Influence of complex terrain and anthropogenic emissions on atmospheric CO₂ patterns–a high‐resolution numerical analysis

Abstract: The accuracy of regional or mesoscale carbon budgeting by means of inverse modelling depends strongly on the ability of the atmospheric model to capture relevant atmospheric transport processes. In order to analyze the influence of terrain-induced flow dynamics and intense local anthropogenic emissions, we present high-resolution (forward) simulations of spatio-temporal CO 2 variations using a recent biosphere-atmosphere model. The selected region is characterized by complex terrain and both rural and densely … Show more

“…The extension was built on a newly developed tracer module (Roches and Fuhrer, 2012), which replaced the previous nonuniform treatment of meteorological tracers in the model. A similar, independently developed COSMO-based CO 2 model system was presented by Uebel and Bott (2018). Fuhrer, 2014).…”

Accounting for the vertical distribution of emissions in atmospheric CO<sub>2</sub> simulations

“…The extension was built on a newly developed tracer module (Roches and Fuhrer, 2012), which replaced the previous nonuniform treatment of meteorological tracers in the model. A similar, independently developed COSMO-based CO 2 model system was presented by Uebel and Bott (2018). Fuhrer, 2014).…”

Accounting for the vertical distribution of emissions in atmospheric CO<sub>2</sub> simulations

Recent advances in development of amine functionalized adsorbents for CO2 capture

Comparing mountain breezes and their impacts on CO2 mixing ratios at three contrasting areas