Superconductivity is commonly expected to be insignificant in optics, where photon energy is orders of magnitude higher than the binding energy of the Cooper pairs, the superconducting charge carriers. By studying optical range plasmonic response of niobium, a conventional low-temperature superconductor, we investigate the temperature-induced changes in the optical properties of a nanostructured superconducting metamaterial as well as unstructured superconductor film. We demonstrate that both the position and the strength of niobium metamaterial resonances exhibit a pronounced dependence on temperature down to a few Kelvin, with a sharp change in the behavior around the superconducting transition temperature at 9K. Equivalently dramatic changes are also observed in the temperature-dependence of the dielectric constant of unstructured niobium film measured in a separate experiment. Our results show that superconductivity does affect plasmonic behavior at optical frequencies and may play a role in forming the optical dielectric response near the superconducting transition.