Business & Policy Environmental Policy What Is Carbon Sequestration? Carbon sequestration focuses on disposing of carbon, not preventing its release. By Larry West Larry West Writer University of Washington Larry West is an award-winning environmental journalist and writer. He won the Edward J. Meeman Award for Environmental Reporting. Learn about our editorial process Updated April 2, 2018 Image Source/Image Source/Getty Images Business & Policy Corporate Responsibility Environmental Policy Economics Food Issues Carbon sequestration is simply the intake and storage of the element carbon. The most common example in nature is during the photosynthesis process of trees and plants, which store carbon as they absorb carbon dioxide (CO2) during growth. Because they soak up the carbon that would otherwise rise up and trap heat in the atmosphere, trees and plants are important players in efforts to stave off global warming in a process called climate change mitigation. Trees and Plants Absorb Carbon Dioxide and Produce Oxygen Environmentalists cite this natural form of carbon sequestration as a key reason to preserve the world’s forests and other undeveloped lands where vegetation is abundant. And forests do not just absorb and store large quantities of carbon; they also release large quantities of oxygen as a byproduct, leading people to refer to them as the “lungs of the earth.” Preserving Forests Is Key Strategy to Help Reduce Global Warming According to the Western Canada Wilderness Committee, the billions of trees in the boreal forest of the northern hemisphere that stretch from Russian Siberia across Canada and into Scandinavia absorb vast amounts of carbon as they grow. Likewise, the world’s tropical forests play an important role in naturally sequestering carbon. As such, environmentalists see preserving and adding to the world’s forest canopy as the best natural means for minimizing the impact of global warming caused by the 5.5 billion tons of carbon dioxide generated by factories and automobiles each year. Once a concern mainly about the loss of biodiversity, deforestation suddenly casts a different shadow, Carbon Sequestration Can Help Mitigate Carbon Dioxide Emissions On the technological front, engineers are hard at work developing man-made ways to capture the carbon spewing from coal-fired power plants and industrial smokestacks and sequester it by burying it deep within the Earth or the oceans. Several agencies in the U.S. have embraced carbon sequestration as a means to mitigate carbon dioxide emissions and are spending millions annually on research and development, hoping that the technology might play an important part in keeping greenhouse gas emissions out of the atmosphere. The U.S. is also funding related research in China in hopes of stemming the tide of Chinese CO2 emissions that are increasing quickly as that nation develops rapidly (China has already surpassed the U.S. as the world’s largest coal consumer). Carbon Sequestration: Quick Fix or Long-Term Solution? The Bush administration refused to sign onto the Kyoto Protocol, an international agreement adopted in Japan in 1997 calling on countries to limit their emissions of greenhouse gases. Instead, many environmentalists feel, they are pursuing carbon sequestration technology as a quick fix or “Band-Aid” approach that enables them to preserve the existing fossil fuel infrastructure instead of replacing it with clean renewable energy sources or efficiency gains. Essentially the technology involves disposing of carbon dioxide after it is produced, rather than trying to hold down its production in the first place. United Nations’ studies suggest, however, that it might play a bigger role in fighting global warming this century than any other measure. Edited by Frederic Beaudry