Toward better understanding of postharvest deterioration: biochemical changes in stored cassava (Manihot esculenta Crantz) roots

Food losses can occur during production, postharvest, and processing stages in the supply chain. With the onset of worldwide food shortages, interest in reducing postharvest losses in cassava has been increasing. In this research, the main goal was to evaluate biochemical changes and identify the me...

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Bibliographic Details
Main Author: Uarrota, Virgílio Gavicho (author)
Other Authors: Nunes, Eduardo da Costa (author), Peruch, Luiz Augusto Martins (author), Neubert, Enilto de Oliveira (author), Coelho, Bianca (author), Moresco, Rodolfo (author), Garcia Domínguez, Moralba (author), Sánchez, Teresa (author), Luna Meléndez, Jorge Luis (author), Dufour, Dominique (author), Ceballos, Hernan (author), Becerra Lopez-Lavalle, Luis Augusto (author), Hershey, Clair (author), Rocha, Miguel (author), Maraschin, Marcelo (author)
Format: article
Language:eng
Published: 2016
Subjects:
Cassava
Deterioration
Organic acids
Polyphenol oxidase
Scopoletin
Soluble sugars
Science & Technology
Online Access:http://hdl.handle.net/1822/41788
Country:Portugal
Oai:oai:repositorium.sdum.uminho.pt:1822/41788
Description
Summary:Food losses can occur during production, postharvest, and processing stages in the supply chain. With the onset of worldwide food shortages, interest in reducing postharvest losses in cassava has been increasing. In this research, the main goal was to evaluate biochemical changes and identify the metabolites involved in the deterioration of cassava roots. We found that high levels of ascorbic acid (AsA), polyphenol oxidase (PPO), dry matter, and proteins are correlated with overall lower rates of deterioration. On the other hand, soluble sugars such as glucose and fructose, as well as organic acids, mainly, succinic acid, seem to be upregulated during storage and may play a role in the deterioration of cassava roots. Cultivar Branco (BRA) was most resilient to postharvest physiological deterioration (PPD), while Oriental (ORI) was the most susceptible. Our findings suggest that PPO, AsA, and proteins may play a distinct role in PPD delay.

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