More than 12 million trees have died in California. A combination of drought, heat, and insects may be to blame.
A new study is the first to examine the wide spectrum of interactions between drought and insects. Researchers first devised a framework to look at the effects that each stressor can have on tree mortality and then examined interactions among them.
“We wanted to be able to get a sense of how these die-off patterns will shift with climate change,” said study co-author Naomi Tague, associate professor at University of California–Santa Barbara. “Are there huge forests that will be at higher risk of dying sooner?”
Droughts and Insects
The western United States has been a hotspot for forest die-offs. Local economies in states like California and Colorado are highly dependent on nature-based tourism and recreation provided by forests, which offer a scenic backdrop to the skiing, fishing, and backpacking opportunities that draw so many people to live and play in the West.
But lingering drought, rising temperatures, and outbreaks of tree-killing pests such as bark beetles have spurred an increase in widespread tree mortality—especially within the past decade.
“Very often both drought and insects together are responsible for tree mortality,” said William Anderegg, a postdoctoral researcher at the Princeton Environmental Institute, and lead author of the study in the journal New Phytologist.
“But there are several good examples of trees dying because of one impact and not the other. We’ve worked to detail the spectrum of interactions between drought and insects and examine how they go hand in hand to affect tree die-offs.”
Canary in a Coal Mine
Forest mortality has been shown to impact everything from real estate to clean water.
Property values in Colorado plummeted after swaths of coniferous forests were damaged by pine beetle infestations. Water purification services provided by forests continue to be disrupted when hectares of forests are lost to pests and drought.
Forest die-off events are projected to increase in frequency and severity in the coming decades as temperatures rise.
“If we want to account for forest die-off events at local and global scales, we need some way of estimating how often they are likely to occur,” Tague said. “We’re putting together the pieces of how climate conditions can affect that mortality and how to identify the specific stressors that cause it.”
The study’s framework is a first step toward developing the tools that resource managers need to better predict the impacts of climate change on forests.
Scientists and forest specialists are now tasked not only with determining what conditions prompt tree mortality but also how they will shape forested landscapes in the years to come. Being able to predict forest mortality in a changing climate is key to conservation and land use planning.
“Ultimately, forests are a critical part of western U.S. landscapes and state economies,” Anderegg said. “They are also a canary in the coal mine for climate change. These massive forest die-offs that we are starting to see are a sign that climate change is already having major impacts in our backyard.”