Clipping defoliation and nitrogen addition shift competition between a C 3 grass ( Leymus chinensis ) and a C 4 grass ( Hemarthria altissima )

Human‐induced disturbances, including grazing and clipping, that cause defoliation are common in natural grasslands. Plant functional type differences in the ability to compensate for this tissue loss may influence interspecific competition. To explore the effects of different intensities of clipping and nitrogen (N) addition on compensatory growth and interspecific competition, we measured accumulated aboveground biomass (AGB), belowground biomass (BGB), tiller number, non‐structural carbohydrates concentrations and leaf gas exchange parameters in two locally co‐occurring species (the C 3 grass Leymus chinensis and the C 4 grass Hemarthria altissima ) growing in monoculture and in mixture. For both grasses, the clipping treatment had significant impacts on the accumulated AGB, and the 40% clipping treatment had the largest effect. BGB gradually decreased with increasing defoliation intensity. Severe defoliation caused a significant increase in tiller number. Stored carbohydrates in the belowground biomass were mobilised and transported aboveground for the growth of new leaves to compensate for clipping‐induced injury. The net CO 2 assimilation rate ( A ) of the remaining leaves increased with clipping intensity and peaked under clipping intensities of 20% or 40%. Nitrogen addition, at a rate of 10 g·N·m −2 ·year −1 , enhanced A of the remaining leaves and non‐structural carbohydrate concentrations, which benefited plant compensatory growth, especially for the C 3 grass. Under the mixed planting conditions, the clipping and N addition treatments lowered the competitive advantage of the C 4 grass. The results suggest that a combination of defoliation and N deposition have the potential to benefit the coexistence of C 3 and C 4 grasses.