The adsorption behavior of Sr2+ over alginate (Alg) fibers prepared by wet spinning was investigated. Different grades of sodium alginate (Alg-Na) were chosen. The Alg fibers were obtained by coagulation of 1% H2SO4 (Algacid) or 5% CaCl2 (Alg-Ca) solutions. In addition, the Sr2+ adsorption percentages of the spherical Alg-Ca beads with a 0.672-mm-diameter was 70.64% which was significantly lower than that Mg-Ca fibers (79.49%). These results suggested that the fibrous shape is more suitable than the spheres as an adsorbent from sea water. For Sr2+ adsorption capacities using different Alg fibers, the Alg-acid fibers obtained from 12% IL-2 and 8% I-2 grade solutions reached adsorption equilibrium at 99.88 and 99.27%, respectively, within 3 min. However, the Alg-Ca fiber obtained from 8% 1-2 grade solution reached equilibrium at 80.01% within 30 min. Moreover, the Alg-acid fiber obtained from 8% 1-2 grade solution adsorbed up to 34 mg/g of Sr2+ at an initial concentration of 1700 mg/L solutions. However, when Sr2+ co-existing cations (Ca2+, Na+, and mixtures of them) the adsorption capacity of the Mg-Ca fiber obtained from 8% 1-2 grade solution slightly decreased since the egg-box structure of Mg-Ca fiber favored the selective Sr2+ adsorption and subsequent ion exchange with Ca2+.