Lectins, phytic acid and condensed tannins exert major antinutritional effects in common bean when grains are consumed as a staple food. In addition, phaseolin, i.e., the major storage protein of the bean seed, is marginally digested when introduced in the raw form. Our breeding target was to adjust the nutrient/antinutrient balance of the bean seed for obtaining a plant food with improved nutritional value for human consumption. In this study, the seeds of twelve phytohaemagglutinin-E-free bean lines carrying the mutations low phytic acid, phytohaemagglutinin-L-free, α-Amylase inhibitors-free, phaseolin-free, and reduced amount of condensed tannins, introgressed and differently combined in seven genetic groups, were analyzed for their nutrient composition. Inedited characteristics, such as a strong positive correlation (+0.839**) between the genetic combination “Absence of phaseolin + Presence of the α-Amylase Inhibitors” and the amount of “accumulated iron and zinc”, were detected. Three lines carrying this genetic combination showed a much higher iron content than the baseline (+22.4%) and one of them in particular, achieved high level (+29.1%; 91.37 µg g−1) without any specific breeding intervention. If confirmed by scientific verification, the association of these genetic traits might be usefully exploited for raising iron and zinc seed content in a bean biofortification breeding program.
Cultivars specifically adapted to organic agriculture are lacking in most crops, and tomato is no exception. Evolutionary-participatory breeding (EPB) combines the adaptive ability of evolutionary populations with farmers’ selection, thus representing a cost-effective strategy for the development of novel organic heterogeneous material, as introduced by the European regulation on organic agriculture (EU) 2018/848. An F4 ox-heart tomato composite cross population (CCP), derived from a half-diallel cross of four local varieties chosen for their superior performance under organic conditions, was submitted to both natural and farmers’ selection on three organic farms and at one research station in Italy. During field days held at each location before harvest, farmers visually scored 400 plants, all of which were carried forward to develop the natural selection (NS) population, while the 20 best ranking plants were chosen to develop the farmers’ selection (FS). After two cycles of selection (2018 and 2019), one NS and one FS population were obtained at each location. After this two-year selection process, in 2020, the eight populations (four NS and four FS), were evaluated in a randomised complete block trial in the four locations of selection and evolution. Four local varieties chosen by farmers and two modern varieties (one open pollinated variety and one F1 hybrid) were added as controls. The ANOVA showed significant differences among entries for all traits. Entry-by-location interactions were larger than the genetic effect for the overall evaluation, yield at first harvest, total yield and percentage of marketable yield. This confirms the importance of decentralising selection when seeking to develop specifically adapted varieties and/or populations. Evidence was observed of the effectiveness of participatory selection for improving the yield at first harvest, with a slight trade-off effect for the total yield and plant vigour.
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