(Photo: Anthony R. Ambrose)

The Redwoods' Last Stand

The giant trees have endured for millennia, but rapidly rising temperatures and years-long drought are threatening their survival.
Apr 18, 2016· 13 MIN READ
Taylor Hill is an associate editor at TakePart covering environment and wildlife.

LOS GATOS, California—I’m dangling 180 feet off the ground in a harness, held by a single rope tied to a redwood tree named Joe. After a moment, I resume my ascent toward the canopy, a unique and largely unexplored ecosystem of mosses, lichen, and wildlife rarely glimpsed from the ground far below.

On a neighboring skyscraper-tall redwood, Cameron Williams, a biologist at the University of California, Berkeley, is rappelling to the pinnacle of an 850-year-old giant dubbed Grandfather. Williams, who has been climbing redwoods since 1999, has studied the impact of a record drought on the trees and has spent the past decade examining and documenting the hundreds of tiny plants that thrive in their upper reaches.

I started the hour-long ascent with my legs brushing some of the thousands of tiny cones and needles that stretch toward the sunlight. About 80 feet up, silence enveloped me as the ground below became obscured. The brain plays tricks—most likely out of self-preservation—morphing the thick foliage below into a safety net. As I hoist myself into the tree’s crown, there’s an overwhelming feeling of safety. The wind is blowing, but Joe the tree seems too large to sway.

FULL COVERAGE: Fight for the Forests

We’re not deep in some primeval forest but in a backyard near Los Gatos, an affluent Silicon Valley town nestled in the foothills of the Santa Cruz Mountains and best known as the home of Netflix. For one week a year, the landowner allows Williams and recreational-tree-climbing specialist Tim Kovar to lead four-person expeditions up Grandfather’s 12-foot-wide trunk and into the redwood canopy. It’s a rare opportunity—most surviving old-growth groves are under state and national park management and off-limits to climbing.

Grandfather’s trunk bears scars from where hundred-year-old branches had been chopped off. A previous owner had wanted to take the ax to the tree and the entire grove, only abandoning the plan in the face of community outrage. Today, after 160 years of logging, there remain just 120,000 acres of old-growth redwoods of the forests that once covered more than 2 million acres of California, from Big Sur to the Oregon border. Most now survive in state and national parks like the nearby Big Basin Redwoods State Park, which protects 11,000 acres of trees.

Coastal redwoods and their even bigger and longer-lived inland cousins, the giant sequoias, are not just trees that inspire awe in the most nature-averse city dweller. The largest organisms on Earth, redwoods and sequoias absorb more planet-warming carbon dioxide than any other trees. As scientists have recently discovered, the giant trees continue to grow and sequester carbon even after a thousand years. Their branches and house-size canopies shelter a host of endangered animals, from the northern spotted owl and marbled murrelet—a rare seabird—to the Pacific fisher and the Humboldt marten, two weasel-like critters.

Endangered redwood animals include the northern spotted owl, marbled murrelet, Pacific fisher, Humboldt marten, and Vaux's swift. (Photos: Michael Sewell/Getty Images; USFS/Flickr; USFS Region 5/Flickr; Dani Kropivnik/wikipedia; Jamie Chavez/Flickr)

Redwoods are built for survival. Their foot-plus-thick bark shields the trees from fatal fires, and a red-tinged chemical responsible for giving the trees their namesake color protects them against insects and fungus. They are the fastest-growing conifers in the world, reaching heights of 379 feet, with trunks 30 feet in diameter, leaving would-be competitors in the shade. Giant Sequoias grow on the western slopes of California’s Sierra Nevada and can live as long as 3,000 years. Coastal redwoods, which can live to be more than 2,000 years old, sprout along a 20-mile-wide, 470-mile-long ribbon on the continent’s edge, where ever-present fog supplies the trees with life-giving moisture and nutrients.

Now that fog is fast fading away. Rising temperatures brought on by global warming are resulting in more fog-free days on the coast, while record drought deprives both redwoods and sequoias of water. The rapidity of the change in their environment wrought by the burning of fossil fuels threatens to overwhelm the giant trees.

“The climate changes that redwoods have seen in the past, they were taking place over millennia,” says Todd Dawson, a redwood expert and a professor at UC Berkeley. “It would take a thousand years for temperatures to change over two degrees. Now it’s taking three years.”

If the biggest, most formidable trees on the planet can’t survive climate change, can any?

Surviving Drought

Deep inside UC Berkeley’s Life Sciences building, Dawson stands amid molecule-separating mass spectrometer instruments—equipment he and fellow researchers use to study how redwoods are coping with climate change.

As the lab’s director, Dawson has studied redwoods for more than 25 years.

Redwood expert Todd Dawson in his laboratory at UC Berkeley. (Photo: Michael Short)

Early on, Dawson discovered the trees’ ability to extract water from the fog that often blankets the Northern California coast, absorbing moisture through foliage.

“There was literally nothing about the role fog played on coastal redwoods before we started looking in 1990,” Dawson says. In his office a few floors up from the basement of his lab, Dawson grabs a redwood tree slice leaning on his desk. He has it on hand to help illustrate the tree’s water-transporting characteristics to inquisitive students. His eyes light up behind his glasses as his hands travel over the hundreds of rings signifying hundreds of years of life.

“They not only take water up their roots out of the soil; they can take it up directly from their leaves at the top of the canopy, which means they don’t have to transport that water all of the way to the top of the canopy; it’s basically being taken out of the sky,” he says.

Now his team and other scientists are investigating how redwoods will cope with a lack of water and fog as temperatures rise and droughts become more intense and frequent. Fifteen of the 16 hottest years on record worldwide have occurred since 2001, and that sustained temperature increase has been linked to a drier and hotter California. That means lower snowpack levels in the Sierra Nevada, a vital water source for the giant sequoia during dry summer months.

A die-off of redwoods could have global implications. A 2012 study found that large trees older than 100 years store the bulk of a forest’s carbon, provide habitat for a third of wildlife species, and play a key role in the health of larger ecosystems. Disturbingly, the researchers discovered that big trees were dying at 10 times the rate of smaller trees around the world.

Dawson and his colleague Anthony Ambrose decided to get a closer look at how the drought was affecting redwoods. Ambrose has been climbing to the tops of these trees for more than two decades, and last summer he and fellow researchers spent more than 30 days installing humidity and temperature sensors on the upper limbs of 50 giant sequoia canopies.

UC Berkeley biologist Wendy Baxter takes data readings from equipment installed in a giant sequoia canopy. (Photo: Anthony R. Ambrose)

He selected four plots—two zones where ground surveys had shown trees were dealing with severe water stress and two zones where sequoias were faring better—in Sequoia National Park’s Giant Forest.

“The trees in the stressed areas were showing higher levels of dieback—where they drop branches and foliage—than we’d ever seen,” Ambrose says. “No one has documented or recorded dieback levels like we observed in the 125-year history of Sequoia National Park.” Some of the trees dropped nearly half their foliage between the summers of 2013 and 2014. An average summer sees sequoias drop around 5 percent of their foliage. With the dramatic leaf loss, the trees conserve water in their trunks and survive. It’s much easier for a tree to regrow branches, leaves, and cones than it is for it to try to regrow a stump.

“This method of shedding foliage is a really effective way the trees have of minimizing how much water stress they experience,” Ambrose says. “It’s basically like a safety valve to make sure the main trunk doesn’t die.”

In comparing the plots, the researchers found that trees with record dieback were no more water-stressed than trees showing lower foliage loss.

“These trees are remarkably resilient to drought; they’ve survived thousands of years going through extreme weather events, and overall, we’re not seeing the mortality events in sequoias we’re seeing in other tree species,” Ambrose says.

So have the sequoias averted disaster, especially as El Niño soaks the Sierra after four years of record drought? At his Berkeley lab, Dawson isn’t so sure.

“With this most recent drought, I think we’ve hit a tipping point,” he says. “The trees may have been able to cope with the water stress, but the canopy loss recorded in these 2,000- and 3,000-year-old trees—we’ve never seen a four-year period like this.”

Now Dawson fears the remaining 75 giant sequoia groves scattered across the mountainous 250-mile Sierra Nevada range won’t have enough time to recover. The higher temperatures and drought that have sapped California for the past four years could be the new normal.

“All of the records we have go back millions of years, from ocean sedimentary cores, and all of the really long-term records allow us to measure how climate has changed on the earth over time, but we have never recorded any changes with the velocity that we’re seeing today,” Dawson says.

Fire Season

Climate change is complicating environmental scientist Portia Halbert’s efforts to preserve ancient redwood groves at Big Basin. Some 90 years of wildfire suppression has put the 2,000-year-old trees at grave risk.

An eight-foot-wide slice of one redwood is mounted outside the park’s headquarters, its yearly growth rings marking the march of time. The first ring dates from 544 A.D., the year of the tree’s birth. The redwood was 948 years old when Columbus landed on America’s shores. In 1936, the year it turned 1,392, the tree died at the hands of loggers.

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For most of the tree’s life, fires naturally raged through the redwood forest every decade or so. Then a Smokey Bear ethos took hold.

“For years, we operated under the idea that forest fires were all bad, so we fought to stop all of them,” says Halbert, decked out head to toe in the wildlife ranger green of a California Department of Parks and Recreation uniform as she walks along Dool ridge just north of Big Basin’s famed redwood loop trail—home to the 293-foot-tall Mother of the Forest tree. The ridge separates designated burn plots in the park.

But redwoods aren’t just fire-resistant; they’re also fire encouragers, Halbert says while crouching down and digging into the mulch at the base of a tree.

Environmental scientist Portia Halbert. Inset: Halbert holding mulch from the base of a coastal redwood tree. (Photos: Michael Short)

“They create these furrows at the base, which collect leaf litter and act as small chimneys for fires,” she says. “Their thick bark allows them to survive most fires, while other competing tree species die off.” Those chimneys also provide critical nesting habitat for bats and Vaux’s swifts—a bird species that follows the distribution of the coastal redwood and is thought to be dropping in numbers as old-growth forests have declined.

In a natural setting, where fires would occur every seven to 25 years on average, forest ground cover won’t reach heights that will severely harm redwoods.

Unchecked by fire, tan oaks grow 20 to 40 feet high. When wildfires break out, the hotter temperatures and drier conditions wrought by climate change can turn them into infernos that incinerate everything in their path, including thousand-year-old redwoods.

In the 1970s, Big Basin was one of the first parks to undertake controlled burns. Looking out to the left side of Dool ridge, Halbert sees the fruits of a prescribed forest fire.

The 100-acre site was last burned in 2014, leaving the forest floor dotted with sparse plants and saplings amid the redwoods. Sight lines through the trees remain mostly unobstructed. But to the right of the ridge, Halbert grimaces at the thick understory that nearly encroaches onto the road—this portion of the forest hasn’t been burned for decades.

“We’ve only got a couple weeks out of the whole season where we can burn in October,” Halbert says. There has to be just enough rain so that the fire won’t burn out of control but will still light and just enough wind to make sure air quality isn’t an issue, but not so much wind that it whips the fire into a frenzy.

The record drought, though, means prescribed burns have lasted for two or three days a year rather than the typical two or three weeks.

The window is getting even tighter. According to the U.S. Forest Service, wildfire season in the West is 78 days longer today than it was in the 1970s—meaning there are even fewer days to safely light a fire in the redwood region.

Walking Big Basin’s soggy trails on a cold, damp day in mid-March, Halbert says she hasn’t forgotten what the past few winters in the region have felt like.

“We keep getting these beautiful days in January, and we talk about how we’re going to become like Santa Barbara and our climate will be like it is 200 miles to the south of us,” she says—a place far outside the redwoods’ range. As temperatures continue to rise across the planet, she wonders what that means for the future of these trees.


Fading Fog

As climate change pushes giant sequoias in the Sierra to shed foliage, warming temperatures at the southern end of the coastal redwood range are rolling back the region’s famous fog banks. That could spell trouble.

The trees pull about a third of their entire water intake from fog during the hot summer months when rain does not fall. A 2010 study found that fog levels along much of the coastal redwood range diminished by 30 percent over the past 60 years. In the summer, the cold waters off Northern California cool the air above the Pacific Ocean, which condenses into fog. When inland areas heat up during the summer, the fog is drawn toward the coast. But because of climate change, the upper layers of the ocean are warming and thus creating less fog.

Originally, scientists believed this would imperil coastal redwood seedlings and saplings as well as mature trees, which absorb moisture from fog directly into foliage to avoid wasting energy pulling water from roots hundreds of feet below.

Despite the falloff in fog, Humboldt State University researchers in 2013 found that most trees in the coastal redwood range had increased their growth rate—especially in the redwoods’ northernmost range.

“Fog is how the coastal redwoods are able to get water at certain times of the year, but it also blocks sunlight,” says Emily Burns, a research associate at the University of California, Santa Cruz, and science director for Save the Redwoods League, the San Francisco nonprofit that funded the 2013 study. “They’ve clearly had enough water over the past three decades, and with more sunlight, they’ve been able to grow quicker.”

News reports characterized the findings as a rare benefit of global warming—the redwoods were growing, not dying. But according to Dawson, the story was only half told.

Fog touches the tops of the coastal redwoods. (Photo: Michael Short)

“Yes, less fog means more sunshine, and plants need sunshine to grow, but that benefit is going to be short-lived, because those sunny days are going to get longer and longer and hotter and hotter,” he says. “And when that fog isn’t there, those trees are going to run out of water.”

Data shows that coastal redwoods have grown slower in their southern range since the 1970s.

“If the southern range is any indication of what we could see in the northern end, these trees are going to stop growing,” Dawson says.

Fog plays other roles in keeping redwood forests healthy. Winds coming off the Pacific Ocean’s nutrient-rich California current pick up nitrogen—a key ingredient in supplementing tree growth. Nitrogen-laced fog then hits the coastal redwoods, drips down through the soil, and is taken up by the trees’ roots.

“If there’s less fog in the southern range, they’ll lose part of that nitrogen subsidy that these trees have grown pretty dependent on for summer fertilization,” says Dawson.

Trees on the Move

Could climate change shift California’s state tree north to Oregon?

That’s a possibility, says Paul Ringgold, chief program officer at Save the Redwoods League. As part of a 10-year, multimillion-dollar initiative, Save the Redwoods has funded multiple studies on climate change’s effect on redwood forests.

Researchers at the University of California, Merced, found that coastal redwoods south of San Francisco must move north as the climate changes.

The fog, ample winter rains, and moderate year-round temperatures that have allowed coastal redwoods to thrive will be replaced by an increasing number of warm-weather days. What is considered “exceptionally warm” today will be the norm within 15 to 20 years, according to scientists.

The quick climatic shift is due to the forests’ close proximity to the ocean, which has a unique effect on area temperatures and rainfall.

Scientists believe that climate change could shift coastal redwood forests north. (Data: M. Fernández, H.H. Hamilton, and L.M. Kueppers Map: Getty Images; infographic: Marc Fusco)

“Global climate models often fail to capture climate change’s impact on local weather patterns,” says Miguel Fernandez, lead author of the study and a graduate student at the University of California, Merced. “This data is critical to predict how individual species, like the coast redwood, will cope with climate change.”

Fourteen redwood parks in California were identified as vulnerable to such climate shifts. Fernandez found that the expected contraction of redwoods in the south would be balanced by redwood expansion to the north. In other words, some forests in Oregon, extending up to 120 miles north of the tree’s current range, could be transformed into redwood groves. That has prompted groups such as Save the Redwoods, which buys private forestland and transfers ownership to the state parks, to consider getting into the business of redwood prospecting in Oregon.

“Our efforts in the future could be looking at areas that may not even have redwoods but where we can accommodate, restore, or add them there in the future,” says Ringgold.

At UC Berkeley, Dawson says the research points to a shrinking of coastal and giant sequoia redwood ranges. “I don’t think we’re going to lose them outright; these are resilient trees, and they’ve seen a lot of dramatic changes in the past, but I think we’re going to have smaller groves then we’ve ever seen.”

Saving the Trees

At the Grandfather tree in Los Gatos, Williams has completed another up-and-down expedition, the four participants in this go-round descending to the forest floor with “perma-grins,” as the 40-year-old dubs the recurring facial expression.

“After they have this experience, on rope, supported by this massive living organism, they’re humbled by it and want to know what they can do to save these trees,” Williams says, a smile on his face too.

His grin fades. “When we talk about the short span of a human lifetime compared to these trees, and how a vast majority of these original, primeval forests have been leveled by the chain saw, it’s humbling to realize in a human time frame, we can cause so much destruction.”