“The loss of tropical rainforests in places like the Amazon releases as much CO2 into the atmosphere as the industrial emission of some countries,” said Oreska. “Greenhouse gas accounting methodologies already existed to facilitate restoration projects trying to offset tropical forest emissions. We wanted to extend the same concept to marshes and seagrass meadows, but a new methodology was needed to deal with the differences in aquatic systems.”
The project’s success caught the attention of the nonprofit conservation group Restore America’s Estuaries. That group enlisted the help of an organization called Verra, which sets verifiable standards for climate action and sustainable development programs, to develop the methodology that will ultimately lead to the project’s status as a verifiable, or registered, carbon offset. Registration of the program on the voluntary carbon market will provide the transparency necessary for a third-party to authenticate the impact of the project on the environment and assess its climate mitigation value for buyers of carbon offsets. Revenues generated by carbon offset purchases will provide the project with additional funding needed to support the ongoing costs of monitoring and managing the eelgrass meadows, which is critical to the project’s continued success.
“There are many offset projects using nature that claim to take CO2 out of the atmosphere, but without verification, it’s not clear whether or not they are,” said McGlathery. “With this project, we’ll have that accountability, and that raises the profile of using these natural systems and the role that Virginia is playing.”
In addition to the project’s global implications, its ongoing work will continue to provide a variety of benefits to Virginia residents on the Eastern Shore. Long-term studies show that, in addition to carbon sequestration, the project has led to significant increases in the abundance of fish and other aquatic life in the region, it has improved water quality and it has helped reduce coastal erosion that, by some estimates, has claimed as much as 500 acres of arable coastal land, leading to approximately $23 million in property value losses each year.
“The two main industries on the Eastern Shore are farming and aquaculture, and a lot of the farmers raise clams and oysters too, so they understand that the health of the Chesapeake Bay’s lagoons is important,” said Buck Doughty, the VCR-LTER facility coordinator.
Doughty traces his family history back 12 generations on the Eastern Shore. He recalls his father’s stories about how the region had changed due to the loss of the seagrass population in the mid-20th century and how it impacted the region that had once been the one of the nation’s largest seafood suppliers.
“I remember him telling me that when the seagrass meadows died, everything died with them,” Doughty said. “But I love seeing how the health of the lagoons is coming back. It’s amazing to see how well they’re doing. They’re healthy again.”
Despite its success in the region, the project’s status as a registered blue carbon project could also take that success to a new level.
“Our long-term carbon research was the basis for the Virginia Senate Bill passed in April 2020 to allow carbon offset credits for seagrass restoration, but it’s not just about Virginia’s Eastern Shore,” McGlathery said. “We want to be a model for other projects like this one. We wrote the protocol, and we have proof of concept that what we’re doing is benefiting the state, and we’re also setting the standard and inspiring other projects of this kind. It’s a real opportunity for us to take a leadership role on a global level.”
This article originally appeared on UVA College and Graduate School of Arts and Sciences' website.