Transport of Carbon Dioxide in the Presence of Storm Systems over a Northern Wisconsin Forest

Michael D. Hurwitz, Daniel M. Ricciuto, Peter S. Bakwin, Kenneth J. Davis, Weiguo Wang, Chiuxiang Yi, Martha P. Butler
2004 Journal of the Atmospheric Sciences  
Mixing ratios of CO 2 often change abruptly in the presence of inclement weather and low pressure systems. Water vapor mixing ratio, temperature, wind speed, and wind direction data are used to infer that the abrupt changes in CO 2 mixing ratios at a site in northern Wisconsin are due to tropospheric mixing, horizontal transport, or a combination of both processes. Four different scenarios are examined: the passage of a summer cold front, a summer convective storm, an early spring frontal
more » ... e, and a late autumn low pressure system. Each event caused CO 2 mixing ratios to change rapidly when compared to biological processes. In one summer convective event, vertical mixing caused CO 2 mixing ratios to rise more than 22 ppm in just 90 s. Synoptic-scale transport was also evident in the presence of storm systems and frontal boundaries. In the cases examined, synoptic-scale transport changed CO 2 mixing ratios as much as 15 ppm in a 1-h time period. The events selected here represent extremes in the rate of change of boundary layer CO 2 mixing ratios, excluding the commonly observed venting of a shallow, stable boundary layer. The rapid changes in CO 2 mixing ratios that were observed imply that large mixing ratio gradients must exist, often over rather small spatial scales, in the troposphere over North America. These rapid changes may be utilized in inverse modeling techniques aimed at identifying sources and sinks of CO 2 on regional to continental scales.
doi:10.1175/1520-0469(2004)061<0607:tocdit>2.0.co;2 fatcat:v7aoumsfbfb2vhsy6cqqbruwja