Validation of the two-endpoint mixing model to determine diet composition from 13C12C of breath

PETERSON, M.R.*; HATCH, K.A.; Brigham Young University; Brigham Young University: Validation of the two-endpoint mixing model to determine diet composition from 13C/12C of breath

Stable isotope ratios of carbon are frequently used to determine dietary contribution of two isotopically distinct food sources. While the 13C/12C ratios of specific tissues are often used for such estimates, several studies have indicated that the δ13C value of exhaled CO2 more closely represents that of diet than do the δ13C values of most tissues. While a two-endpoint mixing model is usually used to estimate dietary contribution of isotopically different food sources, the assumptions underlying that model and the ability of that model to accurately determine dietary contribution frequently go untested. We tested the ability of the two-endpoint mixing model to accurately determine the percent of C3 and C4 grains eaten by white-winged doves (Zenaida asiatica) from the δ13C value of exhaled CO2. We used six white winged doves. They were fed varied weights of C3 (wheat, Triticum aestivum) and C4 (millet, Panicum miliaceum subsp. miliaceum) grains for 30 minutes daily. The remaining grain was separated and weighed to determine the amount of each grain that was eaten. We took breath samples 3, 5, and 7 hours after feeding. We then compared the wheat/millet ratio eaten by the doves as determined by weight to the wheat/millet ratio eaten by the doves as determined by the two-point mixing model.

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