- Michigan State University helped lead an international team of researchers that showed which undeveloped land areas of North America have the most potential to support biodiversity in a warming climate.
- This information can help prioritize where to invest limited resources to meet conservation goals in the U.S. and beyond.
- The team showed that, currently, less than 15% of land parcels that are most resilient to climate change, known as refugia, are protected in North America, presenting many promising opportunities for future conservation.
- Still, those opportunities vanish quickly if humans fail to keep the planet’s average temperature from rising above an additional 2 degrees Celsius.
EAST LANSING, Mich. – When the U.S. government committed last January to conserving 30% of the United States’ natural land and water by the year 2030, the decision was embraced by the majority of Americans. A poll found that 80% of voters supported what’s known as the “30 by 30 plan” but questions remain about how to decide which pieces of nature should be protected to reach that goal.
Now, Michigan State University ecologists are part of a team that’s sharing data to help inform those choices throughout the U.S. and beyond. Their research identified North America’s climate change refugia, habitats that will be the most likely to support the persistence of the greatest amount of biodiversity in the face of a changing climate.
The team also included researchers at the National Audubon Society, the University of East Anglia in Englandand James Cook University in Australia. They released their work Jan. 11 in the journal Frontiers in Ecology and the Environment.
“We know climate change is happening,” said Mariah Meek, an assistant professor in MSU’s College of Natural Science and the Ecology, Evolution and Behavior program. “We wanted to take a forward-looking approach and find where the opportunities are to protect species that will still be able to inhabit their spaces in the future.”
The team started with a collection of data and computer models that represent North America’s undeveloped land in the context of its biodiversity. With that information, the researchers accounted for more than 135,000 different species of plants, birds, fungi, reptiles, mammals, amphibians and invertebrates. For the land component, the data enabled researchers to break down the U.S., Canada and Mexico into square patches that were 20 km, or roughly 12 miles, across.
The researchers could then project how well those different patches would continue supporting their current species over the next several decades under four different warming scenarios: scenarios in which the average global temperature increases by 1.5, 2, 3 and 4 degrees Celsius.
This let the team identify the most resilient areas — the refugia — and compare those with currently protected areas, revealing opportunities to expand those protections.
“We still have ample opportunity to protect climate change refugia at this point, if we can limit warming to 2 degrees,” said Sarah Saunders, a senior manager of quantitative science at Audubon and the first author of the new research. Saunders was previously a postdoctoral researcher at MSU and is also currently an adjunct scholar in the Department of Integrative Biology.
“Currently, less than 15% of refugia are protected, which surprised me,” Saunders said. “There’s a clear path forward for protecting refugia.”
“If we can protect those areas, those refugia, we’ll be covering a lot of species and improving chances for persistence into the future,” Meek said. But both she and Saunders emphasized the need to keep warming below that 2-degree threshold.
“The difference between under 2 degrees and over 2 degrees is stark. You would hope that it wouldn’t be, but it is,” Meek said. “It’s almost this tipping point where things start to get really bad and our opportunities diminish.”
For example, the team found that at least half of the unprotected natural land in 31 U.S. states would qualify as refugia if warming is kept at or below 2 degrees Celsius. At 3 degrees, 27 states are eliminated from that list, leaving only four.
At higher temperatures, plants and fungi, which provide food for larger organisms and are critical to ecosystem functioning, are hit especially hard. Another troubling feature in higher warming scenarios is the mismatching of refugia. For example, the places where reptiles and amphibians are best protected aren’t the same as the places where the invertebrates they eat will survive.
“That has cascading effects, and it’s concerning,” Saunders said. “We’re not at that tipping point yet, but we’re getting close.”
“I think this paper is a wake-up call,” Meek said.
Still, she and Saunders stressed that we have the power to limit warming to 2 degrees through personal choices, collective actions and new policies that put an emphasis on protecting the planet. Humanity has the desire, as evidenced by the 30 by 30 initiative in the U.S., which itself is part of a larger global movement.
“The opportunities are there, and 30 by 30 is a great initiative, if we can go about it in a science-informed way,” Saunders said. “This research is one guide for doing that.”
By Matt Davenport
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Michigan State University has been advancing the common good with uncommon will for more than 165 years. One of the world's leading research universities, MSU pushes the boundaries of discovery to make a better, safer, healthier world for all while providing life-changing opportunities to a diverse and inclusive academic community through more than 200 programs of study in 17 degree-granting colleges.