Sagebrush
Webinar recording.
The Science Framework for Conservation and Restoration of the Sagebrush Biome is a two-part volume on managing sagebrush ecosystems in the West that was developed by an extensive interagency team of scientists and managers. An overview of using the concepts of resilience to disturbance (ability to recover) and resistance to invasive annual grasses across three geographic scales (sagebrush biome, ecoregions, and local sites) to prioritize conservation and restoration actions is provided.
The webinar discusses how to use the Science Framework in management planning efforts, focusing on considerations like monitoring and adaptive management, climate adaptation, wildfire and vegetation management, nonnative invasive plant management, application of National Seed Strategy concepts, livestock grazing management, and wild horse and burro considerations.
Michele Crist, BLM National Interagency Fire Center, and Jeanne Chambers, USFS Rocky Mountain Research Station, present.
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In this issue:
Bird Communities in Transition after Treatments
Using Predictive Tools to Improve Seeding Success
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Study findings include:
- From 2011-2017, the extent of conifer cover in sagebrush country decreased by 1.6%. Human management efforts are responsible for 2/3 of the total reduction; the other 1/3 is due to wildfires.
- Previous estimates suggest that conifer cover in sagebrush country is growing by 0.4%-1.5% annually, which means that our efforts are keeping pace with conifer encroachment but that more needs to be done.
- Public/private partnerships are successfully reducing conifers in highly targeted priority watersheds, such as in northwest Utah.
- The maps also show that woodlands are still expanding into many sagebrush landscapes. Continued partnership efforts are needed to strategically conserve priority shrublands.
The dataset provides a spatially explicit estimate of 2019 herbaceous annual percent cover predicted on May 1st with an emphasis on annual grasses. The estimate is based on the mean output of two regression-tree models. For one model, we include, as an independent variable amongst other independent variables, a dataset that is the mean of 17-years of annual herbaceous percent cover.
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Relationship between sagebrush habitat characteristics and sage-grouse use in a graphic summary.
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Reasons and consequences of pinyon-juniper expansion and treatment options are provided in a graphic summary.
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This study evaluated whether tree removal by burning can decrease late‐succession woodland ecohydrologic resilience by increasing vegetation and ground cover over a 9‐year period after fire and whether the soil erosion feedback on late‐succession woodlands is reversible by burning. To address these questions, we employed a suite of vegetation and soil measurements and rainfall simulation and concentrated overland flow experiments across multiple plot scales on unburned and burned areas at two sagebrush sites in the later stages of woodland succession.
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The most significant landscape variable affecting survival was soil taxonomic subgroup, with much lower survival where buried restrictive layers reduce deep water infiltration. Survival also decreased with greater slope steepness, exotic annual grass cover, and burn severity. Survival was optimal where perennial bunchgrasses comprised 8–14% of total cover. These soil, topographic, and community condition factors revealed through monitoring of landscape-level treatments can be used to explain the success of plantings and to strategically plan future restoration projects.
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Estimates of historical fire regime parameters in mountain big sagebrush communities can be compared with current fire regimes and trends to establish general guidelines for ecological restoration. A synthesis of information on historical patterns and contemporary changes in fuels and fire regimes in mountain big sagebrush communities is available in the Fire Effects Information System (FEIS). This research brief summarizes information from that FEIS Fire Regime Synthesis.
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Humans are the source of 84 percent of wildfires, and not all are intentional. Often they come from vehicle accidents in dry landscapes. In fact, over the last 20 years, 11 of the 50 largest wildfires in the U.S. have occurred in the Great Basin. From 2000 to 2018, approximately 15 million acres of sagebrush burned primarily in the Great Basin, and approximately 9 million of those acres burned from 2014 to 2018 alone, said Michele Crist, a landscape ecologist with the Bureau of Land Management at the National Interagency Fire Center in Boise, Idaho.