A UO research team has landed a $3 million federal grant to work with Indigenous and rural communities in Oregon to find ways of reducing climate-changing carbon in the atmosphere in ways that build trust with historically marginalized groups.
The five-year grant is funded by a National Science Foundation program that focuses on what are known
as the “rules of life” to better address societal challenges such as climate change, clean water, carbon
capture and sustainability. The rules of life broadly refer to the complex interactions among an array of
living systems of all size.
Lucas Silva, a professor of environmental studies and biology in the UO’s College of Arts and Sciences,
leads the team, which includes fellow environmental studies researchers Ashley Cordes and Lillian Aoki,
data science research professor Jake Searcy, and biology professor Brendan Bohannan.
A first of its kind, the UO study is known as Convergence to Accelerate Research on Biological
Sequestration, or CARBS, and will use Indigenous knowledge, artificial intelligence and what is known as environmental DNA, or large-scale DNA from organisms found in the environment, to guide carbon
capture research and implementation.
The research will be co-produced with the Coquille Indian Tribe to explore social, ecological and genomic controls to limit the release of carbon into the air as well as the potential for increasing the amount of carbon being stored in environments from temperate forests to the estuaries of the Pacific Northwest.
The study could be used a model for the nation and beyond.
“The Coquille have enjoyed a longstanding relationship with the UO. Most importantly, we understand
the history of climate change and landscape indifference,” said Jason Younker, chief of the Coquille Indian Tribe and UO assistant vice president and adviser to the president on government-to-government
relations. “Our hope, through this grant, is to find better ways to counteract destructive actions and do
our part in combating the devastating impacts of human influence.”
Other partners in the research project include Oregon State University, Lawrence Berkeley National
Laboratory, The Nature Conservancy, and the Eugene Water and Electric Board. The NSF recently
announced more than $27 million in funding for 12 projects, including the one at the UO.
CARBS will use existing investments in biological carbon storage to design new field and laboratory
experiments and build AI tools that will deliver the first study of Indigenous knowledge and
environmental DNA.
CARBS process graphic
A key feature of the project is collaborating with Native American tribes and rural communities that often have little input into large-scale efforts to rein in climate change. Rather than dictate solutions, the UO team plans to develop a range of actions so communities can choose those that match local needs and priorities.
“Effective solutions to mitigate climate change are urgently needed and require adaptive strategies
implemented on immediate and long-term timelines,” Silva said. “Federal, state and local governments
have made major investments in biological carbon sequestration for climate change mitigation, but these
investments are often at odds with community priorities to adapt to climate-induced disturbances such as drought, wildfire, and sea level rise.”
By focusing on working landscapes of the Pacific Northwest, the UO team will devise and test new ways
of reducing atmospheric carbon — through, for example, new and “rediscovered” Indigenous technologies that could improve land management, ecosystem restoration and conservation — in ways that engage diverse communities and can be presented as a range of options rather than a single, mandatory path.
Researchers also will look at using early engagement with communities to build trust, promote innovation and encourage the adoption of climate change solutions.
The research team points out that identifying the underlying principles that guide biological systems is
central to understanding how life thrives or fails at the critical zone between Earth’s slow-changing crust and its dynamic atmosphere. By linking genes to the way carbon is released or stored researchers can
study how complex systems develop from simple ones, which could transform the study of atmospheric
carbon capture.
The National Science Foundation hopes the overall program, known as “Using the Rules of Life to Address Societal Challenges,” will lead to new ways to address climate change and other large-scale issues.
“The enormous opportunity to apply biological principles to solving the biggest problems of today is one
we cannot take lightly,” said Susan Marqusee, the foundation’s assistant director for biological sciences.
“These projects will use life to improve life, including for many underprivileged communities and groups.”