The life and death of a galaxy is inextricably linked to the gaseous supply of its circumgalactic medium (CGM). Using the Hubble Space Telescope’s Cosmic Origins Spectrograph (HST/COS), we carry out quasar spectroscopy to probe this diffuse, extended gas. To characterize these galaxies, we supplement COS UV spectroscopy with optical spectroscopy from the Gemini North and South Telescopes. In total, 2,207 galaxy spectra were collected, all within 2.5 arcminutes of the quasar that have COS spectra. Of this initial group, 1,607 galaxies were classified as star-forming, elliptical, or some combination of the two based on the detected spectral lines. This study focuses on metal-line transitions in both galaxy and quasar spectra which track billions of years of supernova metal pollution. Absorption signatures from Ionized metals trace the physical conditions within the CGM of galaxies at the same redshift (+/- 500 km s-1) as the metal absorbers. We tie the metallicity of the CGM based on absorption-line measurements to the metal content of the host galaxies, as measured using strong emission lines. To date, no correlation exists between galactic metallicity and the metal content of the CGM. This finding indicates that the feedback processes within the CGM are complex and varied.