Folate biofortification strategy by elicitation in kale baby leaves

Introduction Humans cannot synthesize folates, so they must be acquired through dietary sources, with plants serving as a primary source. To enhance folate levels in vegetables, this study investigated the pre-harvest application of elicitors on kale ('Cavolo Nero') baby leaves under greenhouse-autumn conditions in Southern Italy.Methods Phenylalanine (0.37 & micro;M) and salicylic acid (250 & micro;M) were applied three times and compared to a water control. Folate content, alongside biometric traits (yield, leaf area and number, dry matter), bio-physiological parameters (chlorophyll content; measurements of gas exchange and chlorophyll a fluorescence), and compositional properties (nitrate, vitamin C, phenols, flavonoids, carotenoids, antioxidant capacity) were determined.Results The treatments maintained yield (1.0 kg m-2, on average), while both elicitors increased the folate concentration (1,283 & micro;g 100 g-1 d.w., on average) compared to the control (1,203 & micro;g 100 g-1 d.w.). Salicylic acid application enhanced antioxidant compounds (vitamin C, carotenoids) without modifying antioxidant capacity and nitrate levels. In contrast, phenylalanine decreased antioxidant compounds (phenols, vitamin C) along with antioxidant capacity, and enhanced nitrate level (+56%).Discussion Considering the limited literature available on this topic, the present work provides an important first step toward producing folate-biofortified baby leaf vegetables with enhanced beneficial traits.