. Scientific Frontline: Zombie forests

Tuesday, February 28, 2023

Zombie forests

As the climate changes, plants often struggle to keep up. In many areas, the vegetation that stands today may not be well adapted for the climate it is now living in. After a major disturbance, such as a wildfire, the plant community likely will not return.
Video Credit: Lindsay Filgas, Madison Pobis & Rob Jordan

The researchers created maps showing where warmer weather has left trees in conditions that don’t suit them, making them more prone to being replaced by other species. The findings could help inform long-term wildfire and ecosystem management in these “zombie forests.”

Like an old man suddenly aware the world has moved on without him, the conifer tree native to lower elevations of California’s Sierra Nevada mountain range finds itself in an unrecognizable climate. A new Stanford-led study reveals that about a fifth of all Sierra Nevada conifer forests – emblems of Western wilderness – are a “mismatch” for their regions’ warming weather. The paper, published Feb. 28 in PNAS Nexus, highlights how such “zombie forests” are temporarily cheating death, likely to be replaced with tree species better adapted to the climate after one of California’s increasingly frequent catastrophic wildfires.

“Forest and fire managers need to know where their limited resources can have the most impact,” said study lead author Avery Hill, a graduate student in biology at Stanford’s School of Humanities & Sciences at the time of the research. “This study provides a strong foundation for understanding where forest transitions are likely to occur, and how that will affect future ecosystem processes like wildfire regimes.” Hill led a related study this past November showing how wildfires have accelerated the shifting of Western trees’ ranges.

Understanding and managing zombie forests

Sierra Nevada conifers, such as ponderosa pine, sugar pine, and Douglas fir are among Earth’s tallest and most massive living things. They have stood watch as temperatures around them warmed by an average of a little over 1 degree Celsius or 2 degrees Fahrenheit since the 1930s. Meanwhile, recent years have seen a giant wave of new human residents drawn to the lower elevations of the Sierra Nevada by spectacular scenery, relaxed lifestyles, and relative affordability. The combination of hotter weather, more construction, and a history of fire suppression have fueled increasingly destructive wildfires, making the names of communities like Paradise and Caldor synonymous with Mother Nature’s fury.

Hill and his co-authors started by combing through vegetation data going back 90 years, when the vast majority of human-caused warming had yet to occur. Fed this information, a computer model designed by the researchers showed that the mean elevation of conifers has shifted 34 meters or almost 112 feet upslope since the 1930s, while the temperatures most suitable for conifers have outclimbed the trees, shifting 182 meters or nearly 600 feet upslope on average. In other words, the speed of change has outpaced the ability of many conifers to adapt or shift their range, making them highly vulnerable to replacement, especially after stand-clearing wildfires.

The study estimates that about 20% of all Sierra Nevada conifers are mismatched with the climate around them. Most of those mismatched trees are found below an elevation of 2,356 meters or 7,730 feet. The prognosis: even if global heat-trapping pollution decreases to the low end of scientific projections, the number of Sierra Nevada conifers no longer suited to the climate will double within the next 77 years.

“Given the large number of people who live in these ecosystems and the wide range of ecosystem services they confer, we should be looking seriously at options for protecting and enhancing the features that are most important,” said study co-author Chris Field, the Perry L. McCarty Director of the Stanford Woods Institute for the Environment within the Stanford Doerr School of Sustainability.

The study’s first-of-its-kind maps paint a picture of rapidly changing landscapes that will require more adaptive wildfire management that eschews suppression and resistance to change for the opportunity to direct forest transitions for the benefit of ecosystems and nearby communities. Similarly, conservation and post-fire reforestation efforts will need to consider how to ensure forests are in equilibrium with future conditions, according to the researchers. Should a burned forest be replanted with species new to the area? Should habitats that are predicted to go out of equilibrium with an area’s climate be burned proactively to reduce the risk of catastrophic blazes and corresponding vegetation conversion?

“Our maps force some critical – and difficult – conversations about how to manage impending ecological transitions,” said Hill. “These conversations can lead to better outcomes for ecosystems and people.”

Funding: The research was funded by the Gordon and Betty Moore Foundation.

Published in journalPNAS Nexus

Additional Information: Field is also the Melvin and Joan Lane Professor for Interdisciplinary Environmental Studies, a professor of Earth system science and biology, and a senior fellow at the Precourt Institute for Energy. Hill is a postdoctoral researcher at the California Academy of Sciences. Study co-authors also include Connor Nolan, a postdoctoral scholar in biology at the Stanford Woods Institute for the Environment; Kyle Hemes, a research affiliate at the Stanford Woods Institute for the Environment; and Trevor Cambron, an undergraduate student in the Earth Systems Program at the Stanford Doerr School of Sustainability.

Research Material: Related study: Forest fires and climate-induced tree range shifts in the western US

Source/CreditStanford University | Rob Jordan

Reference Number: en022823_02

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