Constraining Sector‐Specific CO <sub>2</sub> Fluxes Using Space‐Based XCO <sub>2</sub> Observations Over the Los Angeles Basin
Dustin Roten, John C. Lin, Saswati Das, E. A. Kort
Abstract
Abstract The concentration of carbon dioxide (CO 2 ) in Earth's atmosphere is increasing due to human activities and the resulting effects on the global climate system have initiated several policy‐driven approaches to reduce emissions of this greenhouse gas. Quantifying the effectiveness of such policies requires both bottom‐up and top‐down approaches to estimate CO 2 emissions. This work investigates, for the first time, the potential of using Snapshot Area Map observations from NASA's OCO‐3 instrument to disaggregate sector‐specific emissions from instrument observations. Optimized sector‐specific timeseries were produced using Bayesian inversion techniques and compared to proxy activity data from transportation, commercial maritime, and industrial sectors in the Los Angeles Basin. Results demonstrate that dense space‐based observations of atmospheric CO 2 are capable of disentangling sector‐specific CO 2 fluxes, paving the way for accurate monitoring of the effects of carbon‐reduction policies and operational carbon monitoring systems.