Forest can adapt to climate change, but not quickly enough
While most forests in the U.S. have the potential to adapt to hotter,
dryer conditions, they aren't changing quickly enough to avoid the impending stress

Date:
July 10, 2023
Source:
University of California - Santa Barbara
Summary:
America's forests have a tough time in store for them. Climate
change is increasing temperatures and decreasing moisture levels
across the country, not a winning combination for trees.


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FULL STORY ========================================================================== America's forests have a tough time in store for them. Climate change
is increasing temperatures and decreasing moisture levels across the
country, not a winning combination for trees.

Researchers at UC Santa Barbara and University of Utah sought to determine
how our sylvan ecosystems might fare in the near future. The authors
combined mathematical models and data collected by the U.S. Forest Service
and plant physiologists to understand the vulnerability of woodlands
to drought. Their findings suggest that, while most forests have the
potential to adapt to hotter, dryer conditions, they aren't changing
quickly enough to avoid the impending stress. The study, published in
Global Change Biology, serves as a benchmark for future forest research,
as well as a guide for conservation and management.

"We were concerned to find that forests were not changing fast enough to
avoid increased water stress due to climate change," said first author
Greg Quetin, an assistant project scientist in the UCSB Department
of Geography. "But there is hope, as most forests in the continental
U.S. contained enough functional diversity to increase their drought
tolerance through shifts in species composition." There are a few ways
forests can adapt to drier conditions. Individual trees can alter their activity, physiology and gene expression to the new conditions they
face. Drought-tolerant species already present in the ecosystem can also
become more dominant. The forest composition can change as well, with
hardier species migrating in as more vulnerable species die off. Evolution
can also change species via natural selection, although the effect will
be negligible over the next century for such long-lived organisms.

Quetin and his co-authors investigated whether the traits and species
already present in the country's forests are sufficient for them to
acclimate to future climate change without widespread mortality. Much
of the data came from the Forest Inventory and Analysis program, a comprehensive database run by the U.S.

Forest Service on the state of the country's woodlands that has been standardized since the year 2000. This database includes forest inventory
plots that document location, species, size, density and health of
trees, as well as tree growth, mortality and harvesting. Quetin and his colleagues also used data from the Xylem Functional Traits Database,
where measurements of tree physiology and hydraulic traits are compiled, cross-referencing this database with the Forest Inventory.

Finally, the team developed a model that simulates a forest's response to increased water stress. The model predicts photosynthesis (or CO2 in), respiration and growth (CO2 out), as well as plant stress. They also
included an optimization technique to look at how changes to leaf area
could mediate the stress caused by changing environmental conditions.

"All the data to date suggest that leaf area is just the biggest lever
that individual trees can throw to manage water stress," said co-author
Lee Anderegg, an assistant professor in the Department of Ecology,
Evolution, and Marine Biology. Forests in drier areas tend toward sparser canopies, while forests in wetter climes can afford thick foliage.

The researchers found that many of America's forests have the capacity to adapt. The model revealed that 88% of the forests across the continental
U.S.

have the trait and species diversity to acclimate to climate change,
and they are starting to. However, most weren't adapting as quickly as
the model predicted was necessary to avoid increased water stress and subsequent mortality.

"It's concerning that we don't see the required shifts that our model
predicts need to happen," said co-author Anna Trugman, an assistant
professor in the Department of Geography. "But I think there's still
room for hope." For instance, biodiversity stood out in its ability to
buffer the impact of climate change on a given forest.

"Trees are slow movers, as we know," Trugman continued. "I've seen the
pace of those Ents in 'The Lord of the Rings.'" "They're still holding
the Entmoot at the moment," Anderegg added.

Higher carbon dioxide concentrations introduce a confounding factor in the team's calculations. Plants lose water through the same pores that they
use to take up carbon dioxide. So if there's more CO2 in the atmosphere,
plants can decrease the size of these pore openings and still acquire
the carbon they need for photosynthesis. This reduces the amount of
water escaping from their leaves.

But the atmosphere is also dryer in a warming climate, Anderegg
explained, so leaves lose more water. It's a complex system with a lot
of uncertainty and compensating factors, which requires nuanced models
to disentangle. And the energy involved in transporting this water is
far from negligible, as the authors discovered in a previous paper.

The team is now collecting their own data on changes in tree physiology following climate-driven fires in Sequoia National Park, trying to
empirically verify how much trees can adjust their physiology. The authors
are also investigating if trees can avoid future water stress entirely
through changes to their leaf area, and whether maximizing carbon gain
or stress avoidance is more limiting.

Forests are already beginning to change. Sparser canopies will become
more common as the atmosphere becomes drier. Woodlands will also likely
have a different mix of species than they historically had. These factors
all impact forest carbon storage as well. Forests currently sequester
about 30% of anthropogenic emissions, but the group recently found that
this would likely decrease under climate change.

Management strategies that encourage forests to adapt will be
critical. "We need to be thinking about these forests not as static
things -- that need to exist just as they are right now -- but
as healthy things that need to change to keep up with the climate,"
Anderegg said. Facilitating gradual change will help prevent abrupt, catastrophic changes, like wildfires and die-offs, that are detrimental
to the forests, wildlife and people living nearby.

Resource managers could begin planting areas with more drought-tolerant
species and conducting prescribed burns to promote healthy woodlands. But
most of all, we need to mitigate climate change, the authors said.

Our future depends on society's emission trajectory. Climate adaptation
is no easier than climate mitigation, Quetin noted. And less climate
change means less adaptation is necessary.

* RELATED_TOPICS
o Plants_&_Animals
# Nature # Trees # Endangered_Animals # Endangered_Plants
o Earth_&_Climate
# Forest # Environmental_Awareness # Climate #
Global_Warming
* RELATED_TERMS
o Climate_change_mitigation o Climate o Deforestation o Forest
o Attribution_of_recent_climate_change o Global_warming
o Consensus_of_scientists_regarding_global_warming o
Effects_of_global_warming

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Story Source: Materials provided by
University_of_California_-_Santa_Barbara. Original written by Harrison
Tasoff. Note: Content may be edited for style and length.


========================================================================== Journal Reference:
1. G. R. Quetin, L. D. L. Anderegg, I. Boving, W. R. L. Anderegg, A. T.

Trugman. Observed forest trait velocities have not kept pace with
hydraulic stress from climate change. Global Change Biology, 2023;
DOI: 10.1111/gcb.16847 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2023/07/230710133054.htm

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