Abstract
The Iberian Peninsula is considered as a secondary center of diversity for the common bean, and the Spanish National Plant Genetic Resources Centre’s germplasm bank holds more than 3,000 Spanish accessions of Phaseolus vulgaris L. from which a core collection of 202 landraces has been selected. In order to encourage the use of this abundant resource, this study aimed to characterize genetic diversity, by measuring chemical composition in these core collections (in both the seed coat and cotyledon) using previously developed near infrared spectroscopy models. Crucially, these landraces in question all originated under similar agroclimatic conditions, allowing these field trials to be conducted in a single location without significantly altering the agronomic behavior of individual accessions. Using previously reported data, we also explored the correlations between chemical composition and culinary/sensory traits, as well as possible associations between chemical composition and seed coat color or gene pool (Middle American or Andean). The general Mahalanobis distance was >3 in only 11 of 1,950 estimations, confirming the robustness of the regression models previously developed. Variability was greater in seed coat than in cotyledon compounds and ranges for all compounds were wide: ash 34–94 g/kg, Ca 5–31 g/kg, dietary fiber 554–911 g/kg, Mg 2–4.4 g/kg, uronic acid 95–155 g/kg, protein 192–304 g/kg, starch 339–446 g/kg, amylose 208–291 g/kg, amylopectin 333–482 g/kg, and apparent amylose 241–332 g/kg. Accessions with white seed coats tended to be richer in ash, dietary fiber, uronic acid, and Ca, and accessions of the Middle American gene pool had on average 65% more Ca than the Andean gene pool. Strong genetic correlations were not identified between chemical and culinary/sensory traits. This is particularly positive with regards to plant breeding, as it means that synchronic improvement of nutritional composition and sensory traits is possible. The genetic diversity of chemical composition described in the Spanish core collection of beans therefore represents a promising opportunity to develop cultivars with superior nutritional profiles.
Highlights
Dry beans (Phaseolus vulgaris L.) are an extremely important aliment, representing the main source of dietary protein for humans in several world regions and contributing greatly to diet with starch, fiber, vitamins, and minerals (Hayat et al, 2014)
11 from a total of 1950 estimations presented a global Mahalanobis distances (GH) value greater than 3. These values corresponded to amylopectin, and in each case were not considered in the subsequent computations
The mean GH values for individual traits all scored below GH < 1, highlighting the robustness of our data regarding the different chemical components in both the seed coat and cotyledon (Shenk et al, 1997)
Summary
Dry beans (Phaseolus vulgaris L.) are an extremely important aliment, representing the main source of dietary protein for humans in several world regions and contributing greatly to diet with starch, fiber, vitamins, and minerals (Hayat et al, 2014). International organizations and specialists recommend increasing the consumption of beans and other legumes to fulfill our nutritional needs and decrease inputs of food production (Leterme, 2002; WHO, 2015; FAO, 2016; De Ron et al, 2017; McDermott and Wyatt, 2017). To promote this change in diet, apart from optimizing crop yields, we need to identify palatable varieties of beans and legumes that are both tied to our gastronomic cultures and provide the maximum amount of nutrients (especially protein). Nutritional and sensory traits have been added to the ideotypes of these crops (Vaz Patto et al, 2015)
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