الگوهاي همديد تعيين كننده مسير حركت سامانه‌هاي بارشي با منشاء سوداني

Synoptic Patterns that Determine the Trajectory of Precipitation Systems of Sudanese Origin

سامانه سوداني مهمترين سامانه تامينكننده بارش مناطقجنوبي ايران است. اين سامانه در شرايط همديدي مختلف، از مبادي ورودي و مسيرهاي متفاوتي از ايران عبور ميكند. هدف اصلي اين تحقيق شناسايي و معرفي الگوهاي همديدي و سامانه هاي اصلي تاثيرگذار در تعيين مسير حركت سامانه سوداني ميباشد. براي دستيابي به اين مهم نيمه جنوبي ايران به سه منطقه جنوبغرب، جنوب مياني و جنوبشرق تقسيم گرديد. با اعمال معيارهاي لازم 142سامانه بارشي شناسايي شد. پس از استخراج منشا آنها هسته مركزي، پهنه اولين منحني بسته و محور اصلي زبانه كم فشارسوداني به تفكيك هر گروه استخراج شد. نتايج نشان ميدهد موقعيت استقرار هسته و الگوي گسترش اولين منحني بسته كمفشار در ماههاي مختلف بارشي و سامانه هاي مسيرهاي سه گانه، از لحاظ موقعيت مكاني تفاوت چنداني ندارد. بلكه مهمترين سامانه موثر در تعيين مسير حركت سامانه هاي سوداني واچرخندعربستان و الگوي گسترش ناوه شرق مديترانه ميباشد. در الگوي همديدي سامانه هاي جنوبغرب، واچرخندعربستان در نيمه شرقي عربستان استقرار مييابد. محور ناوهها دراين حالت عموما گسترش شمالي-جنوبي دارند. درنتيجه پهنه و شدت بارش سامانه هايي كه از جنوب غرب وارد ايران مي شوند بيشتر از دو مسير ديگر است. تمركز محور ناوههاي اين مسير بين طولهاي 30 تا 40 درجه شرقي (مديترانه شرقي) ميباشد. در سامانه هاي جنوب مياني واچرخندعربستان قدري جنوب سو شده و محوري شمال شرقي-جنوب غربي پيداكرده است. در اين الگو ناوه هاي مديترانهاي عموما محوري شمال شرقي-جنوب غربي دارند. در سامانه هاي جنوب شرق واچرخندعربستان با جابجايي شرق سوي نامتعارف برروي هند مستقر ميشود. گسترش و امتداد محور ناوه ها و زبانه كم فشارسوداني مسير جنوب شرق، داراي انضباط و هماهنگي ساختاري نمي باشد. اين عدمتقارن را بايد در توپوگرافي عمومي فلاتتبت و الگوي گردشي مترتب در اثر حضور واچرخندتبت برآن جستجو كرد.

Introduction Precipitation as an important climatic element has many irregularities and fluctuations. Iran, especially its southern half, has significant precipitation fluctuations. Several atmospheric systems are involved in the formation of precipitation in this region from of Iran. Sudanese system is one of the most important precipitation systems in Iran. This system, in different synoptic conditions, enters Iran from different input sources and passes through Iran in different ways. The important and influential role of Sudan's low pressure on precipitation in Iran, especially in the southern part of the country, has been repeatedly demonstrated in numerous studies. But the formation and its expansion have received little attention. These reasons have led to the consideration of the position of Sudan's low-pressure synoptic expansion as an influential factor in the southern half of Iran precipitation. Therefore, the position of the expansion of this important climatic system has been investigated separately in the precipitation of the three regions south west, south middle and south east. Materials and Methods Two categories of data were used for this study. These data include daily precipitation data from the Iranian Meteorological Organization and the ERA interim gridded data include Sea Level Pressure (SLP) and the Geopotential Height of the 700 HP atmospheric level of the ECMWF. Second category data with horizontal resolution of 0.5 × 0.5° degrees during 1997-2017 statistical period were prepared. To achieve the purpose of the study, the southern half of Iran was first divided into three regions: South-West, South-Mid and South-East. After extracting daily precipitation of the selected stations in all three geographic regions, a total of 142 precipitation systems was identified by applying the required criteria. From this number of precipitation systems, respectively, were obtained in the south west 107, south middle 19 and southeast 16, respectively. Then, the source of precipitation systems was extracted using the atmospheric lower level maps. Subsequently, the central core and zone of the first closed curve around the Sudanese low pressure were extracted separately for each group. The main axis of the Sudanese low-pressure trough are also drawn on all rainy day. Finally, the model or pattern of atmospheric circulation in the precipitation systems of the regions is presented separately. Results and Discussion The purpose of this study was to determine the position of the central core and the pattern of expansion of the first closed curve around the Sudanese system and the Sudanese system trough in precipitation in each of the three regions of the southern half of Iran. Since the arrangement of precipitation systems may vary in different months of the year, depending on the general atmosphere of the atmosphere, the position of the core, the pattern of expansion of the low-pressure trough and the trough of 700-hPa atmospheric level is analyzed separately each month. In the synoptic pattern of systems, entering from the south west of Iran, the Arabian Subtropical High Pressure with the southwest-northeast direction is located in the eastern half of the Arabian Peninsula and west of the Oman Sea. In this pattern, the troughs are generally north-south. As a result, the rainfall intensity and intensity of precipitation systems, entering the south west of Iran are higher than the other two routes. The focal point of troughs this route is between 30 to 40° east (Eastern Mediterranean). In systems with South-Mid route, the Arabian Subtropical High Pressure has slightly shifted southward and found a northeast-southwest axis. In this pattern, the Mediterranean troughs are generally northeast-southwest. This pattern causes precipitation in the eastern half of the Iran. o‎r at least no precipitation in the northwest and west of the Iran. The synoptic pattern of precipitation systems that enter Iran from the southeast is somewhat more complex. In this pattern, the Arabian Subtropical High Pressure has an unusual eastward shift. So that it is based in India. The troughs of this path showed two completely opposite patterns. In some systems, the troughs in the southwest-northeast direction with the orbital inclination, covers the whole of Saudi Arabia and southern Iran. On the contrary, in some systems the troughs stretch quite opposite to the first group, the northwest-southeast direction. This asymmetry in the expansion of the troughs should be traced to the general topography of the Tibetan Plateau and the circulation pattern of caused by the presence of the Tibetan anticyclone. Basically Mediterranean troughs are disrupted in their usual eastward displacement after a longitude of 60 degrees. As you can see, the Sudanese low-pressure troughs for the South-East Route lack structural discipline and coordination. Conclusion The results of this study show that the location and pattern of expansion of the first closed curve around low pressure in different precipitation months and systems of the three zones do not differ significantly in location. Rather, it is the most important system in determining the direction of Sudanese systems, the Arabian Subtropical High Pressure and the pattern of expansion of the eastern Mediterranean trough. In the synoptic pattern of systems, entering from the south west of Iran, the Arabian Subtropical High Pressure with the southwest-northeast direction is located in the eastern half of the Arabian Peninsula and west of the Oman Sea. In this pattern, the troughs are generally north-south. In systems with South-Mid route, the Arabian Subtropical High Pressure has slightly shifted southward and found a northeast-southwest axis. In this pattern, the Mediterranean troughs are generally northeast-southwest. The synoptic pattern of precipitation systems that enter Iran from the southeast is somewhat more complex. In this pattern, the Arabian Subtropical High Pressure has an unusual eastward shift. So that it is based in India. The Sudanese low-pressure troughs for the South-East Route lack structural discipline and coordination. This asymmetry in the expansion of the troughs should be traced to the general topography of the Tibetan Plateau and the circulation pattern of caused by the presence of the Tibetan anticyclone.