Abstract
Contemporary pressures on sagebrush steppe from climate change, exotic species, wildfire, and land use change threaten rangeland species such as the greater sage-grouse ( Centrocercus urophasianus ). To effectively manage sagebrush steppe landscapes for long-term goals, managers need information about the potential impacts of climate change, disturbances, and management activities. We integrated information from a dynamic global vegetation model, a sage-grouse habitat climate envelope model, and a state-and-transition simulation model to project broad-scale vegetation dynamics and potential sage-grouse habitat across 23.5 million acres in southeastern Oregon. We evaluated four climate scenarios, including continuing current climate and three scenarios of global climate change, and three management scenarios, including no management, current management and a sage-grouse habitat restoration scenario. All climate change scenarios projected expansion of moist shrub steppe and contraction of dry shrub steppe, but climate scenarios varied widely in the projected extent of xeric shrub steppe, where hot, dry summer conditions are unfavorable for sage-grouse. Wildfire increased by 26% over the century under current climate due to exotic grass encroachment, and by two- to four-fold across all climate change scenarios as extreme fire years became more frequent. Exotic grasses rapidly expanded in all scenarios as large areas of the landscape initially in semi-degraded condition converted to exotic-dominated systems. Due to the combination of exotic grass invasion, juniper encroachment, and climatic unsuitability for sage-grouse, projected sage-grouse habitat declined in the first several decades, but increased in area under the three climate change scenarios later in the century, as moist shrub steppe increased and rangeland condition improved. Management activities in the model were generally unsuccessful in controlling exotic grass invasion but were effective in slowing woodland expansion. Current levels of restoration treatments were insufficient to prevent some juniper expansion, but increased treatment rates under the restoration scenario maintained juniper near initial levels in priority treatment areas. Our simulations indicate that climate change may have both positive and negative implications for maintaining sage-grouse habitat.
Highlights
Sagebrush steppe ecosystems are broadly distributed throughout the western U.S, but are highly imperiled due to a wide range of factors, including species invasions, altered fire regimes, intensive historic livestock grazing, development, and other pressures [1,2,3,4]
The greater sage-grouse was considered for listing under the Endangered Species Act in 2010 and was found to be “warranted, but precluded” [10], meaning that the species was recognized as warranting protection based on current threats but would not receive protection due to other species of higher priority
potential vegetation types (PVTs) remain unchanged over time, with 47% of the landscape in dry shrub steppe, 22% in moist shrub steppe, 15% in xeric shrub steppe, and 17% in forested types (Figure 3)
Summary
Sagebrush steppe ecosystems are broadly distributed throughout the western U.S, but are highly imperiled due to a wide range of factors, including species invasions, altered fire regimes, intensive historic livestock grazing, development, and other pressures [1,2,3,4]. These exotic grasses are winter annuals that complete their life cycle earlier in the spring than native perennial bunchgrasses, taking advantage of abundant winter and spring moisture They tend to be highly competitive in warm, dry environments, following disturbance, and senesce to form a dense layer of dry fine fuels later in the summer that can substantially shorten the fire return interval [14,15]. Another contemporary threat to shrub steppe ecosystems comes from expansion of western juniper (Juniperus occidentalis Hook.) beyond its historic range. Juniper expansion into shrub steppe can result in loss of habitat for sagebrush-obligate wildlife species such as sage-grouse, increased soil erosion, and reduced forage production [3,13,18]
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