Article

How a Tree Created a Pivotal New Conservation Community

Found mainly on public lands, whitebark pine is one of America’s most threatened and ecologically valuable tree species. A multi-agency alliance is using innovative strategies based on science to help it avoid extinction. Recent federal funding is helping.

By members of the National Park Service Five Needle Pines Team (Sarah Haas, Stefanie Wacker, and Kristin Legg)

A stand of tall pine trees with white bark on a gently sloping hillside
A stand of whitebark pine trees on Mt. Washburn in Yellowstone National Park.

Image credit: NPS / Diane Renkin

A Team Is Born

Indications that whitebark pine was in trouble have been around for decades. In 1991, the Great Bear Foundation of Missoula, Montana, petitioned the U.S. Fish and Wildlife Service to list the species under the Endangered Species Act. At that time, the species appeared to be in decline due to impacts from mountain pine beetles, fire suppression, and white pine blister rust. But the Fish and Wildlife Service said there was insufficient evidence to list the species as threatened or endangered. Another attempt at listing was made in 2008 by the Natural Resources Defense Council, citing similar arguments along with threats from climate change and other factors. But whitebark pine was again not afforded protection under the act. The species ultimately received threatened status in January 2023.


Collaboratively managing a single plant species across so many parks was a new and exciting development with great potential.


enlarged picture of a brown beetle covered in short golden hairs
Enlarged photo of a mountain pine beetle (Dendroctonus ponderosae). These rice-sized insects burrow under the tree’s bark, blocking the flow of nutrients from needles to roots. They also spread a blue stain fungus that disrupts the movement of food and water. Together, these actions kill the tree.

Image credit: Oregon Department of Agriculture / Joshua Dunlap

Despite the lack of formal protection until 2023, national park resource stewards have long recognized the need to protect whitebark pine trees. Initially, parks worked independently or with small regional teams to conserve this keystone species. By 2017, they recognized the need to work collaboratively to protect whitebark pine across its range, and the National Park Service’s Five Needle Pines Team was born. The original intent of the Five Needle Pines Team was to streamline communication between its parent agency and the U.S. Fish and Wildlife Service when the latter was deciding whether to list whitebark pine as a threatened species. But other benefits of working beyond the boundaries of each park soon became evident. Collaboratively managing a single plant species across so many parks was a new and exciting development with great potential.


The team proved so valuable it has since expanded to include parks with other five-needle pine species, many of which face the same challenges as whitebark pine.


Team members represented the entire range of the species from Yosemite National Park through Olympic and Glacier to Grand Teton. Although each park was in different stages of conserving whitebark pine, they all had something to contribute. Beth Fallon, a team member from Mount Rainier National Park, described the team as “a great community to learn from," with "experienced, knowledgeable, and enthusiastic people" who know about "science, management, and conservation solutions.” Fallon added that the team has highlighted important research that her park can use, for example, to decide how to approach whitebark conservation in wildland fire planning or to consult with the U.S. Fish and Wildlife Service to support the park’s restoration and recovery work.

The team proved so valuable it has since expanded to include parks with other five-needle pine species, many of which face the same challenges as whitebark pine. Jacob Edwards is a forester at Lassen Volcanic National Park. In addition to whitebark pine, the park has western white pine and sugar pine, both also five-needle species. “Being a part of a team that is comprised of multiple voices from different parts of the country,” Edwards said, “allows for unique perspectives and unique solutions. [It’s] one of the best parts of collaboration.”

A dramatic mountain scene with snow and evergreen trees
A whitebark pine tree in the winter landscape of the Panhandle Gap at Mount Rainier National Park.

Image credit: NPS

Choosing and Nurturing the “Best of the Best”

While the U.S. Fish and Wildlife Service was considering whether whitebark should be listed, the Five Needle Pines Team and others in the whitebark pine conservation community began working on a plan to restore the species: the National Whitebark Pine Restoration Plan. The team partnered with land management agencies and tribal nations to identify “core areas” of whitebark pine—those where the species has the highest probability of long-term survival. The core area nominations were based on long-term monitoring data, research, and local knowledge. The team used several criteria to determine core areas in parks, such as stand condition, location, and how much the core areas contributed to the long-term resilience of the species. Another criterion was the feasibility of carrying out restoration actions. The goal was to have core areas represent 20-30 percent of the whitebark pine in each unit to ensure the species’ survival across its range.


Land managers have focused on improving the resiliency of these core areas. In addition to other strategies, they’re collecting and planting genetically proven rust-resistant seeds and seedlings.


To date, land managers have focused on improving the resiliency of these core areas. In addition to other strategies, they’re collecting and planting genetically proven rust-resistant seeds and seedlings in existing stands affected by white pine blister rust, mountain pine beetle, or wildland fire. These seeds and seedlings have a higher likelihood of survival than those without resistance. Protecting trees that generate rust-resistant seeds is thus central to whitebark pine’s long-term survival. This strategy is based on decades of research by scientists at the U.S. Forest Service’s Dorena Genetic Resource Center.

Cages stick off the branches of a pine tree in a rocky landscape
Wire mesh cages covering whitebark pine cones to protect them from predation. Once the cones are mature and open, restoration workers will remove the cages, harvest the cones, and use the seeds to grow seedlings.

Image credit: NPS

Clark’s nutcrackers are also indispensable to the trees’ survival, as these birds are its primary means of dispersing seeds across the land. The fundamental goal of the National Whitebark Pine Restoration Plan is to restore whitebark pine communities within core areas to foster healthy populations that produce enough cones to attract Clark’s nutcrackers. The birds can then collect and disperse rust-resistant seeds, propagating resilient whitebark pine seedlings to regions outside core areas, as they have for thousands of years. Over time, these natural processes will restore whitebark pine across its range. But for this ambitious project to be successful, parks must continue collaborating with each other and their partners. This will enable them to optimize shared resources and benefit from strategic funding initiatives.

A gray bird with black wings, with a seed in its mouth, sitting in an evergreen tree filled with brown pine cones.
A Clark's nutcracker with a pine seed in its mouth at Craters of the Moon National Park & Preserve. These birds are the primary way in which whitebark pine seeds are dispersed. But they eat the seeds of many different pine species, so if whitebark pine seed production is subpar, the birds may abandon whitebark pine stands for other areas with more food.

Image credit: NPS

Tools for Success

Climate modeling tools have helped scientists predict changes in the habitat ranges of North American trees due to climate change. The models indicate that warming temperatures will reduce whitebark pine’s available habitat over the next 100 years. To help park managers cope with this, the National Park Service’s Inventory and Monitoring Division, Climate Change Response Program, and partners are developing park-specific climate predictions and models. Partners include federal and state agencies, university scientists, and non-profits such as the Whitebark Pine Ecosystem Foundation, American Forests, Northern Rockies Conservation Cooperative, and the Arbor Day Foundation.


This type of planning depends on decades of dedicated research and data collection as well as ongoing modeling work using complex meteorological datasets.


When incorporated in the agency’s “Resist-Accept-Direct” framework (a service-wide blueprint for responding to “rapid, irreversible ecological change”), the models should help resource-strapped parks make realistic, strategic decisions that have a greater chance of succeeding. This type of planning depends on decades of dedicated research and data collection as well as ongoing modeling work using complex meteorological datasets. But exciting new tools like machine learning and remote sensing can help scientists select suitable restoration sites more efficiently.

Poised for Action

By the time the Bipartisan Infrastructure Law and Inflation Reduction Act were signed into law, the Five Needle Pines Team had been collaborating on whitebark pine conservation for years. Those infrastructure investments gave parks the opportunity to put into practice work that the team, participating parks, and partners had already envisioned.

The team’s strategies created an easy way to quickly respond to new funding opportunities. Nine parks in the west received over two million dollars to identify rust-resistant trees and core areas, collect and plant rust-resistant seed and seedlings, and monitor restoration activities. This built on 20 years of research and management actions at several parks.

Western United States with a magenta striped overlay showing whitebark pine habitat. It's mostly concentrated in Idaho and western Wyoming and Montana. Patches also exist in mountainous areas of WA, OR, and eastern CA, and in a few spots in northern NV.
Whitebark pine distribution (magenta stipes) across the West—and across agencies. This map is also part of the National Whitebark Pine Restoration Strategy.

Image credit: Whitebark Pine Ecosystem Foundation / Julee Shamhart

Landscape-Scale Partnerships Are Key to Trees’ Survival

The tree’s naturally slow growth rate (25 to 50 years just to produce cones), loss of cone-producing trees, and impacts from white pine blister rust make it clear that we need to intervene at the landscape scale for whitebark pine to survive. Integrating across boundaries brings land managers together, increasing opportunities to share data, organize funding, and coordinate restoration actions. Cross-boundary cooperation is essential, for example, for managing wildland fire in whitebark pine habitat and learning of new threats.


Science is fundamental to the success of management actions to conserve this species, but having the resources to carry out these actions is also important.


Whitebark pine has been a part of the North American landscape for thousands of years. Its loss could have untold impacts on the ecosystems it inhabits. Science is fundamental to the success of management actions to conserve this species, but having the resources to carry out these actions is also important. With the help of recent infrastructure funding, the strong partnerships within and between the National Park Service, other land management agencies, and non-governmental organizations are accelerating our ability to save this keystone tree in the nation’s national parks.

About the authors
Sarah Haas

Sarah Haas is an ecologist whose current position is deputy chief of Science and Resource Management at Grand Canyon National Park. Image credit: NPS / Sarah Haas

Stefanie Wacker

Stefanie Wacker is a restoration ecologist with the National Park Service’s Biological Resource Management Division. Image credit: NPS / Stefanie Wacker

Kristin Legg is program manager and ecologist of the National Park Service’s Greater Yellowstone Network.

Crater Lake National Park, Devils Postpile National Monument, Glacier National Park, Grand Teton National Park, Lassen Volcanic National Park, Mount Rainier National Park, North Cascades National Park, Olympic National Park, Sequoia & Kings Canyon National Parks, Yellowstone National Park, Yosemite National Park more »

Last updated: September 3, 2024