Abstract
Eugenia (Myrtaceae) is a highly diverse genus of fruit trees native to the Amazon with remarkable potential for food, nutritional, and biotechnological applications. This review synthesizes the current knowledge on morphofunctional traits, ecological strategies, and genetic resources that make several Eugenia species promising candidates for domestication and cultivation. Its main attributes include shrubby growth habits, racemose inflorescences, nutrient-rich fruits with few seeds, recalcitrant yet viable propagules, and wide distribution across the Americas. Their molecular and phytochemical diversity suggests applications in food systems, pharmaceuticals, and bioindustries. However, key challenges persist, such as irregular fruiting, postharvest perishability, limited germplasm conservation in degraded areas, prospecting biotechnological applications such as antioxidants, and insufficient genomic characterization. By addressing these gaps, Eugenia domestication could contribute to food security, sustainable agriculture, and the bioeconomy of remote Amazonian regions, thereby positioning this genus as a strategic resource in the face of biodiversity loss.