National forests whose names come from their large, majestic trees—such as Redwood National Park and Sequoia National Park in California—may need to rethink their brands as droughts increase in frequency and severity in many regions around the world due to climate change. New research published this week in the journal finds it’s the large trees that suffer most and are first to die.
The four-person team of researchers conducted a global analysis of how forests respond to drought using already published and vetted inventory data from 40 drought events in 38 forests across the globe. In every case, large trees showed a decrease in how fast they grew, and drought-related tree death increased with tree size in 65 percent of the droughts examined.
“It shows us that this is really a pretty general trend,” said Kristina Anderson-Teixeira, a staff scientist with the Smithsonian Conservation Biology Institute and the Smithsonian Tropical Research Institute and senior author of the paper. “It tells us that biophysical principles make drought tougher on large trees.”
Physics and gravity are factors large trees have to deal with. Imagine trying to suck up water from a straw that is 5 feet tall versus a few inches, said Nathan McDowell, a researcher with the Earth and Environmental Sciences Division at the Los Alamos National Laboratory in New Mexico.
“Being tall, it’s harder to suck water,” said McDowell, a co-author of the paper. In fact, he said, big trees do a lot for a forest ecosystem that their smaller counterparts cannot. Some species, such as the spotted owl, only live in big trees. Large trees provide shade for the forest ecosystem and keep the understory of forests cool and more humid.
Big trees also capture a disproportionate amount of carbon dioxide, making them potential boons in the battle against a changing climate. The authors found that when trees are exposed to drought, not only are climate-stressed trees less likely to take in as much carbon, but when they die, they release large amounts of stored carbon into the atmosphere.
“Plants can’t go to the local 7-Eleven and get something to drink—they’re stuck there,” he said. “The way they deal with dry conditions [is] they close their stomata, holes in leaves that allow water to escape and capture CO2.”
25M trees dead in Calif.
This week, officials in California reported that the number of dead trees in California has soared to 25 million, the result of drought and diseases exacerbated by lack of water (, Sept. 28). At least 12 million trees in the state have been killed as bark beetles take advantage of their weakened state. Bark beetles also prefer large trees, the study notes.
Anderegg’s own work, including a published in July in the journal , found that forests absorb less carbon for four years after a drought.
Amy Bennett with the Smithsonian Conservation Biology Institute and the University of New Mexico and Craig Allen from the U.S. Geological Survey were also authors of the .
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