Litcius/Paper detail

Satellite‐Based Analysis of CO <sub>2</sub> Emissions From Global Cities: Regional, Economic, and Demographic Attributes

Doyeon Ahn, Daniel L. Goldberg, Fei Liu, Daniel C. Anderson, Toby Coombes, Christopher P. Loughner, Matthäus Kiel, Abhishek Chatterjee

2025AGU Advances9 citationsDOIOpen Access PDF

Abstract

Abstract Cities play a crucial role in reducing global greenhouse gas emissions. While activity‐based (“bottom up”) emission estimates are widely used for global cities, they often lack independent verification. In this study, we use remotely‐sensed CO 2 observations from the Orbiting Carbon Observatory‐3 (OCO‐3) to “top‐down” estimate CO 2 emissions for 54 global cities. This global‐scale analysis is enabled by a computationally efficient cross‐sectional flux approach, which uses NO 2 observations from TROPOMI and trajectory simulations from HYSPLIT to identify OCO‐3 pixels influenced by urban plumes. Our satellite‐based emission estimates for 54 global cities agree within 7% to two widely used bottom‐up data sets but reveal regional discrepancies. Bottom‐up estimates tend to overestimate emissions for cities in Central East Asia and South and West Asia, while underestimating emissions in Africa, East and Southeast Asia &amp; Oceania, Europe, and North America. Additionally, our satellite‐based socioeconomic analysis shows that (a) high‐income cities tend to have less carbon‐intensive economies: North American cities emit 0.1 kg CO 2 per USD of economic output, while African cities emit 0.5 kg CO 2 per USD, and (b) per capita emissions decrease with increasing population size, from 7.7 tCO 2 /person for cities under 5 million residents to 1.8 tCO 2 /person for cities over 20 million residents. This study highlights the potential of satellite data to bridge gaps between top‐down and bottom‐up emission estimates, enhancing the robustness and transparency of emissions monitoring. Our findings emphasize the growing role of satellite data in verifying urban CO 2 emissions and supporting efforts to mitigate emissions for global cities.

Topics & Concepts

Greenhouse gasGeographyHYSPLITPopulationEnvironmental scienceSatelliteEast AsiaPer capitaClimatologyMeteorologyChinaAerosolDemographyEngineeringArchaeologyAerospace engineeringGeologyBiologyEcologySociologyAtmospheric and Environmental Gas DynamicsAir Quality and Health ImpactsAtmospheric chemistry and aerosols
Satellite‐Based Analysis of CO <sub>2</sub> Emissions From Global Cities: Regional, Economic, and Demographic Attributes | Litcius