Wyoming researchers question value of sagebrush control in conservation sage grouse
Efforts to improve sage grouse habitat through conventional management practices may be ineffective – and even counterproductive – according to research by Wyoming scientists.
Sagebrush reduction strategies including mowing and herbicide application are often employed to enhance habitat for Greater sage grouse and other sagebrush-dependent species.
The theory is clearing large sagebrush shrubs improves food sources in sage grouse nesting and brood-rearing habitats by allowing other, more nutritious vegetation to grow with less competition.
This, in turn, should increase invertebrate populations, another food source for sage grouse.
But, a new paper published in the journal Wildlife Monographs suggests these methods may be misguided.
UW study
In a nine-year experimental study, researchers examined how Greater sage grouse populations in Central Wyoming responded to mowing and applying the herbicide tebuthiuron to Wyoming big sagebrush.
According to their data, these treatments did not benefit the birds.
“Some managers think treating sagebrush for wildlife is how it’s supposed to work, and we’ll keep doing it,” says Jeff Beck, University of Wyoming (UW) professor of ecosystem science and management and principal investigator for the study. “Hopefully, this will get people to start thinking, ‘If we’re going to spend money to improve habitat, we’ve got to find some other ideas.’”
Beck’s co-authors include Kurt Smith, a former UW PhD student who is now an ecologist with Western EcoSystems Technology; Jason LeVan, a former UW master’s student who is now a range and wildlife conservationist for Pheasants Forever; Anna Chalfoun, UW associate professor and assistant unit leader of the U.S. Geological Survey Wyoming Cooperative Fish and Wildlife Research Unit; Stanley Harter, a wildlife biologist with the Wyoming Game and Fish Department (WGFD); Thomas Christiansen, a retired WGFD sage grouse program coordinator and Sue Oberlie, a retired Bureau of Land Management wildlife biologist.
The researchers tracked behaviors and survival rates of more than 600 female Greater sage grouse in response to mowing and tebuthiuron application. They also monitored effects on invertebrate populations, sagebrush and herbaceous vegetation.
Throughout the study, responses were compared to untreated plots near the treated areas as well as off-site control plots.
Pre-treatment data were collected during 2011-13, and mowing and tebuthiuron applications were implemented in winter and spring of 2014.
After six years, 2014-19, of post-treatment monitoring, Beck and his colleagues determined sage grouse responses to treatment were neutral at best.
“Neither mowing nor tebuthiuron treatments influenced nest success, brood success or female survival,” they reported.
Furthermore, treatments used to reduce Wyoming big sagebrush coverage resulted in slight avoidance by sage grouse.
Negative impacts
Invertebrates and herbaceous vegetation also did not respond positively to reduction of Wyoming big sagebrush, indicating treatments did not improve the quantity and quality of sage grouse food sources.
Instead, reduction of Wyoming big sagebrush cover may negatively impact sage grouse and other species using sagebrush shrubs to nest and seek refuge from predators, the researchers suggest.
They predict expanding experimental treatments to larger areas may reveal greater negative effects of Wyoming big sagebrush reduction on sage grouse populations.
“Management practices which focus on the maintenance of large, undisturbed tracts of sagebrush will best facilitate the persistence of sage grouse populations and other species reliant on the sagebrush steppe,” they wrote.
Their results are consistent with many other studies suggesting controlling Wyoming big sagebrush negatively impacts wildlife. However, they caution, their findings should not be generalized to other sagebrush species and subspecies, such as mountain big sagebrush.
Rather than removing Wyoming big sagebrush, says Beck, conservation strategies should focus on removing encroaching pinyon and juniper and invasive species such as cheatgrass. These types of vegetation alter the sagebrush ecosystem and influence fire cycles, potentially damaging sage grouse habitat.
Enhancing wet areas in sagebrush habitats is another promising strategy for improving the quality of sage grouse brood-rearing habitat, he notes.
This research was supported by the WGFD’s Wyoming Sage Grouse Conservation Fund; the Bates Hole, Big Horn Basin, South Central, Southwest and Wind River/Sweetwater River local sage grouse working groups; the Wyoming Wildlife and Natural Resource Trust; the BLM’s Lander Field Office; the Margaret and Sam Kelly Ornithological Research Fund and the Wyoming Reclamation and Restoration Center’s graduate assistantship program.
Brooke Ortel is a writer and editor for UW Extension. This article was originally published in UW Ag News on June 26.