This paper reports a series of magnetoresistance measurements made on arrays of bismuth nanowires with diameters ranging from 28\ifmmode\pm\else\textpm\fi{}3 to 70\ifmmode\pm\else\textpm\fi{}10 nm. The data were taken between 1.4 and 10 K in magnetic fields from 0 to 5 T. The magnetoresistance curves below 4.2 K show a steplike increase in magnetoresistance relative to the curves at 4.2 K, occurring at the field at which the magnetic length ${L}_{H}$ equals the wire diameter d. At low B fields where ${L}_{H}gd,$ the electron wave function is confined by the wire diameter, while at high magnetic fields for which ${L}_{H}ld,$ the carriers are in a bulklike environment. These results suggest that the steplike magnetoresistance is due to a transition between one-dimensional (1D) localization and 3D localization.