Microphysical properties of snow and their link to Ze–S relation during BAECC 2014

Abstract

his study investigates the connection between properties of snow and radar observations. The general hydrodynamic theory is applied to video-disdrometer measurements to retrieve masses of falling ice particles. Errors associated with the observation geometry and the measured particle size distribution (PSD) are addressed by devising a simple correction procedure. The value of the correction factor is determined by comparison of the retrieved precipitation accumulation to weighing gauge measurements. Derived mass-dimensional relations are represented in the power-law form . It is shown that the retrieved prefactor am and exponent bm react to changes in prevailing microphysical processes. Based on the derived microphysical properties, event specific relations between the equivalent reflectivity factor and snowfall precipitation rate are determined. For the studied events the prefactor of the Ze ? S -relation varied between 53 and 782 and the exponent was in the range of 1.19-1.61. The dependence of the factors azs and bzs on m(D) -relation and PSD are investigated. The exponent of Ze ? S relation mainly depends on the exponent of m(D) - relation, while the prefactor azs depends both on the intercept parameter of the PSD, N0, and prefactors of m(D)- and v(D)- relations. Changes in azs for a given N0 are shown to be linked to changes in liquid water path, which can be considered to be a proxy for degree of riming.