The Influence of Soil Inoculum and Nitrogen Availability on Restoration of High‐Elevation Steppe Communities Invaded by Bromus tectorum

Abstract

Abstract Cheatgrass (Bromus tectorum L.) is an exotic annual grass that has invaded approximately 40,000,000 ha of rangelands in the United States, including montane ecosystems that are important habitats for wildlife and livestock. In addition to well‐understood mechanisms by which Cheatgrass gains competitive advantage, recent studies have shown that Cheatgrass may also change the associated soil microbial community to impact native perennial plants and promote the persistence of Cheatgrass. Furthermore, reducing plant‐available N represents a tool for initiating conditions that accelerate successional change from annual‐ to perennial‐dominated communities. At a montane, mixed shrub–grassland Cheatgrass‐dominated site in Colorado, we applied sucrose to reduce available N, and we added soil from a native plant community in order to reestablish the microbial community. This approach tested the idea that intact native soil microbial communities may enhance the beneficial effect of reducing soil N availability in a restoration setting. By the end of the experiment, reduced N availability decreased Cheatgrass by 9.8%, non‐native annual/biennial plant cover by 15.0%, and increased relative perennial plant cover by 13.4%; soil inoculation reduced Cheatgrass by 7.6% and increased perennial abundance by 11.3%. Soil inoculum additions and reduced N availability both contributed toward restoring a perennial‐dominated community and demonstrates that addition of native soil inoculum may be a useful tool for restoration efforts.