DNA Fingerprinting of Seeded Bermudagrass Cultivars

Bermudagrasses ( Cynodon spp.) are important for turf and forage in temperate and tropical climates, with cultivars historically propagated clonally. Over the past two decades the number of seed‐propagated commercial cultivars has dramatically increased, but information is lacking on the extent of the genetic diversity among these new cultivars. Accordingly, this research was undertaken to assess the genetic relatedness of 17 seed‐propagated turf‐bermudagrass cultivars using DNA amplification fingerprinting (DAF). Four DAF and four Minihairpin‐DAF (MHP‐DAF) primers were used in this study. The DAF and MHP‐DAF primers amplified 90 and 131 amplicons, respectively. A total of 13 out of the 17 cultivars were practically indistinguishable using the DAF primers with an average similarity [similarity coefficient (SC)] of 0.982 while the MHP‐DAF primers distinguished all cultivars readily. Results from the DAF and MHP‐DAF analysis indicated that 14 out of the 17 cultivars were related to Arizona common germplasm with average SC of 0.833 in the MHP‐DAF analysis. Arizona common germplasm is naturalized to the Colorado River Valley production areas of Arizona and California. The three most distinct cultivars—‘Princess 77’, ‘Yukon’, and ‘SWI‐11’—had an average SC of 0.668. The most distinct cultivar was Yukon with an average SC of 0.604. Yukon showed 59 DNA signatures not observed in the other cultivars studied with DAF and MHP‐DAF. These results indicated that a majority of seeded‐type bermudagrasses developed over the past two decades depend on a narrow genetic base and that several recent cultivars are markedly genetically distinct, indicating a recent and significant broadening of the germplasm.