Low lidar ratios at elevated depolarization ratios in Dushanbe – Revisited using a time–height resolved air mass source attribution tool

¹ Leibniz Institute for Tropospheric Research, Leipzig, Germany
² Physical Technical Institute of the Academy of Sciences of Tajikistan, Dushanbe, Tajikistan
³ Leipzig Institute for Meteorology, Leipzig University, Leipzig, Germany

^* Corresponding author: hofer@tropos.de

Abstract

First ever lidar observation in Tajikistan were conducted during the Central Asian Dust Experiment 2015–2016 (CADEX) in Dushanbe. Analysis of layer-mean optical properties revealed frequently low lidar ratios at enhanced depolarization ratios. These cases were categorized as background aerosol since they occurred at low extinction conditions. Such optical properties are similar to dried and therefore cubic-like shaped sea salt particles. This led to the hypothesis that Central Asian background aerosol and its optical properties are influenced by dry lakes and saline playas which are frequent in Central Asia. The goal of this study is to extend the existing data analysis with a backward trajectory-based time– height resolved air mass source attribution tool which was not yet available at the time of the CADEX campaign and its data analysis. Despite on average similar air mass origins for all cases irrespective of their optical properties, results suggest slightly more southern and south-western influenced air masses for cases with larger lidar ratios than for cases with lower lidar ratios.