In the current study, the adsorption and photo-reduction of Cr (VI) on A1-substituted and goethite were evaluated using a batch technique. The results showed that Cr (VI) adsorption on goethite was rapid. About 0.06 mmol/g Cr (VI) was adsorbed on 1% A1-goethite as compared with 0.04 mmol/g Cr (VI) adsorption on pure goethite after 12 h. The increase in Cr (VI) adsorption on low A1-substituted goethite (i,e., 1 %) was attributed to increase in the surface area. However, Cr (VI) adsorption would decrease when the percentage of A1 substitution in goethite was further increased. The lower complexation constant of Cr (VI) with structural A1 as compared with that of Fe may result in the decrease in Cr (VI) adsorption when A1 substitution increased. Pure goethite exhibited an excellent ability of photo-reduction of Cr (VI) under illumination. For instance, as high as 0.07 mmol/g of Cr (VI) was reduced after 12 h, and the photo-reduction of Cr (VI) continued over prolonged time. The occurrence of Cr (VI) reduction instead of adsorption was confirmed using an extraction technique. Since phosphate was an efficient exchanger for adsorbed Cr (VI), a low extraction efficiency of Cr (VI) by phosphate indicated Cr (VI) reduction upon exposure to the UV light. On the contrary, the amount of Cr (VI) reduction was greatly inhibited on A1-substituted goethite, and the reaction rate decreased over the irradiating time. The elimination of ”activated sites” on A1-substituted goethite was proposed a possible reason for the decrease in Cr (VI) adsorption and subsequent reduction. In summary, low A1-substitution facilitates Cr (VJ) adsorption on goethite; however, the A1-substitution will result in a decrease in the efficiency for the photo-reduction of Cr (VI).