Different Temperature Storage Conditions and Packaging Types Affects Colour Parameters, Amino Acid Composition, Microbial Contamination and Key Bioactive Molecules of <em>Moringa oleifera</em> Lam. Powder

Moringa oleifera, renowned for its medicinal potency, was investigated to discern the impact of varying storage temperatures (4°C, 25°C, 40°C) and light conditions (dark and light) on the quality attributes of its leaf powder during a 12-month storage period. The study encompassed comprehensive analyses of phytochemical levels, nutritional properties, microbial contamination, and colour changes in response to these diverse storage environments. Results highlighted distinct variations in phytochemical composition and nutritional content based on the interplay between temperature and light conditions. Lower temperatures, particularly 4°C, in both dark and light environments, demonstrated superior preservation of bioactive compounds and nutritional value. Conversely, higher temperatures (25°C, 40°C) coupled with light exposure hastened degradation, notably impacting phytochemical stability. Microbial proliferation was evident in elevated temperatures, indicating potential safety risks. Further observations unveiled significant colour changes within the leaf powder, notably influenced by storage temperatures and light exposure. Lower temperatures exhibited diminished colour alterations compared to higher temperatures, underscoring their impact on product quality. The study underscores the critical role of controlled storage conditions, especially cooler temperatures and reduced light exposure, in maintaining the potency and quality of M. oleifera leaf powder. Recommendations advocate for stringent temperature control (preferably 4°C) and light shielding during storage to uphold phytochemical stability and mitigate microbial proliferation. While this study provides valuable insights into temperature-mediated alterations, future research avenues should delve deeper into elucidating the underlying mechanisms of colour changes and long-term temperature effects on phytochemical and nutritional integrity.