Tomato Seed ( Solanum lycopersicum ) Meal Derived From Agrifood Waste as Functional Ingredient: Nutritional Value, Antioxidant and Antimicrobial Activities, and Functional Properties

Agrifood wastes derived from fruits and vegetables are a major source of valuable bioactive compounds. They are therefore a potential functional ingredient that can be used for improving the physicochemical, and sensory, properties; health benefits; and shelf life of food. This study was aimed at evaluating the antioxidant and antimicrobial potential of tomato seed ( Solanum lycopersicum ) meal derived from agrifood waste to be used as a functional ingredient for food preservation. To this end, proximate composition, bioactive compounds, antioxidant activity, antimicrobial ability, and functional properties were evaluated using relevant methods. The seeds are the most nutrient‐rich part of the tomato. They contain major macronutrients such as proteins (29.97%, dw), lipids (28.32%, dw), carbohydrates (17.19%, dw), and dietary fibers (20.93%, dw). They are rich in minerals (3.57%, dw), and bioactive molecules include total phenolic (4.8 mg/100 g) and carotenoids (with 43.65 μ g/g for lycopene and 23.62 μ g/g for β ‐carotene). Owing to their content of biomolecules, tomato seed meal extracts inhibited the growth of certain food‐borne pathogens and food spoilage microorganisms with inhibition diameters of up to 25 cm. Methanolic extracts of these meals showed significant antioxidant activity (25.03% inhibition percentage of diphenyl‐picryl‐hydrazyl). Our findings highlight the importance of making better valorization of tomato seeds. Tomato seed meal has interesting potential as a functional ingredient, capable of improving the physicochemical properties, enriching the nutritional quality, and extending the shelf life of foods.