Will Berelson’s research team prepares to deploy the porewater sampler off the coast of Huntington Beach. The sampler is lowered to the seafloor, where spring-loaded syringes suck the water between grains of sand and mud through filters in quartz collection coils. (USC Photo/Stephen Gee)
Can the seafloor help the ocean absorb more carbon dioxide?
USC scientists are exploring how the sandy seafloor off the Southern California coast takes up CO2 and helps protect the long-term health of our oceans.
The ocean plays a vital role in protecting the planet, absorbing about 31% of the carbon dioxide (CO2) released by human activity, storing it in its waters and neutralizing some of it by reacting with sediments. This natural process has helped keep Earth’s climate in balance for millennia, but it moves slowly, unfolding over thousands of years.
Today, with carbon emissions rising far faster than the ocean can absorb them, scientists are looking for ways to better understand — and potentially enhance — the ocean’s natural ability to capture and store carbon.
Just beyond the surf at Huntington Beach, a team of USC oceanographers is investigating the potential role of the sandy ocean floor in this process.