Parameterization of the Spatial Variability of Rain for Large-Scale Models and Remote Sensing Journal of Applied Meteorology and Climatology

The spatial variability of rain rate R is evaluated by using both radar observations and cloud-resolving model output, focusing on the Tropical Warm Pool–International Cloud Experiment (TWP-ICE) period. In general, the model-predicted rain-rate probability distributions agree well with those estimated from the radar data across a wide range of spatial scales. The spatial variability in R, which is defined according to the standard deviation of R (for R greater than a predefined threshold Rmin) σ(R), is found to vary according to both the average of R over a given footprint μ(R) and the footprint size or averaging scale Δ. There is good agreement between area-averaged model output and radar data at a height of 2.5 km. The model output at the surface is used to construct a scale-dependent parameterization of σ(R) as a function of μ(R) and Δ that can be readily implemented into large-scale numerical models. The variability in both the rainwater mixing ratio qr and R as a function of height is also explored. From the statistical analysis, a scale- and height-dependent formulation for the spatial variability of both qr and R is provided for the analyzed tropical scenario. Last, it is shown how this parameterization can be used to assist in constraining parameters that are often used to describe the surface rain-rate distribution. 2015 OAR (Oceanic and Atmospheric Research) ESRL (Earth System Research Laboratory) CSL (Chemical Sciences Laboratory) PSL (Physical Sciences Laboratory) CIRES (Cooperative Institute for Research in Environmental Sciences) Submitted https://doi.org/10.1175/JAMC-D-15-0066.1 Other 1955