Abstract
Quinoa (Chenopodium quinoa Willd.) has recently received increasing interest from both scientists and consumers due to its suitability in gluten-free diets, its sustainability, and its claimed superfood qualities. The aim of this paper is to systematically review up-to-date studies on quinoa functional components and anti-nutritional factors, in order to define a baseline for food scientists approaching the investigation of quinoa phytochemicals and providing evidence for the identification of healthier sustainable foods. State of the art evaluations of phytochemical contents in quinoa seeds were obtained. It emerged that phenolic compounds are the most investigated functional components, and spectrophotometric methods have been mostly applied, despite the fact that they do not provide information about single components. Saponins are the most studied among anti-nutritional factors. Betalains, tannins, and phytoecdysteroids have been poorly explored. Information on factors affecting the phytochemical content at harvesting, such as quinoa ecotypes, crop geographical location and growing conditions, are not always available. A comprehensive characterization, encompassing several classes of functional components and anti-nutritional factors, is mainly available for quinoa varieties from South America. However, defining a standard of quality for quinoa seeds is still challenging and requires a harmonization of the analytical approaches, among others.
Highlights
The 2030 Agenda for Sustainable Development of the United Nations highlighted the need for devising sustainable food systems to deliver healthy diets for a growing population [1]
The aim of this paper is to systematically review up-to-date studies on the content of functional components and anti-nutritional factors in quinoa seeds, so as to obtain a baseline for food scientists approaching the investigation of quinoa phytochemicals and providing evidence for the identification of healthier sustainable foods
The analysis of the studies included in this systematic review showed that phenolic compounds are the most investigated functional components in quinoa seeds (Figure 2)
Summary
The 2030 Agenda for Sustainable Development of the United Nations highlighted the need for devising sustainable food systems to deliver healthy diets for a growing population [1]. This means giving priority to crops that guarantee an improved efficiency in the use of natural resources and contribute to meeting the requirements of a healthy diet. It is resilient to agro-ecological extremes, in terms of soils, rainfall, temperature, and altitude It can grow from sea level up to 4500 m above sea level, and can adapt to frost, drought and salinity [2]. It is mainly grown in Peru, Bolivia, Ecuador, Argentina, Colombia and Chile [3], where it has been used as a staple food for centuries
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