Abstract:To study the effect of graziery on the aquatic organisms community in the Zoige Apline wetland, three sites named as control group A, impact group B I and impact group C II were set, and the stable isotope technique, multidimensional scaling and variance analysis methods were applied to compare the δ13C and δ15N values of aquatic organisms among the impact groups and control group.The results showed that the carbon and nitrogen stable isotope were-26.39‰~-21.17‰ and 3.68‰~6.61‰ for POM (the main component of particle organic matter is algae),-25.69‰~-23.43‰ (δ13C) and 3.19‰~9.53‰ (δ15N) for zooplankton,-28.00‰~-22.30‰ (δ13C) and 5.19‰~9.27‰ (δ15N) for snail (Physa fontinalis),-28.57‰~-26.87‰ (δ13C) and 7.36‰~8.06‰ (δ15N) for shrimp (gammarid),-30.83‰~-27.01‰ (δ13C) and 6.41‰~10.02‰ (δ15N) for fish (Triplophysa sp),-26.89‰~-25.95‰ (δ13C) and 10.24‰~10.89‰ (δ15N) for fish (Schizopygopsis pylzovi), of which the δ13C value was changed very little in POM group and zooplankton group, while their δ15N values were significantly different (P < 0.001). Therefore, the nitrogen stable isotope signature is sensitive enough to be used as an indicator for grazing interference in Zoige Apline wetland, and the POM and zooplankton was much better being the indicator species than other organisms (e.g. macroinvertebrate and fish) assessing the quality of environment. Moreover, our findings showed that the grazing had influenced the δ15N values of primary producer and zooplankton, as well as the top predator (fish). It suggested that the strengthen of husbandry management in Zoige Apline wetland, control of Grazing scale and the of animal waste had an important significance for the production of Zoige Apline wetland ecosystem.