Your search keyword '"Birch, Cathryn E."' showing total 4 results

1. The scale dependence and structure of convergence fields preceding the initiation of deep convection

Author

Birch, Cathryn E., Marsham, John H., Parker, Douglas J., Taylor, Christopher M., Birch, Cathryn E., Marsham, John H., Parker, Douglas J., and Taylor, Christopher M.

Abstract

Links between convergence and convection are poor in global models, and poor representation of convection is the source of many model biases in the tropics. State-of-the-art convection-permitting simulations allow us to analyze realistic convection statistically. The analysis of fractal dimension is used to show that in convection-permitting simulations (grid spacings 1.5, 4, and 12 km) of the West African monsoon, 50% of deep convective initiations occur in the near vicinity of low-level boundary layer convergence lines that are orientated along the mean wind. In these simulations, more than 80% of the initiations occur within large-scale (300 × 300 km) convergence, with some 20% in large-scale divergence, and almost all cases occur within local scale (60 × 60 km) convergence. The behavior alters in a simulation with a convection scheme and a grid spacing of 12 km; initiation is less frequent over convergence lines, and there is less dependency on high-magnitude low-level local convergence.

Published

2014

2. The scale dependence and structure of convergence fields preceding the initiation of deep convection

Author

Birch, Cathryn E., Marsham, John H., Parker, Douglas J., Taylor, Christopher M., Birch, Cathryn E., Marsham, John H., Parker, Douglas J., and Taylor, Christopher M.

Abstract

Links between convergence and convection are poor in global models, and poor representation of convection is the source of many model biases in the tropics. State-of-the-art convection-permitting simulations allow us to analyze realistic convection statistically. The analysis of fractal dimension is used to show that in convection-permitting simulations (grid spacings 1.5, 4, and 12 km) of the West African monsoon, 50% of deep convective initiations occur in the near vicinity of low-level boundary layer convergence lines that are orientated along the mean wind. In these simulations, more than 80% of the initiations occur within large-scale (300 × 300 km) convergence, with some 20% in large-scale divergence, and almost all cases occur within local scale (60 × 60 km) convergence. The behavior alters in a simulation with a convection scheme and a grid spacing of 12 km; initiation is less frequent over convergence lines, and there is less dependency on high-magnitude low-level local convergence.

Published

2014

3. Modeling soil moisture-precipitation feedback in the Sahel: importance of spatial scale versus convective parameterization

Author

Taylor, Christopher M., Birch, Cathryn E., Parker, Douglas J., Dixon, Nick, Guichard, Françoise, Nikulin, Grigory, Lister, Grenville M.S., Taylor, Christopher M., Birch, Cathryn E., Parker, Douglas J., Dixon, Nick, Guichard, Françoise, Nikulin, Grigory, and Lister, Grenville M.S.

Abstract

Feedback between soil moisture and precipitation influence climate variability in semiarid regions. However, serious concerns exist about the ability of coarse-scale global atmospheric models to depict one key aspect of the feedback loop, namely the sensitivity of daytime convection to soil moisture. Here we compare regional simulations using a single model, run at different spatial resolutions, and with convective parameterizations switched on or off against Sahelian observations. Convection-permitting simulations at 4 and 12 km capture the observed relationships between soil moisture and convective triggering, emphasizing the importance of surface-driven mesoscale dynamics. However, with the inclusion of the convection scheme at 12 km, the behavior of the model fundamentally alters, switching from negative to positive feedback. Similar positive feedback is found in 9 out of 10 Regional Climate Models run at 50 km. These results raise questions about the accuracy of the feedback in regional models based on current convective parameterizations.

Published

2013

4. Modeling soil moisture-precipitation feedback in the Sahel: importance of spatial scale versus convective parameterization

Author

Taylor, Christopher M., Birch, Cathryn E., Parker, Douglas J., Dixon, Nick, Guichard, Françoise, Nikulin, Grigory, Lister, Grenville M.S., Taylor, Christopher M., Birch, Cathryn E., Parker, Douglas J., Dixon, Nick, Guichard, Françoise, Nikulin, Grigory, and Lister, Grenville M.S.

Abstract

Feedback between soil moisture and precipitation influence climate variability in semiarid regions. However, serious concerns exist about the ability of coarse-scale global atmospheric models to depict one key aspect of the feedback loop, namely the sensitivity of daytime convection to soil moisture. Here we compare regional simulations using a single model, run at different spatial resolutions, and with convective parameterizations switched on or off against Sahelian observations. Convection-permitting simulations at 4 and 12 km capture the observed relationships between soil moisture and convective triggering, emphasizing the importance of surface-driven mesoscale dynamics. However, with the inclusion of the convection scheme at 12 km, the behavior of the model fundamentally alters, switching from negative to positive feedback. Similar positive feedback is found in 9 out of 10 Regional Climate Models run at 50 km. These results raise questions about the accuracy of the feedback in regional models based on current convective parameterizations.

Published

2013