Abstract
Dryland shrub communities have been degraded by a range of disturbances and now face additional stress from global climate change. The spring/summer growing season of the North American sagebrush biome is projected to become warmer and drier, which is expected to facilitate the expansion of the invasive annual grass Bromus tectorum (cheatgrass) and alter its response to fire in the northern extent of the biome. We tested these predictions with a factorial experiment with two levels of burning (spring burn and none) and three climate treatments (warming, warming + drying, and control) that was repeated over 3 years in a Montana sagebrush steppe. We expected the climate treatments to make B. tectorum more competitive with the native perennial grass community, especially Pseudoroegneria spicata, and alter its response to fire. Experimental warming and warming + drying reduced B. tectorum cover, biomass, and fecundity, but there was no response to fire except for fecundity, which increased; the native grass community was the most significant factor that affected B. tectorum metrics. The experimental climate treatments also negatively affected P. spicata, total native grass cover, and community biodiversity, while fire negatively affected total native grass cover, particularly when climate conditions were warmer and drier. Our short-term results indicate that without sufficient antecedent moisture and a significant disruption to the native perennial grass community, a change in climate to a warmer and drier spring/summer growing season in the northern sagebrush biome will not facilitate B. tectorum invasion or alter its response to fire.
Highlights
The sagebrush biome covers more than 43 million hectares and is one of the largest ecosystems in North America (Rowland et al 2010)
The goal of this study was to assess the responses of B. tectorum, Pseudoroegneria spicata, and the native plant community in a northern sagebrush steppe site to experimentally increased growing season temperatures and decreased growing season precipitation, in addition to a spring burn
Destructive sampling of aboveground B. tectorum biomass occurred on June 30th, while P. spicata biomass sampling took place on July 14th
Summary
The sagebrush biome covers more than 43 million hectares and is one of the largest ecosystems in North America (Rowland et al 2010) It provides productive rangelands (Rowland et al 2010), acts as an important carbon sink (Gilmanov et al 2006), and fosters biodiverse native communities that provide habitat for threatened species (Miller et al 2011). This region has an extensive history of disturbance (grazing, fire, development) (Knapp 1996; Rowland et al 2010), which continues today. This early germination and its subsequent growth requires suitable climate conditions, most importantly ample winter/spring soil moisture availability (Bradford and Lauenroth 2006; Bradley et al 2016)
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