Conservation and management of endemic species may increasingly involve efforts to prevent hybridization with other species. Native westslope cutthroat trout (Oncorhynchus clarkii lewisi) management in western North America is based largely on admixture estimates with introduced rainbow trout (O. mykiss), with the highest conservation priority given to cutthroat populations that do not exhibit admixture. This study examined the hypothesis that such ancestry quotients are dependent upon the genetic background of reference rainbow trout populations. We used 10 microsatellite loci to estimate admixture within westslope cutthroat trout collected from 39 sites from Alberta, Canada, using three genetically distinct (pairwise FST = 0.100–0.281) rainbow trout genetic backgrounds: a wild (introduced) population from Alberta, two wild (native) populations from British Columbia, and a present-day hatchery broodstock line. Ancestry quotients were significantly impacted by genetic background, whereby the extent of admixture was highest with locally introduced (wild, naturalized) rainbow trout lines and lowest with the hatchery lines. Our results suggest that future studies ought to explore the possibility that local adaptation or drift in introduced rainbow trout populations may contribute to decreased reproductive isolation with geographically proximal cutthroat trout populations.