A possible alternative to minimize the effects of salt and drought stress is the introduction of species tolerating these conditions with a good adaptability in terms of quantitative and qualitative yield. So quinoa (Chenopodium quinoa Willd.) cultivar Titicaca was grown in an open field trial in 2009 and 2010 to investigate the effects of salt and drought stress on quantitative and qualitative aspects of the yield. Treatments irrigated with well water (Q100, Q50 and Q25) and corresponding treatments irrigated with saline water (Q100S, Q50S and Q25S) with an electrical conductivity (ECw) of 22 dS m−1 were compared. Salt and drought stress in both years did not cause significant yield reduction, while the highest level of saline water resulted in higher mean seed weight and as a consequence the increase in fibre and total saponin content in quinoa seeds.
Quinoa is a pseudocereal from South America that has received increased interest around the world because it is a good source of different nutrients and rich in antioxidant compounds. Thus, this study has focused on the effects of different agronomic variables, such as irrigation and salinity, on the phenolic and saponin profiles of quinoa. It was observed that irrigation with 25% of full water restitution, with and without the addition of salt, was associated with increases in free phenolic compounds of 23.16 and 26.27%, respectively. In contrast, bound phenolic compounds were not affected by environmental stresses. Saponins decreased if samples were exposed to drought and saline regimens. In situations of severe water deficit, the saponins content decreased 45%, and 50% when a salt stress was added. The results suggest that irrigation and salinity may regulate the production of bioactive compounds in quinoa, influencing its nutritional and industrial values.
Chenopodium quinoa Willd. or ‘quinoa’ is a plant having many uses as a food. Importantly, it offers an alternative to normal cereals in coeliac diets because its seeds are gluten‐free. For this reason, it is worthwhile to determine the properties of quinoa and to evaluate the suitability of this crop for the south of Italy. At the CNR‐ISAFoM’s experimental station in Vitulazio (CE), a 2‐year (2006–2007) field trial under rain‐fed conditions was carried out to compare the two quinoa genotypes: KVLQ520Y (KV) and Regalona Baer (RB). Comparison was also made between two sowing dates for KV. The results showed that April was the best sowing time for quinoa in our typical Mediterranean region. Of the two genotypes, RB recorded better growth and productivity, apparently being more tolerant to abiotic stress (high temperatures associated with water stress). Chemical analyses reveal the potential of quinoa seed as a valuable ingredient in the preparation of cereal foods having improved nutritional characteristics.
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