Text and photos by Sarah Jane Keller
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Western Confluence
The race to save an ecosystem
Sarah Jane Keller
ocals speculate that Nevada’s largest fire may have started with a Fourth of July firework launched in a canyon. But no one really knows. The 2018 Martin Fire seemed small and innocuous, until a weather cell moved into northern Nevada. With winds suddenly pushing the blaze, it burned through sagebrush rangelands at 11 miles per hour. Firefighters couldn’t get ahead of it. The Martin Fire doubled in size every day for four days, growing to be 57 miles long and 30 miles wide and burning 435,000 acres of Bureau of Land Management, US Forest Service, and private ranch land. Among the biggest losses in the fire were some of Nevada’s best sage grouse habitat and at least 35 sage grouse leks, where the birds stage their breeding dances. Ranchers, Elko County, and local hunters all chipped in for a reward to catch whoever started the fire, to no avail. While fire is a natural part of the Great Basin, massive ones like the Martin Fire were unheard of a generation ago. An ecosystem that evolved with relatively rare fires, occurring every 30 to 100 years or more, can now see fires as often as every 5 years. Not only are rangeland fires more frequent in the Great Basin today, they are also larger. Historically, rangeland fires grew to the order of hundreds to thousands of acres. Today, they regularly escalate into megafires, the term firefighting experts at the Interagency Fire Center in Boise coined for blazes exceeding 100,000 acres. Megafire captures the disproportionate destruction and expense of those very large fires. According to data from the Bureau of Land Management, a new trend is emerging where range fires
now tend to burn more acres each year than forest fires. That was the case in 13 years out of the last 19. Yet public attention and resources devoted to even mega-sized range fires remain relatively scant compared to forest fires. Several major changes are stoking Great Basin megafires. For one, a long history of fire suppression has led to more continuous shrubby cover of sagebrush and juniper, and less of the native perennial grasses that slowed fires in the past. Two, cheatgrass (Bromus tectorum), an invasive annual that most of us take for granted in pastures, along roadsides, or poking at our ankles through our socks, is covering more and more of the West. Plus, the Great Basin has been getting warmer over the last 100 years, a trend that favors cheatgrass. Not only is cheatgrass prolific, it also makes rangeland more likely to burn. As cheatgrass grows between native shrubs and grasses it coats the landscape in a fine, tissue paper-like fuel. When a lightening strike or errant campfire sparks a fire, slowgrowing sagebrush perishes, while cheatgrass seeds persist, ready to germinate quickly and outcompete native grasses. After multiple fire cycles, sometimes fewer, cheatgrass reduces formerly diverse and complex shrublands into fire-prone grassland savannas. This pattern has locked the Great Basin in a vicious cycle of burning, which leads to more cheatgrass, and then more fire. The sweeping scale of recent rangeland fires and the speed with which they are changing the Great Basin drives home the ecological, economic, and social consequences of invasive species run amok. Ranchers, rangeland scientists, and managers are waking up to the rapid pace at which cheatgrass and fire are altering the