach the threshold value, 1000 mg kg-1, of hyperaccumulators of Pb, the Pb concentrations in garden verbena and impatiens are much higher than that of other normal plants. The concentration of Pb in soil solutions of garden verbena and impatiens increased significantly after applying 2.5 and 5.0 mmol EDTA kg-1 into the soils contaminated by 1000 Pb mg kg-1 (p <0.05). In addition, applying EDTA significantly increased the Pb concentrations in the shoot of garden verbena and impatiens by 2-3 folds and the total Pb removal by garden verbenas’ shoots is 2-3 folds (p <0.05) as well.