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Related: About this forumAncient redwoods recover from fire by sprouting 1000-year-old buds
https://www.science.org/content/article/ancient-redwoods-recover-fire-sprouting-1000-year-old-budsAncient redwoods recover from fire by sprouting 1000-year-old buds
After a devastating conflagration, trees regrow using energy stored long ago
1 DEC 20235:55 PM ETBY ERIK STOKSTAD
When lightning ignited fires around Californias Big Basin Redwoods State Park north of Santa Cruz in August 2020, the blaze spread quickly. Redwoods naturally resist burning, but this time flames shot through the canopies of 100-meter-tall trees, incinerating the needles. It was shocking, says Drew Peltier, a tree ecophysiologist at Northern Arizona University. It really seemed like most of the trees were going to die.
Yet many of them lived. In a paper published yesterday in Nature Plants, Peltier and his colleagues help explain why: The charred survivors, despite being defoliated, mobilized long-held energy reservessugars that had been made from sunlight decades earlierand poured them into buds that had been lying dormant under the bark for centuries.
This is one of those papers that challenges our previous knowledge on tree growth, says Adrian Rocha, an ecosystem ecologist at the University of Notre Dame. It is amazing to learn that carbon taken up decades ago can be used to sustain its growth into the future. The findings suggest redwoods have the tools to cope with catastrophic fires driven by climate change, Rocha says. Still, its unclear whether the trees could withstand the regular infernos that might occur under a warmer climate regime.
Mild fires strike coastal redwood forests about every decade. The giant trees resist burning thanks to the bark, up to about 30 centimeters thick at the base, which contains tannic acids that retard flames. Their branches and needles are normally beyond the reach of flames that consume vegetation on the ground. But the fire in 2020 was so intense that even the uppermost branches of many trees burned and their ability to photosynthesize went up in smoke along with their pine needles.
[...]
After a devastating conflagration, trees regrow using energy stored long ago
1 DEC 20235:55 PM ETBY ERIK STOKSTAD
When lightning ignited fires around Californias Big Basin Redwoods State Park north of Santa Cruz in August 2020, the blaze spread quickly. Redwoods naturally resist burning, but this time flames shot through the canopies of 100-meter-tall trees, incinerating the needles. It was shocking, says Drew Peltier, a tree ecophysiologist at Northern Arizona University. It really seemed like most of the trees were going to die.
Yet many of them lived. In a paper published yesterday in Nature Plants, Peltier and his colleagues help explain why: The charred survivors, despite being defoliated, mobilized long-held energy reservessugars that had been made from sunlight decades earlierand poured them into buds that had been lying dormant under the bark for centuries.
This is one of those papers that challenges our previous knowledge on tree growth, says Adrian Rocha, an ecosystem ecologist at the University of Notre Dame. It is amazing to learn that carbon taken up decades ago can be used to sustain its growth into the future. The findings suggest redwoods have the tools to cope with catastrophic fires driven by climate change, Rocha says. Still, its unclear whether the trees could withstand the regular infernos that might occur under a warmer climate regime.
Mild fires strike coastal redwood forests about every decade. The giant trees resist burning thanks to the bark, up to about 30 centimeters thick at the base, which contains tannic acids that retard flames. Their branches and needles are normally beyond the reach of flames that consume vegetation on the ground. But the fire in 2020 was so intense that even the uppermost branches of many trees burned and their ability to photosynthesize went up in smoke along with their pine needles.
[...]
==========
https://www.nature.com/articles/s41477-023-01581-z
(paywall)
Article
Published: 30 November 2023
Old reserves and ancient buds fuel regrowth of coast redwood after catastrophic fire
Drew M. P. Peltier, Mariah S. Carbone, Melissa Enright, Margaret C. Marshall, Amy M. Trowbridge, Jim LeMoine, George Koch & Andrew D. Richardson
Abstract
For long-lived organisms, investment in insurance strategies such as reserve energy storage can enable resilience to resource deficits, stress or catastrophic disturbance. Recent fire in California damaged coast redwood (Sequoia sempervirens) groves, consuming all foliage on some of the tallest and oldest trees on Earth. Burned trees recovered through resprouting from roots, trunk and branches, necessarily supported by nonstructural carbon reserves. Nonstructural carbon reserves can be many years old, but direct use of old carbon has rarely been documented and never in such large, old trees. We found some sprouts contained the oldest carbon ever observed to be remobilized for growth. For certain trees, simulations estimate up to half of sprout carbon was acquired in photosynthesis more than 57?years prior, and direct observations in sapwood show trees can access reserves at least as old. Sprouts also emerged from ancient budsdormant under bark for centuries. For organisms with millennial lifespans, traits enabling survival of infrequent but catastrophic events may represent an important energy sink. Remobilization of decades-old photosynthate after disturbance demonstrates substantial amounts of nonstructural carbon within ancient trees cycles on slow, multidecadal timescales.
Published: 30 November 2023
Old reserves and ancient buds fuel regrowth of coast redwood after catastrophic fire
Drew M. P. Peltier, Mariah S. Carbone, Melissa Enright, Margaret C. Marshall, Amy M. Trowbridge, Jim LeMoine, George Koch & Andrew D. Richardson
Abstract
For long-lived organisms, investment in insurance strategies such as reserve energy storage can enable resilience to resource deficits, stress or catastrophic disturbance. Recent fire in California damaged coast redwood (Sequoia sempervirens) groves, consuming all foliage on some of the tallest and oldest trees on Earth. Burned trees recovered through resprouting from roots, trunk and branches, necessarily supported by nonstructural carbon reserves. Nonstructural carbon reserves can be many years old, but direct use of old carbon has rarely been documented and never in such large, old trees. We found some sprouts contained the oldest carbon ever observed to be remobilized for growth. For certain trees, simulations estimate up to half of sprout carbon was acquired in photosynthesis more than 57?years prior, and direct observations in sapwood show trees can access reserves at least as old. Sprouts also emerged from ancient budsdormant under bark for centuries. For organisms with millennial lifespans, traits enabling survival of infrequent but catastrophic events may represent an important energy sink. Remobilization of decades-old photosynthate after disturbance demonstrates substantial amounts of nonstructural carbon within ancient trees cycles on slow, multidecadal timescales.
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Ancient redwoods recover from fire by sprouting 1000-year-old buds (Original Post)
sl8
Dec 2023
OP
Interesting and heartwarming -- not just bc I've hiked in that park. . . . . nt
Bernardo de La Paz
Dec 2023
#2
NJCher
(37,878 posts)1. I had a feeling this might
Happen.
A lifetime of growing things.
Whatever, it makes me very happy to learn this.
Bernardo de La Paz
(50,914 posts)2. Interesting and heartwarming -- not just bc I've hiked in that park. . . . . nt
riversedge
(73,130 posts)3. Mother Nature continues to amaze me.
Old Crank
(4,647 posts)4. In some ways it isn't that surprising.
The very thick bark helps the trunk from burning. If you prune trees they tend to regrow to match their root systems. Plus if you've ben to redwood grove you will see living trees which have had their centers burnt out. Simply amazing. You live that long you are tough.
mopinko
(71,813 posts)6. i've seen hollow trees
theres nothing happening in the wood, so until something knocks it down, they can stand like that for decades.
Judi Lynn
(162,384 posts)5. Amazing news, and more appreciated than I can express. Wonderful. 🌲
hunter
(38,931 posts)8. The Sequoioideae have been around a long time and seen some shit.
They survived the meteor hit that wiped out all the dinosaurs but the birds.
https://en.wikipedia.org/wiki/Cretaceous%E2%80%93Paleogene_extinction_event
Hermit-The-Prog
(36,588 posts)10. Yeah but has anyone heard them deny that they called in the strike?
yellerpup
(12,263 posts)9. true miracle!
nature rocks. sorry, broken arm
ailsagirl
(23,802 posts)11. That's marvelous!!
💕
Javaman
(63,106 posts)12. "1,000 year old buds" was the name of my Fish cover band. nt