. Scientific Frontline: The kids aren't alright: Saplings reveal how changing climate may undermine forests

Tuesday, November 7, 2023

The kids aren't alright: Saplings reveal how changing climate may undermine forests

A University of Arizona-led experiment exposed different species of trees to heat and drought to study how young trees respond to climate change. After 20 weeks of drought and a one-week heat wave, this Douglas fir sapling was dry and brittle.
Photo Credit: Alexandra Lalor

UArizona researchers studied how young trees respond to a hotter, drier climate. Their findings can help shape forest management policy and our understanding of how landscapes will change.

A University of Arizona-led experiment exposed different species of trees to heat and drought to study how young trees respond to climate change. After 20 weeks of drought and a one-week heat wave, this Douglas fir sapling was dry and brittle. Alexandra Lalor

As climate scientist Don Falk was hiking through a forest, the old, green pines stretched overhead. But he had the feeling that something was missing. Then his eyes found it: a seedling, brittle and brown, overlooked because of its lifelessness. Once Falk's eyes found one, the others quickly fell into his awareness. An entire generation of young trees had died.

Falk – a professor in the UArizona School of Natural Resources and the Environment, with joint appointments in the Laboratory of Tree-Ring Research and the Arizona Institute for Resilience – refers to this large-scale die-off of the younger generation of trees as a recruitment failure. This is particularly devastating for a population of trees because the youngest are essential for forest recovery following massive die-off events, such as severe wildfires and insect outbreaks, both of which will become more frequent as the climate continues to change, he said.

To better understand how extreme climate conditions might trigger recruitment failure, Falk and his co-authors examined how five species of 4-year-old trees responded to extended drought and heat.

They found that different species had different levels of drought tolerance and that all species were more tolerant of the heat wave than expected. Their findings were published in the journal Frontiers in Forests and Global Change.

In general, older trees are more tolerant of tougher conditions, Falk said. But when there are massive die-off events – which can be caused by drought and heat, sometimes with associated insects, pathogens or wildfire – tree populations become dependent on their ability to regenerate.

"When scientists make models about future tree growth based on the conditions an adult tree can tolerate, it might not accurately reflect the future of the forests," Falk said. "That's why we focused on this seedling bottleneck."

The team gathered trees from across five species found at various elevations in the Jemez Mountains of New Mexico. From lowest elevation to highest, this included ponderosa pine, piñon pine, Englemann spruce, Douglas fir and limber pine. They then exposed the young trees to drought and heat conditions in a growth chamber, which allowed them to precisely control temperature, humidity, light and water.

In the first round of the experiment, the team maintained the normal average temperature for each species and simply stopped watering the plants to test their response to drought conditions.

"About 8 weeks out, pretty much every tree was still dealing with it," Falk said. "But then, as the drought got on to 12 and 14 weeks, the ponderosa pine seedlings started to die, and then the piñon seedlings started to die off, then the Engelmann spruce, and the Douglas fir. The ones that lasted longest, which really surprised us (lasting 36 weeks without water) was limber pine."

"You would think that the species that live at lower, warmer elevations would be more drought adapted than trees living at the higher elevation," Falk said. "But the higher elevation trees – the Douglas fir and limber pine – grow in the coolest temperatures and lived the longest. It appears that the trees are only as drought tolerant as they need to be. As climate change progresses, it will put more stress on the trees, and then there'll probably be selection for those more drought- tolerant traits."

Next, the team simulated an average heat wave by cranking up the temperature by 10 degrees for all species for one week.

As a result, each species died out in the exact same order, and died only slightly sooner.

"These results surprised me in a couple of ways," said co-author and UArizona professor emeritus David Breshears. "First, heat waves do indeed matter, but I expected them to have a larger effect than they did. So, they're important, but the underlying drought and average warming seem to be the key drivers. Second, we found limber pine was the heartiest species and this has important implications for how our landscapes are likely to change."

In their next experiment, the team plans to intensify the heat wave, Falk said.

"We need this type of information to help forest managers know what to expect next and guide what to plant following wildfire or other large die-off events of adult trees," Breshears said.

Funding: The research was supported by the USGS Southwest Climate Adaptation Science Center.

Published in journalFrontiers in Forests and Global Change

Authors: UArizona graduate student Alexandra Lalor, who graduated with her master's degree in Natural Resources Studies, with emphasis in Fire Ecology in December 2022, led the paper. Co-authors include professor Greg Barron-Gafford in the School of Geography, Development and Environment, assistant research professor Jason Field in the School of Natural Resources and the Environment, former UArizona colleague Darin Law and others from the United Sates Geological Survey and USDA Forest Service. 

Source/CreditUniversity of Arizona | Mikayla Mace Kelley

Reference Number: en110723_02

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