ABSTRACT: Intestinal immunity provides defense against enteric pathogens, mediates symbiotic relationships with the resident microbiota, and provides tolerance to food antigens, safeguarding critical nutrient absorption and barrier functions of this mucosal tissue. Despite the large abundance of tissue resident activated T cells, how T cell immunity contributes to these various roles remains poorly understood. Here we describe a previously uncharacterized dominant T-bet expressing Tr1 T cell population in the small intestine lamina propria present at homeostasis. Importantly, this IL-10 secreting CD4^+^T-bet^+^ T cell population appears in the small intestine at the time of weaning independently of the resident microbiota, presenting similar accumulation, functional capacity, and TCR repertoire in germ free conditions. Instead, small intestinal T-bet^+^ Tr1 T cells respond to dietary signals driving their accumulation, suppressive program, and clonal selection; and depend on cDC1s, IL-27 signaling, and T-bet, but not IL-12. Altogether, this work uncovers a previously unappreciated dominant player in homeostatic small intestinal immunity with the potential to play critical suppressive roles in oral tolerance to dietary antigens, raising important implications for the understanding of food allergy and celiac disease.