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Anti-nutrient reduction and nutrient retention capacity of fermentation, germination and combined germination-fermentation in legume processing

Doris I. Anaemene, Grace Fadupin

2022Applied Food Research50 citationsDOIOpen Access PDF

Abstract

Research has proven that the processing of legumes improves nutritional value. However, the extent of anti-nutrient reduction and nutrient retention of combined processing methods compared to single processing methods has not been extensively studied. Therefore, this study investigated the anti-nutrient reduction and nutrient retention potentials of fermentation, germination and combined germination/fermentation in pigeon pea flour. Pigeon pea seeds were naturally fermented, germinated, and further fermented for 24 and 48 h separately. The processed flour was analyzed for nutrients and anti-nutrients composition. Ranges of phytate, tannin and hemagglutinin contents of raw and processed pigeon pea flour were 97–1235 mg/100 g, 49–304 mg/100 g and 18.69–59.29 µg/mg, respectively. Fermentation (96%) and germination (67%) reduced significantly more anti-nutrients compared to the combined processes (42%). Calcium content of raw pigeon pea sample (22.93 mg/100 g) increased significantly with fermentation (56%), germination-48 h fermentation (16%) and germination (11%). Iron content (18.88 mg/100g) decreased significantly in germinated (7%) and germinated-48 h fermented (5%) samples. The treatments had significant (p < 0.05) negative effects on zinc and Vitamin A levels by 9–23% and 5–17%, respectively. Fermentation was effective in the processing of pigeon pea. However, enrichment of fermented pigeon pea flour with zinc and Vitamin A is recommended.

Topics & Concepts

GerminationFermentationNutrientFood scienceTanninLegumeChemistryBiologyAgronomyOrganic chemistryPhytase and its ApplicationsProteins in Food SystemsProtein Hydrolysis and Bioactive Peptides
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