Scientist Anya Hopple looks at a probe inserted into a tree in a forested tract at the Smithsonian Environmental Research Center in Edgewater, MD. Photo by Dave Harp, Bay Journal

Scientist Anya Hopple looks at a probe inserted into a tree in a forested tract at the Smithsonian Environmental Research Center in Edgewater, MD. Hopple, a researcher at the Pacific Northwest National Laboratory, is leading a study about the impacts of sea level rise on forests. Photo by Dave Harp, Bay Journal

Updated: July 22, 2022

By Timothy B, Wheeler. Originally published in and (c) The Chesapeake Bay Journal, April 2022

In low-lying spots bordering the Chesapeake Bay, it’s easy to spot the dead trees, leafless and shorn of limbs. These “ghost forests,” their gray trunks pointing skyward from marsh or open water, bear mute witness to the creeping inundation of coastal land as sea level rises.

The switch from lush green forest to a stubble of trunks and snags is so gradual that it’s often not noticed until it’s obvious. But now, a team of scientists is undertaking what they expect to be a decade-long study of the transition by repeatedly flooding a pair of forest patches at the Smithsonian Environmental Research Center in Edgewater, MD.

Starting in June, each 2,000-square meter plot is to be doused periodically with 80,000 gallons of water. One will get freshwater, the equivalent of a 6-inch downpour in 10 hours. That’s many times the normal rainfall for the region, but it simulates the kind of extreme deluge that is predicted to become more common with the changing climate.

The other will get brackish water pumped from the nearby Rhode River, mimicking the episodic flooding from storm surges that are reaching progressively farther inland.

They’ll be watching for changes in the trees in both plots, which are mostly tulip poplar, red maple and American beech. But they’ll also be monitoring for less visible chemical signs of stress and decline.

“We’re interested in how the first storm surge that gets pushed up into a forest that has never had any exposure to seawater starts to impact the biology and the ecology of these upland forests,” said Pat Megonigal, an ecosystem ecologist and SERC’s associate director for research. “We know that just one isn’t going to kill the forest, so we’ll be running these 10-hour events with increasing frequency, basically simulating what we hope is a 10-year period of rising sea level and storms washing farther and farther into the forest.”

Pat Megonigal checks out plants among irrigation lines where scientists are studying the impacts of sea level rise on forests. Photo by Dave Harp, Bay Journal
Pat Megonigal, associate director for research at the Smithsonian Environmental Research Center in Edgewater, MD, checks out plants among irrigation lines where scientists are studying the impacts of sea level rise on forests. Photo by Dave Harp, Bay Journal
 

More than 150 square miles of forest in the Chesapeake region have turned into marsh since the mid-1800s, one study estimates, and the rate of forest loss has been accelerating dramatically.

Climate change combined with a gradual sinking of the land around the Bay are causing sea level to rise faster than in some other places, killing off trees and other vegetation that can’t tolerate the salty water.

Researchers will pipe freshwater to the forest from large nearby storage tanks that must be replenished by truck. They will pump water from the Rhode a short distance uphill to a 20,000- gallon inflatable bladder that will be refilled four times during each simulated flood. The water dribbles evenly into the forest plots via an irrigation system. A network of sensors installed on the trees and in the soil feed data to a computer, enabling researchers to track the impacts in real time.

High-tech as it sounds, it involved some good old-fashioned shopping for parts. “I spent a lot of time at Home Depot trying to find the right thing,” said Anya Hopple, a post-doctoral researcher with the Pacific Northwest National Laboratory who’s leading the project. Her lab, part of the Department of Energy, is partnering with the Smithsonian center and several other institutions on the project.

Home Depot yielded the caulking needed to seal “flux chambers,” small boxes attached to the trunks of trees to capture the methane and carbon dioxide the trees absorb or emit through their bark.

Some tree trunks are also fitted with paired sets of needles, which measure the flow of sap beneath the bark. Probes on and in the ground measure soil characteristics, including temperature, water content and methane both before and during flooding

Like carbon dioxide, methane is a gas that contributes to global warming. Depending on conditions, forests can absorb methane or release it. When the soil is dry, bacteria in the ground consume methane “like little natural gas stoves,” Megonigal said. But when the soil is flooded, different microbes produce methane, releasing it into the atmosphere.

Last year, during a test run with freshwater, Megonigal said they were surprised how quickly the soil began producing methane, as water ponded on the forest floor and some began to run off.

Researchers don’t expect to see dramatic changes to the forest plot that will be flooded with freshwater. Those trees may actually benefit from inundation because their growth is typically limited in late summer when there’s usually little rain.

The patch to be saturated with brackish water should be another story. The salt stays behind in the soil when the water drains away, impairing tree roots’ ability to absorb the water they need to grow and survive.

“Each time you do it, you’re adding a little more salt to the system,” he said, “and there will come a tipping point where the trees here aren’t adapted to the stress and they’ll start to decline.”

The information gleaned from this study will be used in computer modeling to help scientists refine predictions of how quickly and extensively upland forests might respond to extreme weather and sea level rise.

“This isn’t going to stop sea level rise,” Hopple said. “It’s just going to help us understand how it unfolds.”

Branching Out, Vol. 30, no. 2 (Spring 2022)

Branching Out is the free, quarterly newsletter of the Woodland Stewardship Education program. For more than 25 years, Branching Out has kept Maryland woodland owners and managers informed about ways to develop and enhance their natural areas, how to identify and control invasive plants and insects, and about news and regional online and in-person events.

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