Background atmospheric conditions of high PM10 concentrations in Istanbul, Turkey

Abstract

This study investigates the origin and background atmospheric mechanisms that cause high PM10 concentrationsin Istanbul, Turkey. High-PM10 values in Besiktas are defined as days in which the 24-h mean PM10 exceed100 μgm−3 during the period 2007–2017. As a consequence of the application of Ward's minimum clusteringtechnique to HYSPLIT 72 h backward trajectory, mainly four different clusters, which cause high particulatematter episodes, were found in Istanbul. From 94 days, 41.5% of them were categorized as internal sources andare positively (negatively) linked to local temperature (relative humidity) variations. The other sources areshown as external origin and owing to long-range transport of the high particulate matter concentrations;Europe, Russia, and Sahara regions originate 21.3%, 8.5%, and 28.7% of all episodes, respectively. According tothe composite analysis of meteorological factors for high PM10 external sources originated by Sahara desertindicates that a strong surface deep low pressure over Italy and an anomalously high pressure over Caspian Seaaccompanied by the strong southwesterly wind patterns from Sahara region at mid-levels enable transferring ofsuspended dust particles to Istanbul in a very short time during spring days. On the other hand, extending of theAzores high-pressure centers from its origin to Balkan Peninsula cause transferring of high-PM10 values bynorthwesterly flows to Istanbul during winter months. Although high-PM10 episodes originated by Russia shownas least frequent, their contribution to PM10 levels are higher than the other long-range transport pathways. Theorigins of high-PM10 episodes and their associated meteorological conditions found in this study can providetheoretical underpinnings for dust control strategies and early warnings for health related diseases.