Analysis of Extreme Precipitation Events over Central Plateau of Iran

Wen Zhou,Mohsen Soltani,Iman Rousta,Hoffman H. N. Cheung

doi:10.4236/ajcc.2016.53024

Abstract

This paper describes the results of an analysis of extreme rainfall events in the central plateau of Iran. To study the extreme events, daily records of eighteen stations’ rainfalls in the region for different initial dates up to 2005 gathered from the bureau of meteorology. Then, the extreme rainfall threshold was calculated for each individual station using the statistical index of Gamble type I. Lastly, 22 mm was determined as the extreme rainfall value for the entire stations, and eventually 17 out of 169 extreme precipitation events were extracted in accordance with three factors including a) days with precipitation in not less than 50% of the stations, b) maximum rainfall is 22 mm or more in at least one of the stations, and c) mean precipitation of the basin is more than 3 mm. In the next step to analyze the synoptic features, the relevant meteorological data i.e. relative vorticity, geopotential height, sea level pressure, u and v wind components, relative humidity, vertical velocity, and precipitable water content at multiple levels of the atmosphere were examined from the NCEP/NCAR reanalysis dataset. The synoptic findings indicate that two patterns of deep trough and high ridge of the eastern Mediterranean were responsible for making the heavy precipitation events over the central plateau of Iran. The most and severest rainfall events occurred via deep tough pattern, which covered 76% of days with extreme precipitations during the examined period. Furthermore, the results suggest that the main moisture resources, which identified by HYSPLIT model’s outputs and moisture convergence/divergence zones for the rainy systems in the first pattern (deep trough) including Persian Gulf, Oman Sea, Indian Ocean, and Red Sea, while for the second pattern (high ridge) Persian Gulf and Red Sea play a significant role in feeding the storms in the central regions of Iran. Moreover, the southward movement of Polar Vortex is also considered as those important factors to produce extreme precipitation events over the central plateau of Iran. In general, the HYSPLIT trajectories model’s outputs confirmed the observed synoptic features in particular for the systems’ moisture feeding discussed in the patterns.

Highlights

Flash floods associated with extreme rain events are a major hydrological disaster in the central plateau of Iran because of the unique topographic features of the region as well as high frequency of the occurrence of such events
After examining the monthly pattern of the eastern Mediterranean’s deep trough, we found that March with 4 extreme precipitation occurrences possesses the most events, February ranked as the second one with 3 events and January and December with 2 events classified as the third rankings
A climatology of extreme precipitation events over the central plateau of Iran has been conducted from a syn

Summary

Introduction

Flash floods associated with extreme rain events are a major hydrological disaster in the central plateau of Iran because of the unique topographic features of the region as well as high frequency of the occurrence of such events. With regard to its specific geographic position is located in conjunction with large-scale synoptic features of the atmospheric general circulation, and is to be considered as a place for interaction between the tropical and sub-tropical systems. This feature, together with a special topography resulted in a great diversity of precipitation events to be observed for that region [1]. Studies regarding extreme events have received growing attention since the Intergovernmental Panel on Climate Change (IPCC) second assessment report [2]. The differences found at a regional scale have prompted a proliferation in regional studies on trends of extreme precipitation in widely separated and contrasting areas [5]-[13]

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Results

Conclusion