In recent years, metal nanostructures have attracted great research interests in a wide range of fields including nanophotonic devices, biosensors, etc. due to their remarkable optical properties related to localized surface plasmon resonance (LSPR). When metal nanostructures are located on a dielectric substrate, the strong substrate-mediated effect induces distinct shifts of LSPR peaks and modification of resonance modes. In this article, the substratemediated LSPR modes of gold nanoparticles and nanowires are investigated. The resonance spectra are obtained by dark-field optical microscopy and the resonance modes are analyzed by numerical simulations based on the finitedifference time-domain method. For a spherical gold nanoparticle on a dielectric substrate, the plasmon dipolar and quadrupolar modes can be observed due to the substrate-mediated coupling effect. For the single gold nanowire, only substrate-mediated dipolar coupling modes are observed.