A new study is the first to show that power-line corridors get in the way as sage grouse move across the landscape for food and breeding.
Specifically, the transmission lines that funnel power from hydroelectric dams and wind turbines across Eastern Washington state affect greater sage grouse habitat by isolating fragile populations and limiting movement, a new study finds.
The entire US population that spans 11 western states is up for listing under the federal Endangered Species Act and a decision on whether to officially designate the population as endangered is expected by the end of September.
The impact of power lines may be a new consideration when making that calculation.
Climate change shifts
“With only a fraction of pre-settlement habitat left in the state for this species, it’s key that all of that habitat be connected in order for the population to be viable in the future,” says lead author Andrew Shirk, a research scientist with the University of Washington’s Climate Impacts Group.
“The best way to keep sage grouse genetically viable is to keep the population connected across all the available habitat. Habitat connectivity is also essential for the species to shift its range over time as climate change alters the distribution of its habitat.”
The greater sage grouse is a large bird that lives mainly on the ground and relies on sagebrush plants for food and shelter. Each spring, male birds congregate in breeding areas known as leks and perform strutting displays to attract females. Even though the iconic bird is the focus of many conservation efforts, its population across much of the West is still declining.
The research team looked specifically at the Washington population of approximately 1,000 birds. The species has three distinct groups spread out across the Columbia Plateau, which stretches from the cities of Wenatchee, Ellensburg, and Yakima on the western edge to east of Moses Lake. Interstate 90 runs directly through their home range, and the birds have lost more than 90 percent of their historic habitat to roads, development, wheat fields, and power operations.
Using genetic data collected from feathers and blood, and by observing whether birds were present in about 70 different breeding areas, the team developed a model for how birds move and to predict how they will move in the future. The animals must be able to travel among sub-populations to prevent inbreeding, which causes a loss of genetic diversity across the entire population.
The result is a model that’s more accurate than any other existing method for predicting how sage grouse move across the landscape under different future scenarios. The findings also point to transmission lines as barriers that limit the birds’ movement between patches of habitat.
Power line barriers
“The power-line transmission corridor barriers were very strong and somewhat unexpected,” says coauthor Samuel Cushman, a research landscape ecologist with the US Forest Service. “These corridors crisscross the landscape throughout the range of the sage grouse and they appear to be very impactful to the population’s connectivity.”
Researchers say the birds avoid the tall transmission towers and power lines, which stand out in their usually expansive landscape. Some grouse have collided with the towers, and the structures attract predator birds that perch on the lines, targeting grouse eggs or even the birds themselves.
In Washington, two of the sub-populations are only 3 miles apart, but they have to cross rivers, a major highway, steep terrain, and fruit orchards to reach each other. Restoring more natural habitat between the groups is key to their survival.
The new study suggests placement of power lines is another important factor.
“We really want to recover these populations so they’re not only sustainable, but also healthy,” says Michael Schroeder, a research scientist with the Washington Department of Fish and Wildlife who has worked with grouse for about 35 years. “We want to make these functioning landscapes and not always have to think about first-aid solutions for these populations.”
The new model is based on Washington birds and data and can’t be directly extrapolated to other states’ grouse populations. But the study’s authors say the negative impact of transmission lines on habitat connectivity is a robust result and they believe it is likely to impact all of the sage grouse in the West.
The study appears early online this summer in the journal Landscape Ecology.
The US Fish and Wildlife Service’s Great Northern Landscape Conservation Cooperative and the US Bureau of Land Management funded the work. The paper’s other coauthor is Leslie Robb, an independent biologist with the Washington Wildlife Habitat Connectivity Working Group.
Source: University of Washington