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Spatiotemporal patterns of cheatgrass invasion in Colorado Plateau National Parks

Bishop, Tara B. B., Munson, Seth, Gill, Richard A., Belnap, Jayne, Petersen, Steven L., St. Clair, Samuel B.
Landscape ecology 2019 v.34 no.4 pp. 925-941
Bromus tectorum, altitude, annuals, biodiversity, clay fraction, ecological invasion, ecosystems, geographic information systems, grasses, introduced plants, models, national parks, plant available water, plateaus, remote sensing, temperature, vegetation, wildfires, winter, Western United States
CONTEXT: Exotic annual grasses are transforming native arid and semi-arid ecosystems globally by accelerating fire cycles that drive vegetation state changes. Cheatgrass (Bromus tectorum), a particularly widespread and aggressive exotic annual grass, is a key management target in national parks of the western United States due to its impacts on wildfire and biodiversity loss. Cheatgrass is known for its high interannual variability and can grow in a wide range of conditions. OBJECTIVES: The objectives were to (1) map the presence and persistence of cheatgrass in national park units across a 11-year period using remote sensing, and (2) identify the biophysical parameters that correlate with cheatgrass persistence. METHODS: We used remote sensing and GIS tools to develop a systematic model to characterize the status and environmental correlates of cheatgrass invasions in seven national park units in the western United States. RESULTS: On average cheatgrass covered 3.8% of park areas, each park ranging from 0.8 to 24.8% coverage. Where cheatgrass was detected, persistent populations across time (hotspots) made up on average 13% of cheatgrass areas. Hotspots were found in areas with deeper plant-available water, lower elevations, colder mean winter temperatures, flatter slopes, higher soil clay content, and lower mean fall precipitation. CONCLUSION: Study results identified spatiotemporal patterns of plant invasions and key environmental drivers that influence invasion patterns. GIS tool development and analysis from this study were used to generate invasion maps for each park, which can be used to mitigate wildfire and biodiveristy loss.