Lentil (Lens culinaris Medik.) landrace of Zaer had been on-farm conserved thanks to ingenious farmers' practices. Farmers had selected, produced and maintained their landrace to satisfy their food security, ecological and economical needs. However, the increase of drought incidence had encouraged farmers to gradual abandonment of their landrace for L 56 improved variety to increase productivity and incomes. The landrace is therefore threatened for genetic drift by climatic change, varieties innovation and economic development. The main objective of this study is to strengthen the on farm conservation of lentil landrace of Zaer through its promotion under a distinctive sign of origin and quality in accordance with national agricultural policy. Thus, the investigation is focused on analyzing (i) farmers' knowledge through field survey of 41 farmers randomly chosen across Zaer region, (ii) genetic structure of landrace as meta-population and by four geographical locations using biochemical markers (SDS-PAGE), and (iii) genetic relationship between the landrace and L 56 improved variety cultivated in Zaer. Data analysis had provide us with valuable information's on seed management according to climate and farmers' category, genetic structure of landrace as meta-population which was shaped by both natural pressures and human practices, and on seeds flow between landrace and L 56 variety that might be linked to seed acquisition, spatial organization of production field or to post-harvest seed management.
Over recent years, quality has become an important commercial issue for durum wheat breeders. Modern breeding methods are most efficient for producing and supplying the best quality raw materials to the pasta industry. Here we assessed the effectiveness of molecular marker-assisted selection of quality traits in durum wheat. To this end, DNA and quality trait markers were jointly used to analyze quality-related traits in a durum wheat collection. A total of 132 durum wheat (Triticum turgidum ssp. durum) Mediterranean landraces, international lines, and Moroccan cultivars were analyzed for seven important qualityrelated traits including thousand-kernel weight (TKW), test weight (TW), gluten strength, yellow pigment (YP), and grain protein content (GPC). Additionally, 18 simple sequence repeat (SSR) markers previously reported to be associated with different quality traits were analyzed. Of these, 14 (78%) were polymorphic and four were monomorphic. There were between two and seven alleles per locus, with an average of four alleles per locus. The average phenotypic variation value (R 2 ) ranged from 2.81 to 20.43%. Association analysis identified nine markers significantly associated with TKW, TW, and YP, followed by eight markers associated with GPC, six markers associated with yellow index b, four markers associated with brightness L, and three markers associated with SDS-sedimentation volume. This study highlights the efficiency of SSR technology, which holds promise for a wide range of applications in marker-assisted wheat breeding programs.
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