The food industry is bound to face challenges in the future, one of them being in finding ways to feed a growing population set to reach up to 9 billion people by 2050 while maintaining food quality, in the meads of resource limitations and sustainable use of them. In this outlook, minimizing mineral deficits in human diet should help prevent health diseases. Calcium is one of the most abundant minerals in human organisms. It performs both structural and signaling functions, and its deficits are associated with the development of osteoporosis and similar pathologies. Following this matter, the use of foliar applications in order to increase the amount of minerals in the edible part of plants, will result in unprocessed foods with additional value. At an orchard located in the west region of Portugal, seven foliar applications were used. The first two with two different products, calcium chloride and calcium nitrate, with three different concentrations each, and the other five applications used only calcium chloride, in higher concentrations. At harvest, with an XRF analyzer, an increase in calcium levels was found varying between 33 and 67 %. Additionally, using µ-EDXRF on pears subjected (biofortified) or not (control) to the biofortification itinerary, five zones were defined (between the core and epidermis), and the location of calcium was revealed to be prominent near the epidermis and core of pears. In conclusion, calcium levels increased in fruits after foliar application, prevailing in both external and core zones, enabling the production of functional foods.