© 2024 Maine Public

Bangor Studio/Membership Department
63 Texas Ave.
Bangor, ME 04401

Lewiston Studio
1450 Lisbon St.
Lewiston, ME 04240

Portland Studio
323 Marginal Way
Portland, ME 04101

Registered 501(c)(3) EIN: 22-3171529
Play Live Radio
Next Up:
0:00
0:00
0:00 0:00
Available On Air Stations
Scroll down to see all available streams.
A deep dive into Maine's response, one county at a time.

Forget the views: scientists say Cadillac Mountain is a prime spot for studying climate change

Tourists on the summit of Cadillac Mountain, in Acadia National Park. Signs direct visitors to stay on the path, to avoid trampling sensitive mountain flora.
Murray Carpenter
/
Maine Public
Tourists on the summit of Cadillac Mountain, in Acadia National Park. Signs direct visitors to stay on the path, to avoid trampling sensitive mountain flora.

On a perfect summer day at the summit of Acadia's Cadillac Mountain, throngs of tourists are taking in the expansive view of rocky ledges, surrounding hills and the Gulf of Maine spreading out endlessly to the south.

But Chris Nadeau is focused on the tiny plants at his feet, shooting up from thin soil between the granite that covers much of the mountain top. Just a few inches tall, with small white flowers, this is three-toothed cinquefoil.

“It’s a plant that’s been identified to be really sensitive to climate change,” Nadeau says.

This story is part of our series "Climate Driven: A deep dive into Maine's response, one county at a time."

Nadeau, the Climate Change Adaptation Scientist at the nearby Schoodic Institute, says scientists have done modeling to assess the plant's future as temperatures rise.

“They predict that the plant will lose 98% of its distribution in Maine because of the increased temperatures," Nadeau says. "So it’s a really good subject for understanding how can we make a population more resilient to climate change. How do we stop that 98% loss throughout Maine?”

On this day, Nadeau is checking on three experimental plots on Cadillac: One here at the summit, another that's partway down the mountain. And a third is at the base which, is about 2 degrees Celsius warmer than the summit. That's important, because it roughly approximates the temperature that models suggest will be found at the summit in 50 years.

A graphic from the Schoodic Institute displays the temperature difference between the top and bottom of Cadillac Mountain, which researchers are using to study the long-term effects of climate change on plant species.
Chris Nadeau
/
Schoodic Institute
A graphic from the Schoodic Institute displays the temperature difference between the top and bottom of Cadillac Mountain, which researchers are using to study the long-term effects of climate change on plant species.

Nadeau's work is related to assisted migration, which simply means physically moving plants and animals to locations that might suit them in a changing climate.

But Nadeau is looking at an even finer point — he's wondering whether certain varieties of the same species might be better designed for warming temperatures. And he covered a lot of ground last year to find his subjects.

“I hiked over 60 miles, up over 15,000 feet," Nadeau says. "I visited 31 different locations throughout New England, ranging from Gloucester, Massachusetts, north to Borestone Mountain in central Maine, and I collected 100 plants from each one of those locations.”

He then planted these cinquefoils in an experimental plot on the Schoodic peninsula, and the three plots on Cadillac. The goal is to see if samples of the same species from other locations respond differently to the local conditions.

Nadeau wondered if increasing the genetic diversity of the cinquefoil, and relocating specimens that might already be adapted to warmer climates, could one day help cinquefoil to thrive in the warmer temperatures.

Abe Miller-Rushing, the science coordinator at Acadia National Park, says that Cadillac Mountain is a perfect place to do this type of study, because it has such dramatically different climates at its base and summit.

"It's great that with a 10-minute drive, you can go 50 years into the future, climate-wise," Miller-Rushing says. "And so that gives you the opportunity to test out a lot of different things and learn a lot of different things about how plants will respond to future climate conditions."

Chris Nadeau gathered specimens of three-toothed cinquefoil from all over New England, and is testing them in several plots on Cadillac Mountain to see if any have adaptive advantages.
Murray Carpenter
/
Maine Public
Chris Nadeau gathered specimens of three-toothed cinquefoil from all over New England, and is testing them in several plots on Cadillac Mountain to see if any have adaptive advantages.

And in the interest of public education, he says Cadillac's popularity also puts thousands of visitors in proximity to scientific research.

"We've found that visitors are really interested in understanding the science that's going on here," he says, "and also really interested in understanding the actions that we're taking to protect our natural and cultural resources."

Back on the summit near Nadeau’s test site, tourist Kelly Schoeller is visiting from Wisconsin. She’s glad to hear about the climate research, which she says is a good reminder of the more pedestrian aspects of conservation, such as the park's project to restore the plants on Cadillac that have been trampled underfoot.

Three-toothed cinquefoil, a low-growing flower that thrives on Cadillac and other New England mountains, may be sensitive to a warming climate.
Murray Carpenter
/
Maine Public
Three-toothed cinquefoil, a low-growing flower that thrives on Cadillac and other New England mountains, may be sensitive to a warming climate.

“It’s very important that people respect that you can not go off these trails, you can not walk on the the vegetation," she says. "That, sure your photo shoot is important, but we’ve all got to respect, and stay on the trails, and make sure we’re not disrupting anything."

Nearby, Nadeau is checking the growth of his plants. Surprisingly, he’s not yet seen many differences between the samples gathered from different locations.

“And there might not be any differences," he says. "And that’s the whole point of the study. People have proposed that this should work, this is a climate change adaptation strategy that should work, and people are implementing this strategy all around the world, with all sorts of different species. But maybe it doesn’t work. And that’s the role of science is to test these things."

And he says that in addition to serving as a research station, Cadillac will play another significant role as the climate changes.

"Even though it is going to warm up here during climate change, it might not become too warm for a lot of the unique species up here," Nadeau says. "And that makes it a climate change refugia, a place where species might be able to persist, despite, 2, 3, 4, 5 degrees Celsius of warming.

That means there's a decent chance that three-toothed cinquefoil will still be here in 50 years, as future tourists stroll the summit.

One of Chris Nadeau's test plots, at the summit of Cadillac Mountain.
Murray Carpenter
/
Maine Public
One of Chris Nadeau's test plots, at the summit of Cadillac Mountain.

Murray Carpenter is Maine Public’s climate reporter, covering climate change and other environmental news.