Trees In Panamas Tropical Forests Are Growing Longer Roots In The Face Of Drought
Trees In Panamas Tropical Forests Are Growing Longer Roots In The Face Of Drought
When drought hits, tropical forests in Panama have a “rescue strategy” to adapt to the lack of water by sending their roots deeper underground, a new study has found. But scientists warn this may not be enough to save them from the ravages of climate change.
Tropical forests are home tothan half of the world’s terrestrial biodiversityandstore large quantities of global carbon. A lot of thiscarbon is held in their roots below ground. However, climate change ispushing up temperatures in these forestsand isexpected to bring extreme droughts.
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The scientists erected clear roof structures above the plots that excluded 50% to 70% of the rainfall from reaching the forest floor. The structures “look like partial greenhouse roofs,” study co-authorDaniela Cusackan ecosystem ecologist at Colorado State University, told Live Science. She has beenleading the PARCHED experiment since 2015. The researchers also dug trenches around the plots, which they lined with thick plastic so that the roots could not access water from outside the plots.
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The researchers used three methods to find out what was happening with the trees’ roots.
They sampled soil cores four times a year for five years. The cores extended about 8 inches (20 centimetres) below the surface.
The researchers also had root traps, which are mesh columns filled with soil. Every three months, they checked how many roots had grown into these columns.
The third method involved using small cameras to watch how the roots grew. When the PARCHED experiment was set up, the researchers sank acrylic tubes about 4 feet (1.2 meters) into the ground. These tubes have gaps at regular intervals with cameras looking into the soil.
All four forests, despite being different from each other, showed similar responses to a slowly drying environment.
Chronic drying significantly reduced the quantity of fine surface roots, reducing water and nutrient availability, but the trees had a number of strategies to survive a chronic drought.
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“The trees compensated for the surface-root dieoff by sending fine roots down deep into the soil, presumably for moisture acquisition,” Cusack said.
“It’s not enough root growth to compensate for the carbon or biomass loss,” she said. It’s like a “rescue strategy for trees to maintain their hydraulics and physiological function.”
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At the same time, surface roots were likely to be colonized byarbuscular mycorrhizal fungi. This type offungi forms a symbiotic relationship with plantsand increases the availability of water and nutrients.
The remaining surface roots appear to attract of these fungi to improve their access to nutrients, Cusack said.
Daniela Yaffarwho was not involved in this research but studies roots in tropical forests at theOak Ridge National Laboratoryin the U.S., welcomed the study but said that research was needed to understand how roots behaved in other tropical forests.
“While some species have long been adapted to drier environments, these adaptations typically evolve over extended periods,” she told Live Science. “The emerging challenge is that tropical forests, especially in regions unaccustomed to such dry conditions, may experience significant shifts and not enough time to adapt.”
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Species that are less able to adapt to extreme droughts may decline or disappear from the ecosystem, she said.
Cusack warned that the root adaptation was not a bulwark against climate change. “Our five-year study is pretty short in terms of the lives of tropical forests,” she said. “We don’t know how long the forest can sustain these adaptations.”
Lead authorAmanda Cordeiroa researcher at the University of Minnesota, who was a PhD candidate at Colorado State University during the study, told Live Science the next steps will be to assess the long-term consequences of the root changes, and how it impacts the overall ecosystem in terms of carbon storage and plant fitness. “For example, it is currently unclear whether increased deeper root production can help tropical forests withstand ongoing chronic drying beyond a few years,” she said.
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Published on:2026-01-01 20:20:00
Source: www.livescience.com
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We do not take any responsibility for its content, which remains solely the responsibility of the original publisher.
Author: uaetodaynews
Published on: 2026-01-02 01:24:00
Source: uaetodaynews.com
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