You are not currently logged in.
Access your personal account or get JSTOR access through your library or other institution:
An Isotopic Approach to Measuring Nitrogen Balance in Caribou
DAVID D. GUSTINE, PERRY S. BARBOZA, LAYNE G. ADAMS, RICHARD G. FARNELL and KATHERINE L. PARKER
The Journal of Wildlife Management
Vol. 75, No. 1 (January 2011), pp. 178-188
Stable URL: http://www.jstor.org/stable/41418019
Page Count: 11
Preview not available
Preview not available
Nutritional restrictions in winter may reduce the availability of protein for reproduction and survival in northern ungulates. We refined a technique that uses recently voided excreta on snow to assess protein status in wild caribou (Rangifer tarandus) in late winter. Our study was the first application of this non-invasive, isotopic approach to assess protein status of wild caribou by determining dietary and endogenous contributions of nitrogen (N) to urinary urea. We used isotopic ratios of N (8¹⁵N) in urine and fecal samples to estimate the proportion of urea N derived from body N (p- UN ) in pregnant, adult females of the Chisana Herd, a small population that ranged across the Alaska-Yukon border. We took advantage of a predator-exclosure project to examine N status of penned caribou in April 2006. Lichens were the primary forage (>40%) consumed by caribou in the pen and 8¹⁵N of fiber tracked the major forages in their diets. The 8¹⁵N of urinary urea for females in the pen was depleted relative (–1.3 = 1.0 parts per thousand [% o ], $\bar x$ ± SD) to the 8¹⁵N of body N (2.7 ± 0.7% o ). A similar proportion of animals in the exclosure lost core body mass (excluding estimates of fetal and uterine tissues; 55%) and body protein (estimated by isotope ratios; 54%). This noninvasive technique could be applied at various spatial and temporal scales to assess trends in protein status of free-ranging populations of northern ungulates. Intra-and inter-annual estimates of protein status could help managers monitor effects of foraging conditions on nutritional constraints in ungulates, increase the efficiency and efficacy of management actions, and help prepare stakeholders for potential changes in population trends.
The Journal of Wildlife Management © 2011 Wiley