Carnation genotypes and mutants developed using gamma irradiations were characterized using PCR based DNA markers (RAPD, ISSR and SSR) for designing future breeding strategies. RAPD markers showed 70.00 to 94.74 percent polymorphism among the genotypes and mutants whereas, for ISSR and SSR markers 83.33 to 94.44 and 66.67 to 87.50 percent polymorphism was recorded, signifying variability among different genotypes tested. UPGMA based analysis of cluster separated carnation genotypes and mutants into two discrete groups. RAPD, ISSR and SSR markers were subjected for comparative analysis like effective multiplex ratio, marker index, polymorphic information content, resolving power and gene flow wherein, highest EMR (13.00), MI (5.33) and Rp (70) values were found for ISSRs and maximum PIC value (0.63), gene flow (3.33) were found for SSR. The results clearly indicated the reproducibility of SSRs and their ability to detect variability among the genotypes and mutants. Significant level of genetic variation was depicted by AMOVA which suggested the usefulness of studies in carnation breeding and unique bands obtained could be utilized for varietal identification.