In　this　study,　we　report　polarization-dependent　concentric　circular　periodic　surface　structures　on　Si　induced　by　a　single　shot　femtosecond　(fs)　laser　pulse　based　on　pre-processed　quasi-plasmonic　annular-shaped　nanostructure.　An　abnormal　annular-shaped　energy　deposition　of　the　fundamental　fs　laser　pulse　can　be　found　by　using　dual-wavelength　superposition　of　the　fundamental　frequency　(omega)　and　the　second-harmonic　frequency　(2　omega)　of　an　fs　Ti:sapphire　laser,　which　is　confirmed　by　real　beam　shape　detection.　Based　on　the　annular-shaped　energy　distribution　of　dual-wavelength　fs　laser,　a　concentric　quasi-plasmonic　corral　nanostructure　can　be　imprinted　on　the　Au　thin　film.　Surface　plasmon　polaritons　(SPPs)　excitations　on　the　planar　metallic　nanostructures　enable　the　manipulation　of　light　on　subwavelength　scales.　Thus,　the　pre-processed　concentric　quasi-plasmonic　corral　nanostructure　can　act　as　a　precursor　for　the　subsequent　SPPs　excitation　and　propagation　by　the　fs　laser　irradiation.　Using　this　technique,　polarization-dependent　semi-circular　periodic　surface　structures　on　silicon　can　be　found　by　the　irradiation　of　fs　laser　pulse　with　only　one　shot.　This　research　provides　an　additional　freedom　for　the　laser　induced　periodic　surface　structure　(LIPSS)　modulation　based　on　the　modulation　of　SPPs　excitation　and　propagation,　which　plays　an　important　role　in　the　formation　of　LIPSS.