Conventional cleanup technology is generally too costly, and often harmful to desirable soil properties (i.e., texture, organic matter) for the restoration of contaminated sites. More recently, increasing attention has been given to the development of a plant-based technology (phytoremediation) to remediate heavy metal contaminated soils without extensive excavation, disposal costs, and loss of topsoil associated with traditional remediation practices.The success of a phytoremediation process is dependent on adequate plant yield and high metal concentrations in plant shoots. The largest numbers of hyperaccumulating species in the world belong to Brassicaceae. The optimum plant for phytoextraction would be able to both tolerate and accumulate high levels of heavy metals and also grow with a high biomass yield. But there are many different species of Indian mustard in the world, and the growth and uptake of those Indian mustard are not clear. Therefore, the object of this study is to compare the growth and heavy metal accumulation of three Indian mustard (Brassica juncea) grown in soils contaminated by Copper, Zinc, Cadmium and Lead. The study site was located at the green house of National Taiwan University. The investigation was conducted from July 2004 to April 2005. Four salt solution were added to the air-dried soil to control the total concentration of four metals at 200, 400 mg Cu kg-1, 100, 200 mg Zn kg-1, 25, 50 mg Cd -1kg, 500, 1000 mg Pb kg-1. Three kinds of Indian mustard (Brassica juncea) grown in soils contaminated by zinc, cadmium, lead or coppe. The soil moisture content was maintained at 60% of the water holding capacity, by weighing and adding deionized water. Soil solution were collected directly by RSMS after seeding 0 , 7, 14, 21, 28, 35 day. Test plants were harvested after seeding 35 days, then harvested plant were digested by the H2SO4/H2O2 digestion method. The concentration of Cu, Zn , Cd, and Pb in soil solution and plant digested solution were determinated by inductively coupled plasma optical emission spectrometry (ICP-OES)(Perkin-Elmer 2000 DV). The total and available concentration of Cu, Zn , Cd, and Pb in soil were digested by aqua regia and EDTA, DTPA extractable methods , then determinated by atomic absorption spectrometry (Hitachi 180-30 type). The results indicated that the soil limiting concentrations of Cu and Zn of the three different species of Indian mustard were lower than 200 and 100 mg kg-1. The soil limiting concentration of Pb of the three different species of Indian mustard was 1000 mg kg-1, and the maximum Pb accumulation of the three Indian mustards was 200 mg kg-1, which was much lower than the accumulation of the Pb hyperaccumulator . The soil limiting concentration of Cd of the three different species of Indian mustard was 25 mg kg-1, and the maximum Cd accumulation of the three Indian mustards was 200 mg kg-1. It reaches the standard level of the Cd hyperaccumulator .The biomass of India and Pakistan Indian mustard were significantly higher than Afghanistan specie (p<0.05). There were no significant different of Cd accumulation between the three Indian mustard species. The Pb accumulation of the three Indian mustard species, the species of Afghanistan of Indian mustard was significantly higher than the species of Indian and Pakistan (p<0.05). The total Cd removal , the species of India and Pakistan were significantly higher than that of Afghanistan species (p<0.05). There were no significant different between the Pb removal of the three Indian mustard species. Harvestd at 7th day after applying EDTA, the Cd concentration of Indian mustard were increased form 200 to 330 mg kg-1, and the total removal of Cd were increased form 97 to 157 μg pot-1. Harvestd at 7th day after applying EDTA, the Pb concentration of Indian mustard were increased form 80 to 700 mg kg-1, and the total removal of Cd were increased form 38 to 250 μg pot-1. In conclusion, the ability of phytoremediation of the three species of Indian mustard are not different, and adding EDTA solution can significantly increase the uptake of heavy metal in contaminated soil.