Compositional and functional changes in Acacia tenuissima seeds due to processing

The chemical, functional, anti-nutritional, and antioxidant composition of raw and roasted Acacia tenuissima seeds were determined to evaluate the impact of heat processing. The raw seeds were relatively high in protein (25.2 %), fat (10.3 %) and crude fiber (13.2 %), potassium (760 mg/100 g), magnesium (111 mg/100 g) and calcium (66.5 mg/100 g). Linolenic (34 %), margaric acid (24 %) and oleic acid (16 %) were the notable fatty acids present in the raw seeds. The proximate and fatty acid composition of A. tenuissima were not significantly impacted by roasting. Acacia tenuissima flour had excellent foaming capacity, foaming stability and water solubility making it a potential functional ingredient in the baking industry. Anti-nutrients were present in the raw seeds but at low quantities (trypsin inhibitor activity: 0.22 TIU/g, saponin: 2.29 %) while the antioxidant activity was high at 94 % compared to other Acacia species. Only the water solubility and trypsin inhibitor activity of A. tenuissima decreased significantly after roasting. Roasting had no significant impact on the seed constituents and their properties except for water solubility, and trypsin inhibitor activity which decreased, making it an ideal ingredient to be used in baked products.