Managing Medusahead Using Dormant Season Grazing in the Northern Great Basin

The invasive annual grass, medusahead, infests rangelands throughout the West, from the Columbia Plateau to the California Annual Grasslands and the Great Basin. Dominating secondary succession in the sagebrush steppe, medusahead can degrade the habitat of threatened species such as the greater sage...

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Bibliographic Details
Published in:Rangeland ecology & management 2023-09, Vol.90 (1), p.146-156
Main Authors: Price, William J., Hulet, April, Jensen, K. Scott, Strand, Eva K., Boyd, Chad S., Davies, Kirk W., Johnson, Dustin D., Perryman, Barry L., Di, Yanming, Arispe, Sergio A.
Format: Article
Language:English
Subjects:
administrative management
Artemisia
basins
biomass
California
Centrocercus urophasianus
Dormant season grazing
Exotic annual grass
fuels
Fuels management
habitats
landscapes
Medusahead
perennial grasses
rangelands
secondary succession
steppes
Taeniatherum caput-medusae
threatened species
Wyoming big sagebrush
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Summary:The invasive annual grass, medusahead, infests rangelands throughout the West, from the Columbia Plateau to the California Annual Grasslands and the Great Basin. Dominating secondary succession in the sagebrush steppe, medusahead can degrade the habitat of threatened species such as the greater sage-grouse. This research explores the potential of dormant season grazing as an applied management strategy to reduce the negative impacts of medusahead while promoting recovery of perennial vegetation at the landscape scale. In particular, it assessed grazing with four treatments from 2018 to 2020: traditional grazing (May–October), dormant season grazing (October–February), traditional + dormant season grazing (May–February), and no grazing. After 2 yr of grazing treatments, biomass, density, cover, and fuel continuity did not differ between treatments (P > 0.05). However, biomass measurements were significantly different between years, which is likely due to greater than normal precipitation in 2019 and 2020. Between 2018 and 2019, annual grass biomass increased by 81% (666–1 212 kg ha–1) and perennial grass biomass increased by 165% (118–313 kg ha–1). Litter biomass decreased by approximately 15% in every year since 2018 (2 374, 2 012, and 1 678 kg ha–1 in 2018–2020). There were not significant differences in cover or density of annual and perennial grasses between treatments and years. Our results indicate that 2 yr may not be adequate time for dormant season grazing treatments to be effective in reducing the abundance of medusahead and that after 2 yr of treatments, dormant season grazing does not have a detrimental effect on perennial vegetation.
ISSN:1550-7424
1551-5028
DOI:10.1016/j.rama.2023.04.006