‘Rewilding’ Parts of the Planet Could Have Big Climate Benefits

Restoring fish, bison, gray wolves and other animals in key regions is possible without risking food supplies, and could remove nearly 500 gigatons of CO2 from the atmosphere by 2100.

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The sun sets behind a herd of bison in Wind Cave National Park, Aug. 14, 2001 in the southern Black Hills of South Dakota. A new study shows that restoring large populations of bison and other animals would speed up biological carbon pumps that take carbon dioxide out of the air and store it in a form that doesn't harm the climate. Credit: David McNew/Getty Images
The sun sets behind a herd of bison in Wind Cave National Park, Aug. 14, 2001 in the southern Black Hills of South Dakota. A new study shows that restoring large populations of bison and other animals would speed up biological carbon pumps that take carbon dioxide out of the air and store it in a form that doesn't harm the climate. Credit: David McNew/Getty Images

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Restoring populations of land and marine animals in targeted “rewilding” zones would speed up biological carbon pumps that remove carbon dioxide from the air and sequester the greenhouse gas where it doesn’t harm the climate, new research shows.

An international team of scientists focused the study on marine fish, whales, sharks, gray wolves, wildebeest, sea otters, musk oxen, African forest elephants and American bison as species, or groups of species, that accelerate the carbon cycle. Collectively, they “could facilitate the additional capture” of almost 500 gigatons of CO2 by 2100, which would be a big step toward preventing long-term planetary heating of more than 1.5 degrees Celsius, the authors wrote in Nature.

Recent global climate reports and guidelines on carbon dioxide removal from the Intergovernmental Panel on Climate Change and other groups of scientists have often overlooked the multiplier effect of animals as a climate benefit, said lead author Oswald Schmitz, professor of population and community ecology at the Yale School of the Environment. 

“I think a lot of people have always imagined that animals are so rare,” he said. “So it’s presumed that animals don’t matter, that they don’t have enough biomass to hold much carbon, let alone cycle it into the soil.” 

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But those species have an “outsized impact on ecosystems by virtue of changing what the bigger pools do,” he said. “And when you start looking at the numbers, the multiplier effects are backed by good science.” 

A recent study in the western United States, for example, showed how restoring far-ranging populations of wolves and beavers would create ecosystems that capture more CO2 and also make landscapes more resilient to global warming impacts like extreme flooding, heat and drought. 

Beaver dams create giant biological landscape sponges that can absorb CO2. Overall, global wetlands restoration will play a key role in reaching climate targets, according to the Intergovernmental Panel on Climate Change report

Beaver ponds and healthy wetlands also retain flood water and release it slowly during dry times. When wolves are about, they help vegetation spread outward from the beaver ponds by checking the population of hungry deer or elk that eat all new growth. 

And other research shows how protected forest habitats warm more slowly than the average increase of land temperatures.

Oregon State University ecologist William Ripple, lead author of the paper on rewilding the West with wolves and beavers, said most climate mitigation scenarios rely on “unproven carbon capture technologies.” 

The new paper, he said, “supports the growing call to focus on natural processes rather than mostly unproven technologies to capture carbon and mitigate climate change. It shines new light on how we could benefit from conserving many types of wild animals for carbon capture.”

Climate and Biodiversity Are ‘Intertwined’

Those wild animals include fish in the sea, where our understanding of biological carbon pumps is quickly expanding, said co-author Fabio Berzaghi, a researcher at the World Maritime University in Sweden. 

“Initially we were thinking that the main drivers in the biological carbon pump are mostly phytoplankton and zooplankton, so the bottom of the trophic web,” he said. “But now we know all marine life contributes to this process, especially mesopelagic fish, which are a huge part of the biomass in the ocean.”

Mesopelagic fish, as the most numerous vertebrates on Earth, populate the middle depths of the ocean, at the fringe of light penetration, but rise up in a great diurnal migration to feed on plankton near the surface, then diving back down and dispersing sinking fecal pellets that end up as CO2-storing sediment.

“Some scientists might say the biological carbon pump is just a small part of the Earth system,” he said. “But we are dealing with two extremely complex and intertwined problems: climate change and biodiversity loss. And, you know, even if it’s just 5 percent of the contribution to global carbon sequestration, we need to preserve these mechanisms to work as optimally as possible.”

To paint a global picture, he said the research team scoured studies from around the world that document the specific role of specific species in the carbon cycle and climate system. 

“We wanted to put them all together to get a more global perspective,” he said. “We’re discovering more and more how different animals are actually modifying their ecosystems and the environment in ways that capture more carbon.” 

Much Lost, Much to Be Gained

One way to understand how critical it is to rebuild carbon-capturing ecosystems is to consider what’s already been lost, said co-author Magnus Sylvén, an ecologist, and co-director of the Global Rewilding Alliance, a conservation advocacy group. 

He said a 2021 research paper estimated that only about 3 percent of the Earth remains fully ecologically functional since human interventions started disrupting ecosystems, which, he said, “an interesting perspective in terms of what we have lost over these centuries by degrading the planet.”

Sylvén said he thinks scientists have deeply underestimated the climate impacts of that degradation, and that the new research shows how much could be restored on a time scale that matters for reaching global climate policy goals by 2100.

“If you start to restore, and have things like no-take zones in marine areas, or restoring some terrestrial ecosystems, it can happen very quickly,” he said. “In 10 or 20 years we can get a really significant comeback of wildlife, with benefits for climate mitigation and biodiversity and resilience.”

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Of course, wildlife restoration is no silver bullet for carbon dioxide removal, Berzaghi said.

“We will also need high-tech solutions, let’s be realistic,” he said, “But those don’t really bring any other side benefits. If you pay for a CO2 capturing machine, it benefits one or two stakeholders. In a more nature-based approach, you are changing the livelihoods of local people,” in what won’t always be an easy process, he said.

“To put in place these conservation measures, and this transition of local livelihoods, we need money,” he said. “We’re asking people to transition from an extractive type of society to a society of coexistence with nature, or sustainable use.”

Bison Boom?

Creating the huge global climate benefit of wildlife described by the new paper would include restoring millions of bison to North America, but not to anywhere near the 60 million that roamed before European colonization. 

“It’s probably not possible to bring back even 10 million bison,” he said. “It takes time to build up populations of these large animals, but this study is a message that says we have complex problems and we can’t put our eggs in one basket, waiting for a high-tech CO2 removal machine. We need to work within nature tech; that’s been around for millions of years.”

Even trying to restore bison on a much smaller scale might be tough, said Schmitz.

“If we were to propose bringing back 2 million bison to the American West, a lot of cattle ranchers would be up in arms,” he said. “They’re worried about brucellosis and other damage that these animals could inflict.”

But he said a well-designed carbon market, validated with on-the-ground measurements of the climate benefits of grazing bison, could make it worthwhile. 

“Even with a carbon price of $30 per ton, bison would be worth double or triple what a cow is worth,” he said. Large numbers of roaming bison could help restore the carbon-capturing capacity of degraded grasslands, “And so maybe we need to tell the cattle ranchers to start getting rid of their cattle, put bison on their land and become carbon ranchers.” They can stay on the land and probably have a more stable income than cattle ranching offers, he added.

“In a lot of cases, this may actually stabilize the economy of those communities,” he said. “It’s a win-win. We’re sucking carbon out. We’re offsetting fossil fuel emissions. Maybe that’s a different way of thinking about it. And a lot of this is really engaging local communities to think differently about these things.”

Sylvén said he’s encouraged by rising interest in nature-based solutions for drawing down carbon, but wants to make sure it isn’t just about tree plantations. With rewilding, “we are talking about something real and substantial that also will generate other benefits,” he said. 

“This is an action mechanism where we can put numbers on it,” he said.  “But rewilding really is about rebuilding the natural capital of the planet. And it’s a very hopeful and necessary way of moving forward now.”

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