6533b873fe1ef96bd12d4bb4
RESEARCH PRODUCT
Classification of precipitation events with a convective response timescale and their forecasting characteristics
Heini WernliChristian KeilGeorge C. CraigMatthias Zimmersubject
ConvectionFlow (psychology)Atmospheric sciencesNumerical weather predictionlaw.inventionGeophysicslawClimatologyQuantitative precipitation forecastRadiosondeGeneral Earth and Planetary SciencesEnvironmental scienceStatistical analysisPrecipitationRadarPhysics::Atmospheric and Oceanic Physicsdescription
[1] The convective timescale τc, which is mainly determined by the ratio of CAPE and precipitation rate, provides a physically-based measure to distinguish equilibrium and non-equilibrium convection. A statistical analysis of this timescale, based upon observational data from radiosonde ascents, rain gauges, and radar for seven warm seasons in Germany, reveals that the equilibrium and non-equilibrium regimes can be regarded as extremes of a continuous distribution. The two regimes characterize very different interactions between the large-scale flow and convection. The quality of precipitation forecasts from a non-hydrostatic regional weather prediction model with parameterized convection differs substantially for the two regimes, with strong overestimations and too large precipitation objects for the non-equilibrium events.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-03-01 | Geophysical Research Letters |