Document Type : Research Paper

Authors

• Masoud Jalali ¹
• Ali SHahbai ²
• Vahab Kamrian ³

¹ Daneshgah Zanjan KeshvarIranSHare Zanjan

² Daneshgah ZanjanKeshvarIranSHahre Zanjan

³ Danesgah Zanjan Keshvar Iran SHare Zanjan

Abstract

In this paper, we attempted to identify the synoptic patterns of Summer heavy rainfall in the southern coast of the Caspian Sea by using environment- to- circulation method. To attain this aim , by using statistics of daily Precipitation of 40 synoptic and climatology stations located in the region for periods of 20 years of 1991 to 2010 and by percentile method , 29 days have rain more than 15 mm which have occurred in at least 30 percents of region stations , were determined as days with heavy rain. By using factorial analysis and cluster analysis methods , 3 synoptic patterns were determined as agent of creating rain in 29 days that the first pattern 48.3 percent , second pattern , 30 percent and the third pattern have allocated 21.7 percent of days of heavy rain in the studied region. In order to synoptic analysis of these patterns , maps of sea level pressure , 500 hectopascal level , omega (atmosphere vertical motions) , vorticity and moisture flows of level of 850 hectopascal related to two days before rain was used until rain day and finally it is determined that the main cause of occurring heavy summer rainfall in southern coast of the Caspian Sea is the penetration high-pressure system and after that formation of cool and moist northern flows as well as incidence of vast convection in the region. Each three patterns emphasize on occurrence of this condition and their difference is the place of deployment of high-pressure system and consequently the number of rainy days and severity of rain in these days.

Keywords

• Heavy precipitation
• Cluster analysis
• Atmospheric Pattern
• Omega index
• Relative Vorticity
• southern coast of the Caspian Sea

Main Subjects

• Climatology