Grazing intensity enhances spatial aggregation of dominant species in a desert steppe.

Understanding how grazing activity drives plant community structure or the distribution of specific species in a community remains a major challenge in community ecology. The patchiness or spatial aggregation of specific species can be quantified by analyzing their relative coordinates in the community. Using variance and geostatistical analysis methods, we examined the quantitative characteristics and spatial distribution of in a desert steppe in northern China under four different grazing intensities (no grazing, NG, light grazing, LG, moderate grazing, MG, and heavy grazing, HG) at three small spatial scales (10 × 10 cm, 20 × 20 cm, 25 × 25 cm). We found that grazing significantly increased cover, density, and proportion in standing crop of . , but decreased height. The spatial distribution of was strongly dependent upon the sampling unit and grazing intensity. The patchiness of reduced with sampling scale, and spatial distribution of was mainly determined by structural factors. The intact clusters of were more fragmented with increasing grazing intensity and offspring clusters spread out from the center of the parent plant. These findings suggest that spatial aggregation can enhance the ability of to tolerate grazing and that smaller isolated clusters are beneficial to the survival of this dominant species under heavy grazing.