Hybridization with Fagopyrum cymosum Meisn. as a way to make cultivated Tartary buckwheat (F. tataricum Gaertn.) with grain characteristics typical for common buckwheat (F. esculentum Moench.).

Abstract

Compared to common buckwheat (F. esculentum), Tartary buckwheat (F. tataricum) is very polymorphic in the type of seeds, but a seed type which is typical for F. esculentum, i.e. triangular seeds with flat sides and clear ribs, has been not found among the polymorphism. However, such seed type is typical for wild species F. cymosum which produces fertile hybrids in crosses with F. tataricum. Embryo rescue based interspecific cross F. esculentum × F. cymosum allowed reveal functional allelism of the genes determining the similar morphs of these species' seeds, i.e. the seed type resulted from mutation(s) at same gene. The gene can be assigned as TAN (triangular). Variation for the seed shell thickness among recessives for the TAN carrying about 12% of F. tataricum genome, together with the shell thickness of a seed from the F₁ hybrid F. esculentum × F. cymosum compared to ones of the parents, suggests there are some genes influencing seed shell thickness. Also, it was supported by analyses of seeds characteristics of Tartary-based forms with some share of F. cymosum genetic material. In addition, cross F. tataricum × F. cymosum looks like an effective tool to increase 1000-seed weight of Tartary buckwheat-based breeding material.