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What does carbon offset actually mean for U.S. forests?

What does carbon offset actually mean for U.S. forests?

兔子先生传媒文化作品 study shows that 96% of all carbon offset credits from U.S. forestry projects were issued for improved forest management practices, not tree planting or forest protection

 

While cars, airplanes and factories are busy spewing carbon dioxide into the atmosphere, trees spend much of their time absorbing this harmful greenhouse gas via photosynthesis.

In a single calendar year, a mature tree can take in roughly , which remains stored in its woody fibers until some event鈥攍ike a wildfire, a pest infestation or clearcutting by a logging company鈥攖riggers its release into the atmosphere.

This natural process is at the heart of the world鈥檚 carbon offset industry, in which companies and consumers counteract their CO2 emissions by buying credits from projects that remove or reduce emissions. Carbon offsetting is part of a broader group of so-called nature-based solutions to human-caused climate change. 

 

 

兔子先生传媒文化作品 researcher Laura Dee partnered on recent research shedding more light on the murky world of forest carbon offset projects in the United States, including what they entail.

 

 

Now, researchers at the University of Colorado Boulder are working to bring more transparency to this fast-growing industry. 

With a new paper published in the journal , they shed more light on the murky world of forest carbon offset projects in the United States, including what they entail. They also raise important questions about the risk wildfires pose to carbon offset projects, which are intended to store carbon for at least 100 years.  

These findings are just the first step toward better understanding the forest carbon offset industry so that, eventually, researchers and policymakers can take steps to make it even more transparent.

鈥淎s individuals and companies, we want to find ways to reduce our environmental impact and mitigate climate change鈥攁nd buying carbon offsets is one of the options available to us,鈥 says study co-author Laura Dee, a 兔子先生传媒文化作品 assistant professor of ecology and evolutionary biology. 鈥淥ur research aims to make sure projects receiving credits from carbon offset markets are working鈥攁nd actually storing additional carbon鈥攁nd identify ways to improve them.鈥

Revealing carbon offset strategies

To be able to issue carbon offset credits, a project must be able to demonstrate that it will store more carbon than its business-as-usual approach, which may vary regionally, such as clear-cutting all the trees in an area to sell as timber. The projects must also show permanence, which is typically defined as the ability to store carbon for 100 years or longer, though this also varies.

Some examples of forest carbon offset strategies include planting new trees or conserving a forested area that would otherwise be converted into non-forest land. Others might fall under the umbrella of 鈥渋mproved forest management practices,鈥 a category that encompasses a wide array of activities, from thinning out some trees based on their size to delaying harvest to allow more carbon to build up. 

鈥淵ou can鈥檛 just be doing nothing and then get carbon credits鈥攜ou have to be able to demonstrate that you otherwise would be harvesting the trees, but instead you鈥檙e switching management practices to store carbon that would otherwise be released,鈥 says Dee.

But until the team embarked on this study, no one really knew which strategies developers were actually using. To get a better grasp, the researchers pulled data from two registries that track these projects throughout the nation, including the project鈥檚 geographic location, size, developer, owner, the year it was registered and the number of offsets issued. 

 

Locations of existing forest carbon offset projects (green, in hectares) in the United States and per ownership group (dots). (Credit: )

 

From the documentation, they also tried to glean as much information as possible about what the developers were doing to store more carbon.

After analyzing their newly developed dataset, the researchers found that 96% of all carbon offset credits from U.S. forestry projects were issued for improved forest management practices. That may come as a surprise to companies and consumers, who may be under the impression they鈥檙e paying for credits that involve planting new trees or protecting forests.

鈥淵ou hear a lot more focus in the news about planting trees or protecting forests, but right now, most of the credits issued from the California offset registries are really focused on changing forest management practices,鈥 says Dee. 鈥淚n contrast, a lot of the analyses assessing investment in forests as nature-based climate solutions haven鈥檛 looked in detail at different types of improved forest management strategies as they are being implemented on the ground.鈥

Much of the past research on nature-based climate solutions has focused on reforestation and forest protection. But, based on these new findings, that was likely too narrow a view. Researchers should also consider the full scope of improved forest management strategies that are actually in use for the majority of forest carbon offset projects, Dee says.

鈥淪tudies on nature-based climate solutions are missing all these strategies people are using in forests, and there鈥檚 a lot we still need to know about the carbon benefits and their longevity from these strategies,鈥 she says.

Understanding wildfire risk

They also compared the projects鈥 locations to federal maps estimating the likelihood and intensity of wildfires. From this, they learned that 26% of U.S. forest carbon offset projects are in areas of moderate wildfire hazard.

 

Litter organic carbon and soil organic carbon across continental United States and locations of existing forest carbon offset projects (black dots). (Credit: )

 

As the climate continues to change because of human activities, scientists expect wildfires to become even more common and more intense. And if the trees within carbon offset projects burn, they鈥檒l release their stored CO2 into the atmosphere, thus negating the benefits they promised. 

One possible solution is to develop more robust insurance policies for carbon offset projects. But at the very least, policymakers should take wildfire risk into account when considering new forest carbon offset projects.

鈥淲e need a transparent, robust framework for evaluating and monitoring these forest-based projects so that we can secure these resources into our very rapidly changing future,鈥 says the study鈥檚 lead author, Lilli Kaarakka, a former 兔子先生传媒文化作品 postdoctoral researcher who is now an assistant professor of forest management and silviculture at California Polytechnic State University.