Do δ15N and δ13C values of feces reflect the isotopic composition of diets in small mammals?

Abstract

The stable isotope composition of carbon and nitrogen in feces can be a useful tool for reconstructing diet. To examine whether the isotopic composition of feces reflect those of diet, we determined the fractionation of 15N and 13C along the digestive tracts of several species of small mammals. There were significant differences in the δ15N values of digesta in different compartments of the gastrointestinal (GI) tract, with consistent enrichment of 15N in the stomach, intestine, and cecum, and the depletion of 15N in the colon (i.e., feces). Although feces had lower δ15N values than digesta in the cecum, feces of small mammals were significantly more enriched in 15N (by ~2.5‰) than diet. The mechanisms causing this enrichment in the GI tract may arise from the operation of different biochemical pathways within the different GI compartments. The stable carbon isotope composition of digesta in small mammals were similar along the GI tract, but the δ13C values of digesta and feces were significantly lower than reported previously for large ungulates (–3.5‰ vs. –0.5‰). The δ15N and δ13C values of feces did not directly reflect the isotopic compositions of these mammals’ diet. Our data offer evidence for variations in isotopic discrimination effects. This variation can probably be ascribed to metabolism of different body sizes of mammals and the complexities linked with digestive physiology of herbivores.