Two novel magnetic zirconia adsorbents were synthesized employing precipitation (called MZHP) and sol-gel (called MZSG) methods, respectively, in this study. However, only MZSG possessed homogeneous property so that MZSG was the main adsorbent discussed in this study. MZSG was prepared with three sequentical steps: formation of Fe3O4 (magnetitie) as magnetic core via precipitation method; coating of SiO2 (silica) film on magnetite as magnetic carrier with sol-gel method; coating of ZrO2 as magnetic adsorbent via sol-gel method. The physicochemical characteristics of adsorbents, adsorption behavior of various anions, such as F-, SO42-, Cl-, Br- and NO3-, and regeneration processes of aged adsorbents from fluoride adsorption were investigated. In addition, effects of operating parameters, such as ionic strength, pH value and initial concentration were also were also examined. Langmuir and Freundlich isotherms can well describe the adsorption of F- and SO42- on MZSG from solutions, and MZSG possessed high potentical to remove F- and SO42-. However, the adsoption capacities of Cl-, Br- and NO3- were considerably low. There sults indicated MZSG was a good adsorbent for selective adsorption of F- and SO42-.