Abstract
Brassica oleracea var. botrytis or cauliflower is enjoyed by many around the world. However, its nutrient-rich leaves are commonly discarded; its nutrient-rich leaves are thrown away, and we waste food and miss out on edible resources. This study looked at the nutritional and antinutritional profile of cauliflower leaves after boiling, blanching, or fermentation. It also looked at their potential to boost nutrients in wheat bread. The processed leaves were dried, powdered, and mixed with wheat flour at levels of 1%-9% to make bread. The bread samples were tested for nutritional content, antinutrients, functional properties, and taste. Environmental impact was estimated by comparing water and carbon footprint. Fermentation improved the nutritional quality of cauliflower leaf powder (CLP), increased mineral content and energy, and decreased antinutrients. This was done without affecting protein and fiber content. Adding CLP to bread increased protein and fiber content and enhanced iron and zinc bioavailability. Sensory acceptability was good up to 5% substitution. Partial replacement of wheat flour with CLP also gave environmental benefits by reducing water use and carbon emissions. These results show that CLP is a functional, climate-friendly, and nutrient-rich ingredient for bread production. It's a practical solution to postharvest loss and dietary issues and also highlights the importance of ensuring that nutritional improvements are acceptable to consumers.