X-ray
technology reveals California's forests are in for a radical
transformation
20
October, 2015
Biologist
Greg Asner first heard the numbers in April, but they did little to
prepare him for what he saw.
The
Forest Service had estimated that nearly 12.5 million trees in the
state's southern and central forests were dead. But as Asner peered
down upon the same forests from his airplane at 6,000 feet, he saw
something far worse.
California's
drought-parched landscape was poised for a radical transformation.
Much of the low-elevation forests near Mt. Pinos in the Los Padres
National Forest and in Pinnacles National Park were going to
disappear if trends continued.
A
scientist with the Carnegie Institution for Science, Asner has a
practiced eye for forest health, and with instruments aboard his
plane that give him X-ray eyes into the foliage, he is able to assess
not just dead trees but trees so stressed by the drought that their
death is likely.
For
three weeks this summer, he and his team flew out of Sacramento and
Bakersfield, recording the devastation. Even if the drought were to
end in a historic El NiƱo this winter, Asner worries that the most
stressed trees will continue to fail.
The U.S. Forest Service shot this video of the Stanislaus National Forest in the central Sierra Nevada in July. Flying at about 1,000 feet, covering about five acres per second, Forest Service observers count dead trees -- conspicuous for the brown foliage -- and extrapolate over plots that are the approximate size of a football field.
There
is no saying which trees will die, but by his estimation the count
statewide could be close to 120 million — as much as 20% of the
state's forests.
Tarnished
beauty
On
a hot summer morning, Asner boards his Dornier 228, a twin turboprop,
at McClellan Airfield on what he hopes will be the final day of his
survey. He needs to fly along the coast toward the Oregon border, but
conditions are deteriorating.
An
armada of firefighting aircraft has taken off at dawn to fight an
outbreak of new wildfires to the north. The air is hazy with smoke.
Above
the city of Santa Rosa, the plane veers northwest over the forests
west of Guerneville toward the Lost Coast.
Asner,
47, sits in the cabin with Robin Martin, who manages the instruments
and relays navigation instructions to the cockpit. They work in front
of two monitors. She's a lefty and he's a righty, so they share a
mouse pad. It helps that they are married.
To
understand how Asner's instruments work, you have to first step
inside a leaf. There amid the busy factory of photosynthesis, water
molecules are bending, stretching, rotating and vibrating.
These
motions resonate into the atmosphere as reflected light, which is
picked up by an on-board spectrometer that divides it into 480 bands
from ultraviolet to shortwave.
Much
like star light reveals a star's distant chemistry, these bands are
analyzed for their chemical content. Water is the primary focus: The
more water in the leaves, the less reflected light, and the more
reflected light, the drier the foliage.
The
spectrometer works in conjunction with a laser that fans out beneath
the aircraft, creating a 3-D image of the forest below.
By
marrying the data from the spectrometer and the laser, Asner creates
topographic images that show the condition of the forest. Healthy
trees are blue, and drought-stressed trees run from mild (yellow) to
severe (red).
The
images help him to correlate terrain and tree stress. Higher tree
stress, for example, often occurs on steep slopes and near meadows.
For
Asner's mostly Canadian crew, the Golden State is a tarnished beauty.
"It's
just burnt," says pilot Don Koopmans of Saskatchewan.
Asner's
assessment is equally blunt.
The
mountains ringing Los Angeles are "a tinderbox."
The
oak forests in the Sierra foothills are "in big trouble."
Pinnacles
is "not a happy place for a tree," and the forests
northwest of Redding are surprisingly compromised.
To
explain what 120 million trees dying across the state might mean,
Asner paints a picture of California's ecological diversity and size.
He then takes out his calculator.
He
estimates there are 585 million to 1.6 billion trees in the state's
forests and apologizes for not being more precise. An accurate
census, he says, has never been conducted, but 120 million represents
7% to 20%. Under normal circumstances, forests lose between 1% and
1.5% of their trees annually.
"At
what point will the forest change into something else? We don't
know," Asner says. "We don't know when the lack of rain
will lead to runaway conditions where the forests are beyond repair."
Such
a transition, especially in the lower elevations, is already underway
in parts of the West, where nearly 6 billion trees — 13% of the
area of western forests — died from 1997 to 2010 because of drought
and the bark beetle.
Yet
as grave as the effects of the drought have been, Asner insists there
is hope.
"If
I looked around and thought there was no way to deal with these
problems, I would be pessimistic," he says. "But there is a
way with effective management."
Among
other things, aerial images can help land managers identify
vulnerable terrain and consider how to strengthen stressed trees and
protect healthy ones.
A
march uphill
The
study of forests is a formative science, and conclusions — like a
definitive number for the trees that will die — are hard to come
by.
Park
Williams, a bioclimatologist at the Lamont-Doherty Earth Observatory
at Columbia University who has been studying the California drought,
is not surprised by Asner's numbers.
If
only half succumb, it would register as a very big event, Williams
said.
"Think
of it as one gigantic ax swing at the forest," he said. "It
takes a huge chunk out of the population, and if we see two or three
more of these droughts, then that's even more ax swings."
Jeffrey
Hicke, an associate professor in the department of geography at the
University of Idaho, said that regardless of current tree mortality
rates, the state will not lose its forests entirely. But he adds,
based on the observations, the low-elevation forests are in greatest
jeopardy.
Beyond
this year's drought, as climate change brings warming, tree species
will migrate, Hicke said. Older trees will die, and younger trees
will take root.
"Species
will march uphill as the climate warms," Hicke said. "Sequoia
forests might become ponderosa pine or oak. Oak forests might become
grasslands. There won't be a wholesale conversion of forest to
non-forest, at least not initially."
The
Forest Service survey of California forests, an annual assessment
made more urgent by the drought, follows a protocol more low-tech
than Asner's. Flying at 1,000 feet, two observers count dead trees
and extrapolate over football field-size plots. With their brown,
burnt foliage, dead trees are easy to read.
Flying
over more of the state this summer, the agency had tallied 21 million
dead trees statewide. Recent fires have prevented observers from
completing the work.
Asner
hopes to fly the state again, possibly by next spring, to chart
progression of the damage. But first he needs to find agencies that
will pay for his work. The cost for the three-week mid-summer survey
was $250,000, paid by a grant from the David and Lucile Packard
Foundation.
The
foundation funded the research because Asner "is measuring the
world in a different way," said Chad English, the foundation's
science program officer. "This gives us an opportunity to ask
new questions and gives us a chance to reshape the problems in front
of us."
Asner
believes the data will give state officials an opportunity to manage
forests in the context of drought and climate change.
The
California Department of Forestry and Fire Protection, he says, is
interested in the findings because the images can provide a more
accurate picture of how fire behaves in dry terrain, which can help
with the location of fire breaks and the management of controlled
burns.
Asner
also has met with representatives from the California Environmental
Protection Agency, whose deputy secretary for the state's climate
policy, Ashley Conrad-Saydah, was stunned when she saw his findings.
"Our
current survey methods tell us something different from what Greg is
telling us," she said. "We can fly over, do remote sensing
and take physical measurements of the trees, but you don't get a
sense of how bad the drought is for these iconic landscapes that make
California whole until you see his data."
Diminishment
of the state's forests means the loss of clean water and erosion
control, recreation and jobs, Conrad-Saydah said. As trees die,
decompose or burn, carbon is released into the atmosphere,
contributing to global warming, she said. Forests become scrublands
with 97% less carbon.
'This
is our chance'
A
little before noon, Asner's flight is cut short by smoke and the
Dornier soon passes over the patchwork suburbs of Sacramento and
lands.
Asner
knows that dying trees play well in the media, but they have an
unfortunate side effect of turning "viewers numb and
decision-makers to other issues they think can actually be managed."
He
hopes there's an alternative.
"This
is our chance for science to play a role in supporting innovations in
management and policy, rather than just bringing bad news that is not
actionable," he wrote in a recent email to colleagues, both a
reminder and a challenge.
Once back in the hangar, Asner opens the side doors of the Dornier. The Sacramento blast furnace hits him in the face. It's 108 degrees.
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