Our Oceans: Key To Storing Carbon?
Listen now
Description
Using carbon dioxide removal (CDR) strategies to mitigate climate change is a land-intensive endeavor. To capture one gigatonne of CO2 through direct air capture requires a facility & energy production footprint of at least hundreds, but potentially tens of thousands of square kilometers. To capture one gigatonne of CO2 via reforestation requires about 862,000 square kilometers of arable land (nearly the size of the Kalahari Desert). We currently release about 40 gigatonnes of CO2 into the atmosphere every year, so…do the math. And land that is allocated for CDR must compete with other land use claims: for urbanization, agriculture, biodiversity, and renewable energy technologies. But what if our perspective was slightly… more aqueous? Oceans, which make up 70% of the Earth’s surface, already absorb more than 10 billion tonnes of CO2 annually. Would it be more effective to sequester CO2 in the oceans, rather than on land? If so, how would we facilitate increased ocean CO2 uptake safely? What processes and technologies exist today, and how well do we understand them? Series: "Climate Solutions " [Science] [Show ID: 38190]
More Episodes
Over the last two winter seasons atmospheric rivers have impacted California and the west with extreme precipitation and the cascading consequences of these events. The meteorology that causes atmospheric rivers is complex, but scientists at the Center for Western Weather and Water Extremes...
Published 06/24/24
Published 06/24/24
Join Los Angeles Times environment reporter and author of the new book California Against the Sea Rosanna Xia and Scripps Institution of Oceanography coastal resilience specialist Laura Engeman for a discussion on communicating the science and impacts of sea-level rise and California’s changing...
Published 05/12/24