An official website of the United States government. Here's how you knowHere's how you know
Official websites use .gov
A .gov website belongs to an official government organization in the United States.
Secure .gov websites use HTTPS
A lock () or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.
Latest Earthquake | Chat Share
Invasive annual grasses, such as cheatgrass (Bromus tectorum) and medusahead (Taeniatherum caput-medusae), are one of the most significant stressors to rangeland ecosystems in the western U.S. Their expansion and dominance across this area are the most damaging ecosystem agents on this iconic landscape.
Many invasive plants thrive in disturbed areas and are easily spread through various pathways and vectors. In the western U.S., disturbed landscape can take the form of areas changed by human development, improper grazing, and burned by wildfire. Roads and trails, and the vehicles that travel them, transmission corridors, and fuel breaks all serve as pathways and vectors that help spread these unwanted invaders. Once an invasive plant becomes established in an area, it can quickly spread across the landscape. Invasive plant species can become ecologically dominant, creating near-monocultures that result in reduced wildlife habitat, recreational opportunities, livestock forage, and altered fire regimes. Even after landscape disturbances are removed from areas dominated by these plants, these invasive annual grasses can remain the dominant plant.
Cheatgrass originated in Europe or Eurasia and medusahead in the Mediterranean region. Both were introduced to the U.S. in the mid- to late-1800's as a contaminant in seed and straw. Both species germinate in the fall and early spring, grow rapidly and in high numbers making them highly competitive with native species.
Plants native to the sagebrush landscape may not recover from disturbances that allow invasive annual grasses to over-run them, even decades later. In these areas, elimination of invasive annual grasses is very difficult because the limited number of remaining native plants are unable to produce seeds and seedlings that can compete with these invasive annual grasses. In addition, the thick thatch produced by annual grasses kills biological soil crusts (lichens, mosses and cyanobacteria) that once filled the soil interspaces between the native grasses and shrubs.
The conversion of a diverse native ecosystem to simple invasive grass-dominated ecosystems degrades the ecosystem processes leading to soil erosion, less water in the soil for plant growth, and changes in nutrient cycling, making a less productive land that is much harder to restore to what it was before the invasion.
Land managers are tasked with controlling cheatgrass and medusahead, but resources are limited for invasive plant management. They face difficult decisions on how to use their limited resources. Do they target high-risk pathways and vectors of invasion for efficiency, focus on specific invasive plant patches that are feasible to control, or treat the periphery of a large invasion to slow and contain the spread? Innovative approaches that capitalize on the targeted ecosystem’s resilience to disturbance and resistance to invasive plant invasion is needed to achieve long-term ecosystem conservation and restoration goals for invasive plant-dominated landscapes.
Researchers at the USGS have and continue to develop a wide variety of tools and systems, and answer questions, that help tribal, federal, state, industry, and private land managers design and implement sustainable rangeland practices along with effective restoration and rehabilitation projects. Studies focus on finding ways to control cheatgrass and medusahead through use of herbicides, soil bacteria, and targeted grazing. On-going research also answers questions about the resistance of an ecosystem to an invasive plant, including the suitability of the ecosystem’s climate and soils for establishment and persistence of the invasive plant, and the capacity of the native plant community to prevent increases in the invasive plant’s population through factors such as competition, herbivory, and ability of native plants, including biological soil crusts, to adapt to environmental conditions. They develop solutions to help land managers bolster or support the ecosystem's resilience, or ability to bounce back from a disturbance.
Notable contributions include:
Exotic Brome-Grasses in the Western U.S. Edited and contributed to the authoritative source of information on exotic annual Bromus in arid and semi-arid ecosystems of the western U.S.
Indicators of Rangeland Health. Development of the best, most consistent, and comparable method to determine rangeland health. This method is widely used by multiple land management agencies and highlyvalued by ranchers.
Right Seed at the Right Place and Time. Tests of seed sources used in BLM restoration efforts changed seed transfer guidelines and enhanced seeding success. Our data helps the BLM, the largest purchaser ofwildland seed globally, buy the right kind and amount of seed.
Conservation Efforts Database. Constructed a data system that helped the USFWS determine if stakeholder conservation efforts were enough to avoid an Endangered Species Act listing of the Greater sage-grouse.
Restoration of biological soil crusts. Tests of species for restoration, impacts of grazing and fire are of interest to BLM, USFWS, and USFS managers to enhance restoration successes.
Browse the Publications and Data and Tools tabs to find USGS publications related to invasive annual grasses.
Check out the News tab for plain language descriptions of USGS studies and publications.
Click the Multimedia tab for pictures and maps.
Visit the team pages for the scientists working on invasive annual grasses.
If you are unable to access a product or publication online, you can request a copy by sending an email with your contact information and the publication's citation to email@example.com or call (541) 750-1030.
Below are downloadable images related to cheatgrass and medusahead.
The Land Treatment Exploration Tool is designed for resource managers to use when planning land treatments. The tool provides useful summaries of environmental characteristics of planned treatment areas and facilitates adaptive management practices by comparing those characteristics to other similar treatments within a specified distance or area of interest. Provisional Software.
The Land Treatment Digital Library (LTDL) was created by the USGS to catalog legacy land treatment information on Bureau of Land Management lands in the western United States. The LTDL can be used by federal managers and scientists for compiling information for data-calls, producing maps, generating reports, and conducting analyses at varying spatial and temporal scales.
This software allows agencies, organizations, and individuals to download an empty, stand-alone Land Treatment Digital Library database to individual or networked computers. Data entered in these databases may be submitted to the USGS for possible inclusion in the online Land Treatment Digital Library (https://ltdl.wr.usgs.gov).
Plain language descriptions for some related USGS products and publications.
When a wildfire rampages through a sagebrush domain, restoring the landscape’s natural vegetation afterward is often a dicey proposition. But now...
Semi-arid sagebrush ecosystems experience chronic disturbances through grazing, invasive grasses, and acute disturbance of fire. Biocrusts, a...
Assessing rangeland health is useful from a land management perspective in providing a baseline or early indicator of degradation and for prioritizing...
USGS researchers created an interactive Fuels Guide and Database, providing vegetation and fuel loading information and photographs for big sagebrush...
Invasive grass species are a threat to many ecosystems around the world and in sagebrush habitats of the western United States, presence of non-native...
Biocrusts develop on the surface of soils, comprised of a community of cyanobacteria, mosses, and lichens, and they are commonly found across natural...
Land restoration and rehabilitation efforts usually involve soil and vegetation manipulations, which influence landscapes and ecosystems. These...
In the western U.S., big sagebrush ecosystems provide habitat for about 350 species of conservation concern, but are sensitive to disturbance and are...
Methodological guidelines are needed to rapidly determine vegetation responses to wildfire and post-disturbance treatments, such as seeding and...
Reestablishing perennial native shrubs is essential to short-term rehabilitation and long-term restoration of plant communities in the sagebrush...
Invasions by exotic annual grasses, most notably cheatgrass and medusahead, are unambiguous threats to rangelands in the western United States...
Linear fuel breaks have long been used to help suppress fire in the Great Basin, and thousands of miles of new fuel breaks may be constructed in...
These are a few of our partners.