Integrated Watershed Management, 2021, 1(1), 45-62 Article Type: Research doi: 10.22034/iwm.2021.247942 Online ISSN: 2783-4581 Citation: Hosseini, S. A., Ahmadi, H. & Houshyar, M. (2021). Analysis of rainfall system, leading to floods in July 2015 in Saghez city in Kurdistan province. Integrated Watershed Management, 1(1), 45-62. doi: 10.22034/iwm.2021.247942 Copyrights: Copyright for this article is retained by the author(s), with publication rights granted to Integrated Watershed Management. This is an open-access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/4.0). Analysis of Rainfall System, Leading to Floods in July 2015 in Saghez City in Kurdistan Province Seyed Asaad Hosseini *1 , Hamzeh Ahmadi 2 and Mahmoud Houshyar 3 1- Ph.D. Graduate, Department of Climatology, Mohaghegh Ardabili University, Ardabil, Iran 2- Ph.D. Graduate, Department of Agro-climatology, Hakim Sabzevari University, Sabzevar, Iran 3- Assistant Professor, Department of Geography and Urban Planning, Payame Noor University, Mahabad Center, Mahabad, Iran * Corresponding author: Hosseini.asad8@gmail.com (Received: 21 October 2021 Revise: 31 October 2021 Accepted: 3 November 2021) Extended Abstract Introduction: Environmental hazards have always changed and threatened various aspects of life throughout the history of human life. Flood is one of the most harmful risks, which is always associated with economic damage and in some cases with human casualties. With the highest relative incidence of natural disasters in the world (about 40%), a flood has not only caused great damage but also made many people homeless and immigrate to other countries. Precipitation is one of the most important atmospheric and effective parameters in floods that plays a vital role in the natural environment. However, its abnormal and irregular behavior can cause great damage to the natural and human environment. One of the most important consequences of global warming is the increase in the frequency of large and rare precipitation events due to rising atmospheric humidity and the activity of large-scale storms and tropical storms that occur every year around the world, with floods killing a number of people and rendering thousands of cubic meters of fresh water and thousands of tons of valuable soil inaccessible. Therefore, the analysis of these precipitation systems is very important to know the mechanism and predict them. Materials and Methods: This study is based on the method of environmental analysis to focus on atmospheric circulation, so that based on the occurrence of floods, synoptic patterns of this phenomenon have been identified. In order to accurately study the flood that occurred on July 18, 2015, the precipitation data of Saghez station were synchronized and the synoptic maps of different atmospheric levels from 10 to 70 degrees north latitude and zero to 70 degrees east longitude taken from NOAA from 48 hours before the flood up to one day after its occurrence were studied. So the synoptic patterns of the mentioned flooding system were analyzed at different levels of the atmosphere for four consecutive days. The geographical area was selected to include all atmospheric systems affecting the study area. Results: The results showed that the high-pressure system of European immigrants and the low pressure of Saudi Arabia caused heavy rainfalls on this day. Furthermore, the Mediterranean Sea, Black Sea and the Red Sea also played a role in strengthening the humidity of these systems. The day before the rainfall, the European high-pressure system from the northwest and low- pressure Saudi Arabia from the southwest approached Iran, and on the day of the flood, the merging of the two systems caused heavy rainfall in the region. At the upper levels of the atmosphere, the day before the onset of rainfall, the trough axis was located along with Turkey, Iraq and the Persian Gulf, and west of the region's borders. By moving the short wave and shifting its axis to the east and getting closer to the region, the pressure centers on the ground have also advanced simultaneously. In this case, the whole western region of the country was located below the east axis of the shortwave and has intensified instability and rising humid air and has provided the conditions for heavy rains in the region. Discussion: The mechanism of the studied heavy rainfall system showed that these rainfalls are due to high-pressure European migratory systems and low-pressure Saudi Arabia, which absorb a lot of moisture by passing through water zones and colliding with these two cold systems. And hot, the conditions for the formation of the front and instability are provided and lead to heavy rainfall in the west of the Iran. Dustan & Mirdrikvand (2013) in the study of heavy and pervasive rainfall in western Iran showed that low-pressure southern currents and the placement of a high-pressure pattern on the Arabian Sea are effective factors in rainfall in this region. Examination of humidity and perceptible water maps showed that the Mediterranean Sea, Black Sea and Red Sea have an important role in providing rainfall moisture of this system, which is consistent with the studies of Arvin et al. (2013) and Ahmadi & Jafari (2015). Conclusion: Flood event July 18, 2015; it is one of the unprecedented and destructive floods in the western half of the Iran. In this regard, the synoptic maps of the earth's surface and the upper atmosphere were analyzed. The results showed that in the period under study, first a cold air mass after passing over Europe and the northern Mediterranean Sea and the Black Sea and finally Turkey and Iraq entered the western and northwestern regions of Iran. Also, the warm air mass entered western Iran by forming in northeastern Africa and Saudi Arabia, crossing the Red Sea, absorbing moisture from this sea and moving to the north of Saudi Arabia and Iraq. The approximate coexistence of these two warm and cold air masses and also the continuation of warm air mass during rainy days can be the main cause of the mentioned heavy rainfall in the west of the Iran. Keywords: Flood, Pattern of pressure, Precipitation, Saghez, Synoptic analysis.