Cr(III) is less toxic than Cr(VI) and is considered to be a more stable chromium species in the environment. However, under an acidic environment, high levels of Cr(III) concentration in soil were also toxic to some plant species. The availability of soil Cr(VI) is usually used for assessing the phytotoxicity of Cr(VI)-contaminated soils. However, Cr(VI) is favorably reduced to Cr(III) under acid conditions and the availability of Cr(III) in acid soils could be high, thus the phytotoxicity resulting from Cr(III) should not be ignored. Therefore, evaluating the phytotoxicity of Cr(III) and determining the phytotoxicity of both Cr(VI) and Cr(III) in acid soils are essential for assessing the phytotoxicity of Cr. A pot experiment of wheat seedlings was carried out and a chelating exchange resin, Chelex 100, was used to extract Cr(III) from the soils in order to examine the phytotoxicity of Cr(III)-spiked soils. Both acid and alkaline soils were selected in this part of the study, and the soils were spiked with seven levels of Cr(III) (0, 150, 300, 350, 400, 450, 500 mg kg-1soil) for preparing Cr(III)-contaminated soils. Besides, two selective exchange resins, Chelex 100 and DOWEX M4195, were used to extract soil available Cr(III) and Cr(VI) respectively and the X-ray absorption near edge structure spectroscopy (XANES) was used to determine the extent of Cr(VI) reduction to Cr(III). Two acid soils from agricultural areas Pinchen and Neipu were used, the soil pH levels were adjusted to approximately 4, 5, and 6 with addition of CaCO3. The soils were then spiked with six levels of Cr(III) or Cr(VI) (0, 150, 300, 500, 1000, and 1500 mg kg-1soil). A wheat seedling growth experiment was used to assess the phytotoxicity of soil Cr. In the pot experiment, the plant height and the dry weight of the wheat seedlings were adversely affected by the Cr(III)-spiked acidic soils, whereas growth inhibition of wheat seedlings was not found in alkaline soils with the same amounts of Cr(III) added. The amount of soil resin extractable Cr(III) increased with the increase of Cr(III) in the Cr(III)-spiked acidic soils. However, there was no detectable Cr(III) (≤ 0.05 mg kg-1) extracted from the alkaline soils. In addition, the reduction of plant height and dry weight of wheat seedlings, and the increase of plant Cr concentration and Cr uptake showed a pronounced correlation to the amount of soil resin-extractable Cr(III) byChelex 100 resin. The correlation between the relative plant height of the wheat seedlings and the amount of soil resin-extractable Cr(III) in a logarithmic scale was well fitted to an exponential type of dose-response relation model (r2 = 0.97). Therefore, the resin extraction method using Chelex 100 could be a reliable method for assessing the phytotoxicity of Cr(III) in Cr-contaminated soils. The results showed that in Cr(VI)-spiked Neipu soil, both of resin-extractable Cr(III) and Cr(VI) were not detectable and no growth inhibition of wheat seedlings were found. The XANES spectra showed that Cr(VI) added into Neipu soil was almost reduced to Cr(III). It indicates that the availability of Cr(III) formed from the reduction of spiking Cr(VI) in the Neipu soils, which contained higher amounts of organic matter, was low and thus no phytotoxicity effect was observed. On the contrary, in the Cr(VI)-spiked Pinchen soils, only a portion of added Cr(VI) was reduced to Cr(III). The amounts of resin-extractable Cr(III) and Cr(VI) increased with the levels of spiking Cr(VI). The decrease of dry weight and plant height of wheat seedlings was found while the Cr(VI) addition was above 500 mg kg-1soil. The inhibition of growth of wheat seedlings was thought to be related to the increase of amounts of both soil resin-extractable Cr(VI) and Cr(III). Furthermore, the large amount of DOWEX M4195 resin extractable Cr increased with increasing soil pH in Pinchen soil, but the DOWEX M4195 resin extractable Cr was not detected even Neipu soil pH was 6.4., and these results were conformed to the XANES spectra. The results suggest that in acid soils such as Pinchen, which did not have higher amounts of organic matter, the large amounts of both soil available Cr(III) and Cr(VI) resulting from high level of Cr(VI) contamination might be phytotoxic to plant growth. However, in high organic matter content soil such as Neipu soil, even the soil pH is high, Cr(VI) in soil still can be reduced by soil organic matter.