Mechanism of the growth of silver shells on both the gold nanorods (NRs) and dumbbells (DBs) is studied in ionic surfactant solutions. Gold nanorods were prepared by seed-mediated growth method in the aqueous solution of hexadecyltrimethyl ammonium bromide (CTAB). At the same time, gold dumbbells with different aspect ratios were obtained by the reaction of gold nanorods with HAuCl4 and ascorbic acid. Gold NRs and DBs were then used as the templates to synthesize gold-silver core-shell nanorods (Au@AgNRs) in the ionic surfactant solutions, including cationic CTAB, hexadecyltrimethyl ammonium chloride (CTAC) and anionic sodium dodecyl sulfate (SDS). The surface plasmon resonance band of Au@AgNRs in UV-Vis spectra was blue-shift during the reaction process. Au@AgNRs synthesized in SDS or CTAB solutions have boat shapes at room temperature. But, the reaction rate in the former is faster than in the latter. On the other hand, Au@AgNRs synthesized in CTAC or CTAB solutions have rectangular shape at the higher temperature. And the former has the higher reaction rate. Further, Au@AgDBs synthesized in CTAC or CTAB solutions have rectangular shape and triangular bipyramid at the higher temperature. Furthermore, gold dumbbells are changed to gold nanorods with a lower aspect ratio at high temperature. Blue-shifts of longitudinal plasmon peak correspond to a decrease of the aspect ratio.