Tuesday, May 26, 2015

Tall Trees Sucked Dry by Global Warming

http://www.scientificamerican.com/article/tall-trees-sucked-dry-by-global-warming/

By Elizabeth Harball and ClimateWire | May 26, 2015

A well-known scientific principle describing how water moves through plants can help explain why trees may struggle to survive as the planet warms, scientists say in a new study.

Using an equation called Darcy’s law, the research also helps explain why iconic giant trees like the California redwood could be especially vulnerable to rising temperatures. The concept was outlined in a paper published this month in the journal Nature Climate Change.

Plants’ vascular systems can be likened to bunches of straws, explained lead author Nathan McDowell, a researcher at Los Alamos National Laboratory’s Earth and Environmental Sciences Division, meaning water moves from the roots to the branches through tension.

The atmosphere pulls water through plants’ systems, and “the warmer and drier the air is—which is what climate change is doing—it’s increasing the evaporative demand,” said McDowell. “The warmer the air is, the more water it can hold, so it sucks harder on those straws.”

To keep from dehydrating, plants start to close their stomata—the openings in leaves through which they take in CO2.

But as stomata close during a drought, they can’t photosynthesize as effectively, McDowell said, preventing trees from taking advantage of more CO2 in the atmosphere.

“It’s like going to a buffet with duct tape over your mouth,” said McDowell.

Bigger trees, of course, have longer “straws” moving water through their systems than shorter trees, meaning they have to close their stomata even more, resulting in greater stress to the plant, McDowell explained.

For this reason, the study states, Darcy’s law shows that “shrubby, low-statured plants are most likely to survive, whereas tall, old-growth forests are particularly vulnerable to warming climate.”

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But McDowell said it’s important to note that his paper has consequences that apply to more places than just today’s current drought hot spots.

“The big punch line of the paper is that globally, everywhere, temperatures are going up,” he said.

Because Darcy’s law applies to all plants, tall tree species around the world could be vulnerable to climate change. That includes many beyond the U.S. Southwest and other regions where scientists are already fairly certain forest ecosystems are likely to suffer.

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