Analysis of Synoptic Showery Rain falls Contributing to the Formation of Flood within Rivers of Gilan Province

One of the most important factors leading to occurrence of We usually use flood is weather phenomena, such as Severe cloudbursts and accomplishment of the It should be removed .Climate study and identification of weather phenomena, especially the cloudbursts have an important role in forecasting the floods and making flood warning plans. Therefore, this research has been conducted in order for Climate analysis of the cloudbursts leading to flood in west of Gilan Province. For this purpose, statistics of floods and local cloud bursts related to each flood in west region of Guilin were identified and drawn out since 2001-2011. Accordingly, during this period of time 13 floods and local clod bursts were identified, then in the next stage, serological isobar plans for sea level and 50

to make decision and strategies for confronting and controlling the flood.To date, there is an average of 2-3 floods per year in the west of Gilan, therefore this research has adopted sinological analysis in order to study the cloudbursts leading to flood.Lashkari (1996) studied the sinological samples of hearty rainfalls in southwest of Iran in his research.With regard to serological analysis of earth's surface plans from 850,700, and 500 hectopascal, Lashkari has concluded that occurrence of heavy and flooding rain falls in southwest of Iran is due to the severe of the activity of Sudanese monsoon low -pressure center and the convergence area of red sea and conversion of them to dynamic and thermodynamic systems.Khoshhal dastjerdi (1996) studied the climatology of rainfalls and the findings revealed that they were more than 100mm in coasts if the Caspian sea and has concluded that these rainfalls are due to the enforced cumulus of breeze of the sea and they were transferred to the coast by synoptic system and increasing of rainfalls in Alborz northern foothills affected by up going winds.Ashjee Bashkand (2000) studied the sinological samples of heavy rainfall in northwest of Iran.In this research by focusing on rain falls for 24 hours , 30mm or more in a period of 5 years (1992)(1993)(1994)(1995)(1996) and by asking of climatological plans and statistics and using the formation from synoptic stations of northwest area, he concluded that most of the heavy rain falls in northwest were occurred in spring or autumn.Johann bakhsh Asia and Zolfaghari (2001) studied the sinological samples of daily rain falls in west zone .Outcomes of this study implied the existence of a meaningful variance in lower centers sample and intensity of synoptically samples frequency of occurrence , and the direction of low pressure centers motion.Najrsalighe (2001) investigated the summer rain falls in southeast of Iran since 1993-2005 and he has concluded that two samples of different pressures -dynamic attraction between pressure of lower and upper latitudes causes to creation of cumulus and weather up going -2 global warming causes to creation of low pressure thermal weather and weather up going .Moradi (2001) sinologicaly studied the flood on 21 of November in 1996 in central part of Mazandaran province and he observed the influence of high -pressure cumulus on earth's surface and the existence of had in upper levels of the atmosphere as the main reason for rain fall Moradi (2001) studied the sinological rain full in southern coasts of Caspian sea in six cold months and he expressed the influence of high -pressure cumulus in earth's surface the main reason of rain fall that the center of this cumulus is located on Black sea.Mohammadi (2002) by sinological studied of rain falls in southern coasts of Caspian sea in six cold months has concluded that heavy rainfall occurrence in level of 500 hectopascal is due to the influence of cumulus over black Sea from west to center of Europe , east of Mediterranean sea.Arabi (2006) et al ., 1992 ., andHavvey et al ., 2004; they have described the flooding rainfall occurrence in some areas of middle East such as southern , southwest and western and central areas are due to Sudanese low -pressure system or low-pressure system of Red Sea .Luckman and Giakam (1994) studied the influences of sinological and planetary rainfall on flush based over 28 years samples.Yarnal and franks (1997) believed that storms coming from Atlantic ocean play an important role in flowing of Susquehanna River.Konrad (2001) by study of 312 heavy rainfall, has identified 14 parameters and sinological features related to heavy rainfalls accordance and according to these parameters he has represented a sinoligical sample for classification of heavy rainfall .Increase in floods and their resultant damages in most of watershed fields in the country, has necessitated determining and prioritizing flood-producing regions from the perspective of flood control more than before.Prioritizing crisis regions in the form of flood prediction and alarm systems designing projects is of special importance .theflood-proneness intensity of subfields by solely analyzing the present data.Therefore, the importance of hydrological mathematical models in determining flood-proneness of fields is undeniable.With the aid of hydrological models we can determine the flood-proneness of the fields by using a floodproneness index and analyzing output simulation hydrographs.One of the common analyses in hydrology is surface runoff estimation in a watershed based on rainfall distribution.Regarding watersheds' real situation due to lack of sufficient data in one hand and complexity of hydrological systems on the other hand causes inevitable use of rain-fall-runoff simulation models.Since measurement of all parameters affect watershed's runoff is impossible, choosing a suitable model whit simple structure, minimum input data requirements and reasonable precision is essential Yugo, Z (2007).One of the hydrologic models that meet these criteria is HEC-HMS which has been used widely in different stud-is Garsia, A(2008), Radmanesh, F(2006) Yusop, Z (2007).Al-ahmadi has done rainfall-runoff modeling using HEC-HMS, GIS and RS in three sub-basins in southwestern Saudi Arabia.He performed the model run with automatic calibration method and obtained credible results.Arekhi McColl and Agent (2001) used HEC-HMS model to predict land use patterns.They extracted watershed characteristics using HEC-GeoHMS and GIS technique and also used SCS unit hydrograph method for runoff estimation.Considering initial loss as sensitive parameter and choosing mean squares error method for model calibration, the results showed that HEC-HMS model has high predictability than that of Shaghaeghi Fallah (2001)

MATERIAL AND METHOD
The study area consisted of Western part of Guilin province and it politically contains Astar , Talesh and Rezvanshahr cities.According to UTM geographical system, this area is located between geographical longitude and latitude of 283597.78m and 342782.40m and 41438.75mand 4258558.20minzone, respectively.The area is about 3234 square kilometer which has been formed of 2615 square kilometer of mountains and 620 square kilometers of low and plains.The important rivers in the area are Astarachay Havigh, Karganrood, Navrood, Dinachal, Shafarood and Lisar.The maximum height in western rivers of Guilan flush is located in Talesh Mountains with high of 28 meters lower than sea level in Astara.Figure 1 illustrates the location of the area in Guilan province.

Method
The study begins with referring to the dates of flood occurrence in the last decade and the amount of damages reported by crisis management organization of Gilan province.According these information in this 10 years, 38 damaging floods have occurred in west of Gilan.For performing sinological analysis of flooding rainfalls, it is essential to distinguish the regional rain full from local rainfalls .To do this, the statistics of daily cloudbursts of synoptic stations of Anzali and Astra for the statistical period of 2001 -2011 and the statistics of daily amount and maximum amount for hydrometric station in area were collected .Therefore, the days of rainfall occurrence leading to flood were identified and 13 floods related to this 10 years were detected, then sinological plans related to these 13 floods in tow lever of 500 hectopascal and earth's surface since 48 hours be fore beginning if rainfall to the end of it, were drawn out .After understanding and interpretation of sinological plans of selected floods , the influential sample of sinological circumstances of floods in the area were identified and represented.Flowing of relocation of normal cycles in formation of producer components of general rotations of atmosphere the locations of every system during the year and month is different.So, every system has different samples in different areas.Therefore, by using several selected scales such as location and formation of systems that effect on rainfalls, the direction of their motions, weather type during of flood occurrence, and frequency of every similar system have been differentiated and have been divided into 7 samples.After derivation of samples and rainfalls leading to flood and determining of their frequency, the most important sample of rainfalls leading to flood in the west of Gilan was identified and the influence of high -pressure system on flood occurrence in west of Gilan was investigated as the first hypothesis of this research.Moreover, to prove or to refuse the second hypothesis (the frequency of rainfalls leading to flood in spring and summer is further than other seasons) onesided variance analysis test (Anova) was utilized.
In order to determine the hydrograph of the runoff from precipitation based on the type of the method of changing precipitation into runoff, which would include hydrological or hydraulic navigation, we can use various mathematical models.The selected model must be calibrated and validated against the registered data of precipitation-runoff. Later we can determine the flood-proneness of each subfield by determining the peak output discharge after eliminating each subfield based on design precipitation and/or historic precipitations.In this article, HEC-HMS hydrological method has been used for changing precipitation into runoff for the purpose of navigating subfields.HEC-HMS model, in this research, has been calibrated and validated based on SCS-CN, for calculating seepage, hydrograph method of Clarke unit in navigating subfield was employed.The above methods are explained briefly later.It is to be mentioned that base flow in implementing the model was not taken into consideration and the aforementioned floods have been simulated without base flow.For the purpose of calibrating and validating HEC-HMS model, important floods, with remarkable volumes and peak discharges and proper shape of hydrograph for calibration and validation of the model, were selected .After the date of the flood was determined, correspondent precipitation of the flood was also collected from hyetograph centers in the region.Then, the influence of each of the subfields in the generation of output flood is obtained.The subfield which has the greatest participation in generating output flood of the field is identified as the most flood-prone subfield, and other subfields are prioritized according to their participation output flood.In order to determine the flood-proneness of subfields two indexes are defined as follows: In order to calibrate and validate HMS precipitation-runoff model, like other models, first, the observational hydrograph of the floods in the site of hydrometric stations, daily precipitation statistics, and the hourly statistics of precipitation in each of the subfields were provided.In the second phase, after collecting statistics, they were analyzed in order to control the coordination of the amount and the temporal distribution of precipitation with the shape and the size of observed flood hydrograph.It should be note that there is a possibility that some of the selected floods could be eliminated due to discordance between precipitation and runoff.Discordance and disproportion between precipitation size and runoff is observed mostly in floods with high peak Discharge.

Sinological Samples of flooding rainfalls in west of guilan
According to outcomes of isometropia analysis of sinological plans of selected clod bursts 7 effective sinological samples in flooding rainfalls accordance were identified which are as follows Sample A: high -pressure of north of Europe Whit Sudanese low -pressure Sample B: Siberian high -pressure Whit Sudanese low -pressure Sample c: Mediterranean high pressure With Sudanese low -pressure Sample: high -pressure system of Europe.Sample F: high -pressure Mediterranean system and high -pressure system of Europe.Sample G: high-pressure of Siberia.
All of these 7 samples, high -pressure system have an important role.For identifying the affective weather cumulus in creation of flooding rain falls the frequency of every system way was calculated in cloudburst as presented in table 4. As you see in table 1 the outmost frequency is related to high -pressure sample of northern Europe -Sudanese low -pressure sample and Mediterranean high -pressure sample of Sudanese low -pressure that these two systems of cumulus have maximum influence in creation of rain falls in west of Gilan and cause to flood occurrence and damages.Moreover, to identify the effective systems in creation of flooding rainfalls every system was calculated in all cloudbursts as shown in table 2.
As you see in table 6 from total 13 cloudbursts , 4 cloudbursts were created due to the activity if high -pressure systems and 9 other cloudbursts were created due to the high pressure systems with law -pressure systems that cause creation of flooding cloudbursts -which means that in whole 13 available cloudbursts highpressure system have interfered and regarding the percent of frequency there is 100 percent for existence of high -pressure systems -which accordingly the first hypothesis of research has been supported and has been proved completely.
To prove or to reject the second hypothesis based on the frequency of cloudbursts causing flood in spring and summer is further than other seasons of year frequency of seasons that flood occurred in them have calculated .
Table3 shows that 50 present of flooding rain falls have occurred in summer and winter.To reject or to prove the second hypothesis using SPSS software and one-sided variance analysis test (Anova) showed that there isn't any significant relationship in level of 5 percent during different seasons of year regarding the number of accordance in cloudbursts leading to flood .With making field model, meteorology model and control models for each of calibration floods (table 4), first precipitation-runoff process was simulated with preliminary amounts of parameters.The function of the model was examined by comparing the hydrograph of the simulated and calculated flood in Tamar hydrometric station.Despite controls on the data of precipitation and flood, each of the above events was calibrated with different but close amounts.However since the object of calibration is to determine similar parameters in precipitationrunoff model, in order to get similar parameters for all upper subfields of Tamar hydrometric station, different examinations were implemented.Finally, the parameters offered in table 6 were considered as the final parameters of calibration stage and also for validating precipitation-runoff model.
The amounts of final parameters of precipitation-runoff model are offered in table 4.
The results of the validation of the flood of September 2005 based on the parameters of table 4 are offered in figures 1 and 2.

CONCLUSION
This research has been conducted to identify the kind of weather cumulus and to identify the origin of synoptic sample of heavy rainfalls causing flood in the west of Gilan and to prove or to reject two hypotheses (1: cloud bursts rainfalls in the west of Gilan and Talesh which are due to the influence of high -pressure weather cumulus.2: the frequency of cloudbursts rainfalls leading to flood in spring and summer are higher than other seasons of year).With regard to sinological isometropia analysis of 13 flooding cloudbursts, 7 samples were identified including, high -pressure system of north of Europe with Sudanese low-pressure system , Siberian highpressure system, Mediterranean high -pressure system with Sudanese low -pressure system, high -pressure system of Siberia , north of Europe and Mediterranean low -pressure and Sudanese systems , high -pressure system of north of Europe , Mediterranean high -pressure system and high -pressure of north of Europe and Siberian high -pressure system .The analysis of these samples have shown that the most frequency is related to high -pressure sample of north of Europe with Sudanese low -pressure system.High -pressure systems have had the most influence on creation of flooding cloudbursts in west of Gilan.Also the most frequency is related to high -pressure weather cumulus of north of Europe or Scandinavian and Mediterranean in surface of earth that with motion toward Iran and humidifying from black sea in contrast with Sudanese low -pressure warm weather or Mediterranean warm and humid weather cumulus causes flooding rain falls in the area in the middle levels of atmosphere , the existence of Siberian high -pressure and Scandinavian and Mediterranean low -pressure have had an important role in creation of these cloud burststhat these outcomes are in accordance with findings of Moradi (2001) .He has studied the synoptic rain falls in southern coasts of Caspian Sea in six cold months and he has expressed the influence of high pressure weather cumulus in surface of earth as the main reason of rainfall occurrence whose source is located in Black sea.Simultaneously, there is a deep had in upper level that originates from low -pressure center located on Scandinavia or Iceland.The half of the floods are related to summer season, especially in September that among these, Sudanese low -pressure weather cumulus has am important role in formation of cumulus rainfalls .This finding is consistent with the outcomes of Angel et al , 1992 , DunKerton et al , 1986 Divis et al, 1992 , Harvey et al , 2004 .Studies since they have expressed the flooding rainfalls occurrence in some areas of Middle East such as south, southwest , west , and central areas of Iran due to the Sudanese low -pressure system or -pressure system Red sea.But the second theory based on frequency of rainfalls occurrence in spring and summer will be refused according to outcomes of one-sided variance analysis test.
Although the number of flooding rainfalls is higher summer.Totally it can be said that high -pressure cumulus had an important role in flood occurrence in the west of Gilan , especially Scandinavian high -pressure system that moves toward Black sea and Caspian sea and humidifying from them , which leads to cloudburst occurrence in west of Gilan..And at the end, although the severity and amount of rain falls are one of the reasons of flood occurrence, but environmental factors have an important role in creation of floods.The west area of Gilan is consisted of high and steep mountains and rivers with fairly short concentration time that physically have potential role in creation of floods.On the other side, the Kind land usage also is one of the decreasing or in factors of flood occurrence and Whitewater creation in the area.Fair plant cover, especially existence of forests is an influential factor in decreasing of White water ratio.But the occurrence of frequent and almost annual floods in west Gilan in last year reveal the necessity of paying attention to the environmental changes and manmade land use.In this research, in order to determine the hydrograph of the runoff of precipitation in subfields, the HEC-HMS model has been used, in which the change of precipitation into runoff is done based on hydrological methods.The selected model must be calibrated and validated against the registered data of precipitation-runoff.Then, the flood-proneness of each subfield can be obtained by determining the peak output Discharge after eliminating each subfield based on a design precipitation and/or historic precipitations.In this research, calibration and validation results of HEC-HMS model in Tamar field has been offered.In Tamar field, 2 historic flood events have been used to calibrate and 1 event is used to validate.At the end, the ranking of the flood-proneness of their subfields is determined based on the most important historic flood.Based on calibration results in Tamar filed, it can be said that in case of the existence of dry climate, initial damages coefficient in this field is equal to 15.0.Furthermore, calculating concentration time of the field based on relations is in accordance with the condition of subfields and A coefficient for Tamar field was estimated at 1.0.B coefficient for the field which is assumed to be equal to 3.0.
Ratio in Tamer field was estimated 4.0, based on which the simulation of hydrograph was done with high accuracy.Also, the study showed that in simulating the behavior of a filed in proportion with precipitation, the effect of the temporal distribution of precipitation is much higher than its spatial distribution.Therefore, equipping the current stations with stability hyetography mode is essential.Otherwise, using 12-hour data of precipitation in stations instead of generalizing the temporal distribution of a stability hyetography station to the whole region in calibration is advantageous and more favorable.
Radmanesh et al. (2006) calibrated and validated the HEC-HMS model in Yellow River watershed in southwestern Iran.The results showed a proper agreement between the peak discharge of observed and simulated hydrographs of Stone (2001).Momcilo et al. (2007) applied HEC-HMS model in northeastern Illinois to study the variation in peak flow originating from precipitation increase at 12 stations using daily rain-fall data presented by Sharifi (2004).Yusop et al. (2007) have studied runoff characteristics using HEC-HMS model in Oil Palm catchment in Malaysia and they obtained satisfactory results.

Table 4 .Fig. 1 .
Fig. 1.The attributes of observational and simulation hydrographs in Tamar hydrometric station in September 2005

Fig. 9 . 2009 Fig. 10 .Fig. 11 . 2009 Fig. 12 .
Fig. 9.The Slap and Vortices Earth Pattern on 22 nd of September, 2009 Fig. 10.Arrangement Map of Hgt and Vortices High Level Pattern on 22 nd of September, 2009 by sinological study of rain fall on 21 of July in 2006 has concluded that spreading and intervention of low -pressure systems from north causes rainfall occurrence in this period.In different studies foreign researchers have discussed the sinological reasons of flooding rainfalls such as, Angle et al ,1992 : Dunkerton et al ., 1986 Divis

Table 1 .
Frequency of weather cumulus rainfall leading to flood in west of Gilan

Table 3 .
Frequency of seasons that have flooding cloud bursts in last decade in of Gilan