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Multi-Chemical Profiling of Strawberry as a Traceability Tool to Investigate the Effect of Cultivar and Cultivation Conditions

Raúl González‐Domínguez, Ana Sayago, Ikram Akhatou, Ángeles Fernández‐Recamales

2020Foods27 citationsDOIOpen Access PDF

Abstract

The chemical composition of foods is tightly regulated by multiple genotypic and agronomic factors, which can thus serve as potential descriptors for traceability and authentication purposes. In the present work, we performed a multi-chemical characterization of strawberry fruits from five varieties (Aromas, Camarosa, Diamante, Medina, and Ventana) grown in two cultivation systems (open/closed soilless systems) during two consecutive campaigns with different climatic conditions (rainfall and temperature). For this purpose, we analyzed multiple components closely related to the sensory and health characteristics of strawberry, including sugars, organic acids, phenolic compounds, and essential and non-essential mineral elements, and various complementary statistical approaches were applied for selecting chemical descriptors of cultivar and agronomic conditions. Anthocyanins, phenolic acids, sucrose, and malic acid were found to be the most discriminant variables among cultivars, while climatic conditions and the cultivation system were behind changes in polyphenol contents. These results thus demonstrate the utility of combining multi-chemical profiling approaches with advanced chemometric tools in food traceability research.

Topics & Concepts

CultivarMalic acidTraceabilityPolyphenolSugarFood scienceProfiling (computer programming)BiotechnologyChemistryHorticultureBiologyMathematicsComputer scienceCitric acidStatisticsAntioxidantOperating systemBiochemistryMeat and Animal Product QualityIdentification and Quantification in FoodFood Supply Chain Traceability
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