Evaluating genetic variation and relationships among two bromegrass species and their hybrid using RAPD and AFLP markers

Abstract

The two most widely grown bromegrass species in North America are smooth bromegrass (Bromus inermis Leyss.), a hay type grass, and meadow bromegrass (Bromus riparius Rehmann), a pasture type grass. Recently a hybrid bromegrass population between the two species has been produced as a dual-purpose hay-pasture grass. Molecular markers have the potential to improve selection procedures to enhance bromegrass breeding. The objective of this study was to use RAPD and AFLP markers to determine genetic relationships and variations among bromegrass populations. Forty-three RAPD markers from 21 primers and 83 AFLP markers from seven primer combinations were used. Both marker types were able to group the individuals into their respective populations. The relationships among the individuals within each of the populations were not similar between the two marker types. Analysis of molecular variance (AMOVA) detected greater within-population variation than among-population variation for both marker types. The highest variation was observed in the hybrid population followed by meadow and then smooth bromegrass. The inter-population distance from both markers indicated that the highest genetic distance was between meadow and smooth bromegrass and lowest between smooth and hybrid bromegrass, which reflect the breeding history of the hybrid population. This study showed that both markers are capable of differentiating bromegrass genotypes into their respective populations, detecting genetic variation and relationships of the populations. Results of this study suggest that these two markers can be used in the future to enhance the current breeding practices in bromegrass, however, AFLP markers would be the marker of choice due to the high number of polymorphic markers.