Save the Redwoods League Climate Change Study Finds Recent Unprecedented Growth Surge in Redwoods, Plus Other Key Findings

Researchers also discover the oldest coast redwood on record today, at 2520 years old

Humboldt State University researchers Stephen Sillett and Russell Kramer measure a redwood tree for the Save the Redwoods League Climate Change research study. Photo Credit: Marie Antoine.

SAN FRANCISCO--()--Save the Redwoods League, along with a team of renowned scientists, today announced initial findings from a multiyear study aimed at predicting how rapid global climate change will affect redwoods in old-growth forests over time. Following are the top three findings from the study:

  • Researchers find ancient redwood forests can store up to 3 times more carbon above ground than non-redwood forests worldwide
  • Changing environmental conditions have triggered a growth surge in coast redwoods and giant sequoias
  • California summers have warmed, but precipitation has remained highly variable and not decreased over recent decades

Scientists also developed a new tree ring record from ancient redwoods throughout California to support the study of how redwoods have been affected by severe droughts, fires and flooding in the past centuries.

The study, called the Redwoods and Climate Change Initiative (RCCI), is a collaborative research program that began in 2009. It is led by Save the Redwoods League and top scientific researchers from UC Berkeley, Humboldt State University, the Marine Conservation Institute and other organizations to study past, present and future impacts of climate change on coast redwoods and giant sequoia forests. Save the Redwoods League is the only nonprofit organization dedicated to protecting ancient redwood forests throughout their natural range.

“These results bolster our mission to protect redwoods because these trees are pulling incomparable amounts of carbon dioxide out of the atmosphere which helps combat global warming,” said Emily Burns, Director of Science for Save the Redwoods League. “We have found ancient forests where climate conditions are accelerating growth and we predict these places will stay vibrant habitat refuges for other plants and animals in the foreseeable future.”

“There’s no question that our climate is changing. With this research, we have laid the foundation for understanding how we can be responsible caretakers for these magnificent forests in the years ahead,” said Harry Pollack, Chief Operating Officer for Save the Redwoods League. “We started this study because we can’t afford to wait. With only five percent of the world’s ancient redwood forests left, Save the Redwoods League needs to continue to lead conservation work as we’ve done for 95 years.”

Save the Redwoods League announced the first round of study results on August 14, 2013, during a day-long symposium at The David Brower Center in Berkeley by the top researchers involved in the study. These included Stephen Sillett, Allyson Carroll and Robert Van Pelt from Humboldt State University; Todd Dawson and Anthony Ambrose from UC Berkeley; and Healy Hamilton from the Marine Conservation Institute and Sound Science, LLC.

A Summary of the Key Findings Presented on August 14, 2013:

  • Northern old-growth coast redwood forests retain significantly more wood above ground than any other forest in the world. Redwood forests are carbon storage champions and critical parts of the climate change solution. (source: Robert Van Pelt and colleagues)
  • California summers are warming, but rainfall has not significantly changed during recent decades. Researchers predict the northern part of the coast redwood range is likely to be the place where the fewest climate changes occur in the redwood region over the next century and may the best refuge for coast redwoods and the plants and animals that depend on these giants. (source: Healy Hamilton and colleagues)
  • Changing environmental conditions are triggering a growth spurt in coast redwoods and giant sequoias. Coast redwoods in a few Northern California old-growth forests produced more wood since the 1970s than ever before in their millennial lifespans. (source: Stephen Sillett and colleagues)
  • Redwood height growth slows with age, but redwood volume growth increases, meaning older redwoods produce more wood every year than younger redwoods. (source: Stephen Sillett and colleagues)
  • Seedlings of both redwood species only tolerate dry soil during drought until the water content drops below 15%. Seed source location did not impact seedling drought response, indicating that redwood progeny from drier native climates have no advantage over progeny from wetter regions. (source: Anthony Ambrose and colleagues)
  • Researchers created the most comprehensive chronology for coast redwoods available today using samples from 78 trees and tree rings that span the years 328 to 2012 CE. In addition, they added to the giant sequoia chronology by analyzing tree rings that span the years 474 to 2012 CE from 44 separate giant sequoia trees. These tree ring records hold the answers to how redwoods throughout California were affected by severe droughts, fires and flooding in the past centuries. (source: Allyson Carroll and colleagues)
  • Researchers found chemical signals within tree rings that reveal what type of climate factors influence wood production in redwoods. They found that warm and dry climatic conditions cause redwoods to conserve water which limits photosynthesis. (Source: Todd Dawson and colleagues)
  • During the course of RCCI research in old-growth forests, the oldest coast redwood on record today was discovered: It is 2,520 years old. (source: Stephen Sillett and colleagues)

“Although these are significant findings for redwood trees, it’s clear that we have more work to do to study how younger forests and the other redwood forest plant and animal species will respond to climate change,” added Burns.

The RCCI study, which will continue for at least another 10 years, has four key goals:

  • Study how climate affects the growth and survival of redwood trees of all ages (from seedlings to ancients) throughout their ranges.
  • Develop an expansive tree-ring database to study how redwood trees grew over the last millennia and how climate changed.
  • Measure carbon storage in old-growth redwood forests.
  • Track changes in plants that live in old-growth redwood forests.

Phase One of the Initiative was generously supported by Ken Fisher, Wells Fargo Foundation, the Bay Area Conservation Initiative of the Resources Legacy Fund, Sempervirens Fund, the San Francisco Foundation, Chapman Hanson Foundation, League members and the sponsors of 2013 Symposium, the Nancy Eccles and Homer M. Hayward Family Foundation.

About Save the Redwoods League

For more than 95 years, Save the Redwoods League has protected and restored ancient redwood forests and connected people with their peace and beauty that these wonders of the natural world will flourish. In 1850, there were nearly 2 million acres of ancient coast redwood forests in California. Today, less than 5 percent remains and faces threats from past logging, poorly planned development and global climate change. Since its founding in 1918, the League has completed the purchase of more than 189,000 acres of forestland. For more information and to receive monthly email updates, please visit www.SaveTheRedwoods.org.

Editors, please note: For images or to schedule an interview with Save the Redwoods League and its scientists, please contact Donna Berry Glass at 415-561-0888/donna@landispr.com or Tarah Beaven at 415-561-0888/Tarah@landispr.com.

Contacts

Landis Communications, Inc.
Donna Berry Glass, 415-561-0888
donna@landispr.com
www.landispr.com
Tarah Beaven, 415-561-0888
tarah@landispr.com
www.landispr.com

Release Summary

Save the Redwoods League, along with a team of renowned scientists announced findings from a multiyear study aimed at predicting how global climate change will affect redwoods in old-growth forests.

Contacts

Landis Communications, Inc.
Donna Berry Glass, 415-561-0888
donna@landispr.com
www.landispr.com
Tarah Beaven, 415-561-0888
tarah@landispr.com
www.landispr.com