4.8 Article

Ecosystem resilience to invasion and drought: Insights after 24 years in a rare never-grazed grassland

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GLOBAL CHANGE BIOLOGY
卷 -, 期 -, 页码 -

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WILEY
DOI: 10.1111/gcb.16882

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Bromus tectorum; Canyonlands National Park; Colorado Plateau; drought; grassland; grazing; long-term monitoring; resiliency

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This study examines the vegetation changes in the drylands of the western US and finds a significant warming trend, which constrains the spread of invasive species and shows the high resilience of native plants to climate change. However, recent intensification of drought raises concerns about the stability of grassland vegetation and the possibility of impending ecosystem changes.
Understanding the resilience of ecosystems globally is hampered by the complex and interacting drivers of change characteristic of the Anthropocene. This is true for drylands of the western US, where widespread alteration of disturbance regimes and spread of invasive non-native species occurred with westward expansion during the 1800s, including the introduction of domestic livestock and spread of Bromus tectorum, an invasive non-native annual grass. In addition, this region has experienced a multi-decadal drought not seen for at least 1200 years with potentially large and interacting impacts on native plant communities. Here, we present 24 years of twice-annual plant cover monitoring (1997-2021) from a semiarid grassland never grazed by domestic livestock but subject to a patchy invasion of B. tectorum beginning in similar to 1994, compare our findings to surveys done in 1967, and examine potential climate drivers of plant community changes. We found a significant warming trend in the study area, with more than 75% of study year temperatures being warmer than average (1966-2021). We observed a native perennial grass community with high resilience to climate forcings with cover values like those in 1967. In invaded patches, B. tectorum cover was greatest in the early years of this study (1997-2001; similar to 20%-40%) but was subsequently constrained by climate and subtle variation in soils, with limited evidence of long-term impacts to native vegetation, contradicting earlier studies. Our ability to predict year-to-year variation in functional group and species cover with climate metrics varied, with a 12-month integrated index and fall and winter patterns appearing most important. However, declines to near zero live cover in recent years in response to regional drought intensification leave questions regarding the resiliency of intact grasslands to ongoing aridification and whether the vegetation observations reported here may be a leading indicator of impending change in this protected ecosystem.

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