The physical characteristics of the diet, including particle size, exert important role in animals diet usage. So, the current study aimed to evaluate the effect of diet granulometry on nutrients digestibility and metabolizability of energy in dogs. Eight adult Beagle dogs were distributed in a double latin square design (4 x 4), totaling eight replicates in time. The ingredients of diets were ground in sieves of: 0.8, 1.0, 1.2 and 1.5mm, and the diets particle size were expressed as geometric mean diameter (GMD): 468, 476, 499 and 588µm, respectively. Each experimental period was composed by five days for diet adaptation and five days of total feces collection. The correlation and regression analyses showed a negative relationship between GMD and coefficient of apparent digestibility (CAD) of crude protein (y=94.82-42.05x), acid ether extract (y=86.57-35.02x), nitrogen free-extract (y=102.48-48.42x) and metabolizable energy (y=3597.56-1697.00x). It was not observed effect of GMD on dry matter intake and dry matter CAD. There was lower fecal score with increasing GMD of foods. Therefore, the lowest particle size of food resulted in better use of nutrients and diet energy and production of drier feces by dogs.
digestibility; particle size; dogs nutrition