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Study finds wildfire isn't primary factor in invasive annual grass expansion in Great Basin

Study Finds Wildfire Isn't Primary Factor in Invasive Annual Grass Expansion in Great Basin
Composition of pixels that transitioned to the annual grass-dominated cluster. Data are from 2632 field monitoring plots measured from 2011 to 2020 under the AIM program. Panel A shows foliar cover estimated with the line-point intercept method using all hits (total cover can sum to >100 %). Panel B shows the number of AIM plots with each combination of primary and secondary plant functional type, where primary and secondary refer to the plant functional types with the highest and second-highest cover at the plot, respectively. Credit: Biological Conservation (2023). DOI: 10.1016/j.biocon.2023.110299

Scientists examined the assumption that wildfires are the primary factor driving the expansion of invasive annual grasses that are taking over shrubland and grassland in the U.S. Great Basin and found that annual grasses are highly competitive even in the absence of significant disturbances like fire.

In fact, according to the study conducted by scientists at the U.S. Department of Agriculture (USDA) Agricultural Research Service (ARS) and Working Lands for Wildlife-affiliated researchers at the University of Montana (UMT), almost 80% of the shrublands and grasslands in the U.S. Great Basin that have transitioned to annual grass dominance have done so without burning in the preceding 10 years.

Native perennial grasses and shrubs have a critical role in the arid and semi-arid regions of the U.S. Great Basin, as they benefit wildlife, provide livestock forage, and sequester carbon. The rapid spread of invasive annual grasses, including cheatgrass (Bromus tectorum), medusahead (Taeniatherum caput-medusae), red brome (B. rubens), ventenata (Ventenata dubia), and others, has fundamentally altered these plant communities.

As annual grasses invade, they fill the spaces between native perennial grasses and shrubs. This creates near-continuous fuels that dry out early in the growing season, enabling the ignition and spread of and creating a grass-fire cycle, which contributes to the widespread dominance of invasive annual grasses and higher chances of wildfires. Previous studies have revealed that these grasses already dominate a fifth of Great Basin rangelands, causing significant ecological disturbances.

"We found that is not the predominant driver of invasive annual grass expansion in the Great Basin, but it is still a major issue that can promote annual grass abundance and negatively impact a wide variety of ecosystem services and values ranging from forage for cattle production to sagebrush obligate wildlife habitat," said Chad Boyd, co-author, and research leader at the USDA-ARS Range and Meadow Forage Management Research Unit.

"However, annual grass management focused solely on wildfire suppression and post-fire restoration is unlikely to reverse widespread conversion to invasive annual grasses."

The research team used dynamic, remote sensing-derived datasets from 1994 to 2020 to analyze transitions of annual grass dominance in the U.S. Great Basin.

The datasets included fire perimeter and burn severity datasets obtained from the Monitoring Trends in Burn Severity program and maps of annual grass-dominated vegetation communities based on the Rangeland Analysis Platform.

The 26 years' worth of data scientists examined in the study shows that wildfire is not the main factor driving the rapid expansion, degradation, and domination of native by annual grasses in the region. Adopting a preventive approach to manage invasive grasses before a wildfire occurs is necessary to control the grass-fire cycle and slow down transitions to annual dominance.

"Firefighters already extinguish 97% of wildfires before they reach 1,000 acres, yet we're still getting flanked by cheatgrass," said Joe Smith, co-author and NRCS-Working Lands for Wildlife affiliate at UMT. "We need to get ahead of future fires by proactively defending intact landscapes against cheatgrass expansion."

The research is published in the journal Biological Conservation.

More information: Joseph T. Smith et al, Fire needs annual grasses more than annual grasses need fire, Biological Conservation (2023). DOI: 10.1016/j.biocon.2023.110299

Journal information: Biological Conservation

Citation: Study finds wildfire isn't primary factor in invasive annual grass expansion in Great Basin (2023, October 16) retrieved 7 March 2024 from https://phys.org/news/2023-10-wildfire-isnt-primary-factor-invasive.html
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