AUTHOR=Balsamo Gianpaolo , Engelen Richard , Thiemert Daniel , Agusti-Panareda Anna , Bousserez Nicolas , Broquet Grégoire , Brunner Dominik , Buchwitz Michael , Chevallier Frédéric , Choulga Margarita , Denier Van Der Gon Hugo , Florentie Liesbeth , Haussaire Jean-Matthieu , Janssens-Maenhout Greet , Jones Matthew W. , Kaminski Thomas , Krol Maarten , Le Quéré Corinne , Marshall Julia , McNorton Joe , Prunet Pascal , Reuter Maximilian , Peters Wouter , Scholze Marko 

TITLE=The CO2 Human Emissions (CHE) Project: First Steps Towards a European Operational Capacity to Monitor Anthropogenic CO2 Emissions

JOURNAL=Frontiers in Remote Sensing

VOLUME=2

YEAR=2021

URL=https://www.frontiersin.org/journals/remote-sensing/articles/10.3389/frsen.2021.707247

DOI=10.3389/frsen.2021.707247

ISSN=2673-6187

ABSTRACT=<p>The Paris Agreement of the United Nations Framework Convention on Climate Change is a binding international treaty signed by 196 nations to limit their greenhouse gas emissions through ever-reducing Nationally Determined Contributions and a system of 5-yearly Global Stocktakes in an Enhanced Transparency Framework. To support this process, the European Commission initiated the design and development of a new Copernicus service element that will use Earth observations mainly to monitor anthropogenic carbon dioxide (CO<sub>2</sub>) emissions. The CO<sub>2</sub> Human Emissions (CHE) project has been successfully coordinating efforts of its 22 consortium partners, to advance the development of a European CO<sub>2</sub> monitoring and verification support (CO2MVS) capacity for anthropogenic CO<sub>2</sub> emissions. Several project achievements are presented and discussed here as examples. The CHE project has developed an enhanced capability to produce global, regional and local CO<sub>2</sub> simulations, with a focus on the representation of anthropogenic sources. The project has achieved advances towards a CO<sub>2</sub> global inversion capability at high resolution to connect atmospheric concentrations to surface emissions. CHE has also demonstrated the use of Earth observations (satellite and ground-based) as well as proxy data for human activity to constrain uncertainties and to enhance the timeliness of CO<sub>2</sub> monitoring. High-resolution global simulations (at 9 km) covering the whole of 2015 (labelled CHE nature runs) fed regional and local simulations over Europe (at 5 km and 1 km resolution) and supported the generation of synthetic satellite observations simulating the contribution of a future dedicated Copernicus CO<sub>2</sub> Monitoring Mission (CO2M).</p>