چکیده:
یکی از مهمترین مباحث دربارة بارش و کشت گندم دیم، تاریخ رخداد اوّلین بارش مؤثّر یا بهعبارتی بارشی است که بتواند رطوبت خاک را بهمنظور کاشت فراهم سازد. پژوهش حاضر باهدف مطالعة تغییرپذیری و روند احتمالی در تاریخ اوّلین بارش مؤثّر و شرایط همدید منجر به رخداد آن در شمال غرب و غرب ایران انجام شده است. به این منظور، دادههای بارش ایستگاههای منطقه از سازمان هواشناسی کشور گرفته شد. ابتدا اوّلین بارش یک یا دو روز متوالی حداقل 5 میلیمتر همراه با رخداد بارشی دیگر با فاصلة زمانی کمتر از ده روز، بهعنوان اوّلین بارش مؤثّر انتخاب شد. در گام بعد، با استفاده از آزمون من-کندال و شیبخط روند در تاریخ رخداد اوّلین بارش مؤثّر در منطقه بررسی شد. درادامه، با استفاده از دادههای ارتفاع ژئوپتانسیل، باد و رطوبت تراز 850 و 500 هکتوپاسکال نسخة ERA-Interim اخذشده از وبگاه ECMWF، الگوهای همدید بارشهای مؤثّر با روش تحلیل خوشهای شناسایی شد. نتایج نشان داد که بیش از 90% اوّلین بارشهای مؤثّر در ماه اکتبر رخ داده است. ایستگاههای اردبیل، سنندج، خرمآباد، کرمانشاه، زنجان، ارومیه، تبریز و همدان بهترتیب زودترین میانگین اقلیمی شروع اوّلین بارش مؤثّر در دورة (1987 تا 2016) داشتهاند. بیشترین و کمترین اختلاف بین سالیانه در تاریخ رخدادها بهترتیب در ایستگاه ارومیه و اردبیل مشاهده شد. گرچه نوسانات بین سالیانة بالایی در تاریخ رخداد وجود دارد؛ امّا بررسی روند آنها با آزمون من-کندال نشان داد که روند تغییرات همة ایستگاههای مورد مطالعه در دو دورة بررسی، در سطح 5% معنیدار نیست. الگوهای همدید ایجادکنندة اوّلین بارشهای مؤثّر منطقه شامل ناوة کوتاه، بندال امگا و کمارتفاع بریده و ناوة بلند مدیترانه بودهاند. در این میان، بندال امگا بهدلیل دسترسی بیشتر به رطوبت و شرایط ناپایداری حاصل از ریزش هوای سرد، با بارش فراگیرتری در منطقه همراه بوده است.
One of the most important issues related to rainfed wheat cultivation is the date of the First Effective Precipitation (FEP) which can provide soil moisture for cultivation. The current study aims to evaluate the variability and probable trend in the date of the first effective precipitation and the synoptic conditions that lead to its occurrence in northwestern and western Iran. Therefore, precipitation data were extracted from Iran’s Meteorological Organization. First precipitation with a value of at least 5 mm and duration of one to two consecutive days, associated with another precipitation occurring less than 10 days apart, was selected as the first effective precipitation. Then, the trend of first effective precipitation was investigated using Man-Kendall test and linear regression method. Finally, geopotential height, wind speed and humidity data (ERA-Interim) at 850 and 500 hPa levels were obtained from ECMWF website to identify synoptic patterns of the first effective precipitation by cluster analysis method. The findings reveal that more than 90% of the first effective precipitation has occurred during October. Accordingly, Ardebil, Sanandaj, Khorramabad, Kermanshah, Zanjan, Orumieh, Tabriz and Hamadan stations had earliest climatic average of the first effective precipitation date during the period of 1987 to 2016, respectively. Despite the high annual variations regarding the occurrence date of first effective precipitation, evaluating the trend of the first effective precipitation by Mann-Kendall test at the significant level of 5% show that there is no significant trend in all studied stations. Furthermore, synoptic patterns including the short trough, omega block, cutoff low and the Mediterranean long trough are identified as responsible patterns on the occurrence date of the first effective precipitation. Among the patterns, omega block has been associated with widespread rainfall at the studied stations due to greater access to moisture and unstable conditions caused by the cold weather. Extended Abstract 1-Introduction Start date, especially for the first effective precipitation, is considered as one of the most important features of precipitation. Depending on its application, effective precipitation has different definitions in different sciences. In summary, the start date of the first effective precipitation is defined as the time when it reaches a total volume of 15 mm in the first month of the water year. Literatures review displayed that among different factors, the first effective precipitation has the most correlation with cultivation date especially for rainfed crops. Hence, the present study mainly aims to statistical-synoptic analysis of atmospheric patterns leading to the first effective rainfall under in west and northwest of Iran. 2-Materials and Methods Two types of data were used in order to fulfill the goal of research: a) precipitation data sets of the surveyed stations obtained from the Iranian Meteorological Organization during 1987-2016 statistical period. b) upper air data sets including geopotential height, specific humidity and zonal and meridional wind components obtained from the European Center for Medium- Range Weather Forecasts (ECMWF) at 850 and 500 hpa from 0 to 80º E longitude and 10 to 70º N latitude with a resolution of 2.5º×2.5º. Initially, First precipitation with a value of at least 5 mm and duration of one to two consecutive days, associated with another precipitation occurring less than 10 days apart, was considered as the First Effective Precipitation (FEP). Accordingly, the occurrence date of the first effective precipitation was specified and then converted to the Julian day (October 1st was taken as the first day of Julian calender). Then, the trend of changes in Julian day time series was investigated using trend analysis test including nonparametric Mann-Kendall test and linear regression method. Finally, based on climatic mean and Weibull distribution at the 75% probability level, the date occurrence of first effective precipitation was determined for each station. 3-Results and Discussion After determining the first 5 mm and more than 5 mm effective precipitation, the synoptic patterns of these precipitations were extracted at 500 hPa atmospheric levels. To do so, an 825×95 matrix (825 dots and 95 days) was formed. Then, correlation based cluster-hierarchical analysis was used to extract map patterns. At the final step, the extracted patterns were selected by post-processing and then a representative day was chosen from each pattern for drawing maps and interpreting the atmospheric circulation conditions. Of the 240 effective precipitation events during the 1987 to 2016 statistical period 166, 63 and 11 occurred in October, November, and December. Finally, respectively in all stations in question, 95 shared and non-shared days were specified from the total first effective precipitation in all stations. Most of the first effective precipitations were single-station. After that, most of the common days were observed in 2 and 3 stations with frequency of 16 and 15, respectively. Statistical analysis of the time trend of the first effective precipitation date showed that Tabriz, Sanandaj and Ardabil stations have had a positive trend. Accordingly, the first effective precipitation was associated with time delay and occurred later. On the other hand, Hamadan, Zanjan, Orumieh, Kermanshah and Khorramabad stations have shown negative trends, respectively. The negative gradient indicates a decreasing trend in the first precipitation date and the earliest effective rainfall was observed at these stations. Julian day trend by Mann-Kendall test at the significance level of 5% presented that the time variations in all stations were not significant at the 5% level. Moreover, annual variations in the first effective precipitation do not follow a specific pattern and the differences between each year have been reduced only within certain time intervals in each station. In general, all stations have been similar in terms of reducing differences in the date of the annual first effective precipitation. Furthermore, the least annual variations were observed in Ardabil, Sanandaj, Kermanshah, Khorramabad, Hamadan, Tabriz and Orumieh stations, respectively. Statistical analysis of the mean date at each station during the rainfall periods showed that the earliest start of precipitation occurred at Ardebil, Zanjan, Orumieh, Sanandaj, Khorramabad and Kermanshah stations, respectively. On the other hand, the latest precipitation was also related to Tabriz and Hamedan stations, respectively. Synoptic patterns including the short trough, omega block, cutoff low and the Mediterranean long trough were identified as responsible patterns on first effective precipitation date. The moisture source of all four patterns was the North Indian Ocean (Arabian and Red Seas) and the Mediterranean Sea, respectively. The results also represented that the identified patterns have the following characteristics: Pattern 1 has the highest frequency of effective precipitation with heavy rainfalls and daily high average. Patterns 2 and 3 have the highest frequency of concurrent rainfalls between the studied stations. Pattern 4 has the lowest frequency, with the heaviest rainfalls after pattern 1. 4-Conclusion The current study aims to determine variability and the probable trend of the history of effective precipitation and their synoptic patterns in northwest and west of Iran. The findings demonstrate that more than 90% of the first effective precipitation occurred during October. Khorramabad, Kermanshah, Zanjan, Orumieh, Tabriz and Hamadan stations had earliest climatic average of the first effective precipitation date during the period of 1987 to 2016, respectively. The maximum and the minimum annual differences in the history of events were observed at the stations of Urmia and Ardabil, respectively. Furthermore, synoptic patterns including the short trough, omega block, cutoff low and the Mediterranean long trough were identified as responsible patterns on the occurrence date first effective precipitation. Among the patterns, omega block has been associated with widespread rainfall in all studied stations due to greater access to moisture and unstable conditions caused by the cold weather.
خلاصه ماشینی:
تحليل آماري – همديدي تاريخ اولين بارش مؤثر در غرب و شمال غرب ايران 1 مصطفي کريمي ١*، ايوب جعفري ١، امير بنيعامريان ١، سيف اله کاکي ١ گروه جغرافياي طبيعي، دانشکدٔە جغرافيا، دانشگاه تهران ، تهران ، ايران چکیده یکی از مهمترین مباحث دربارة بارش و کشت گندم دیم، تاریخ رخداد اوّلین بارش مؤثّر یا بهعبارتی بارشی است که بتواند رطوبت خاک را بهمنظور کاشت فراهم سازد.
درپايان ، نتايج حاصل از بررسي پژوهش هاي انجام شده نشان داد که در بيشتر مطالعات داخلي و خارجي، فقـط 1- Trammell 2- Kumar 3- Marta 4- Dobor 5- Bakker 6- Hao 7- Sun 8- Liu 9- Williams 10- Falloon 11- Yoshioka 12- Flower 13- Wimalasuriya 14- Sadras به اهميت و ارتباط نوسانات زماني وقوع اولين بارش با تاريخ کاشـت محصـولات زراعـي بـه ويـژه محصـولات ديـم پرداخته شده و الگوهاي گردش جوي مؤثر در وقوع اولين بارش کمتر شناسايي شـده اسـت ؛ همچنـين در بيشـتر مطالعات داخلي، دورٔە آماري مورد استفاده در بررسي بارش مؤثر محدود بـه پـانزده تـا بيسـت سـال بـوده اسـت .
در نوشتار پيش رو با توجه به اهميت تاريخ اولين بـارش بـراي کشت ديم پاييزه به خصوص گندم (کشت در عمق پنج سانتي متر)، بارش مؤثر براساس اولين بارش هاي رخ داده در يک يا دو روز متوالي که حداقل پنج ميلي متر بوده و پس از آن در فاصلۀ زماني کمتر از ده روز نيز روز بارشياي رخ داده باشد، منظور شده است ١ (کمالي ، ١٣٧٦؛ مظفري، ١٣٨٠: ١٧؛ بـازگير و همکـاران ، ١٣٩٨)؛ امـا بـا توجـه بـه تغييرپذيري تاريخ رخداد اولين بارشي که چنين شرايطي را داشته باشد (اولين بارش مؤثر)، هدف پژوهش در گـام نخست ، استخراج اين تاريخ در سال هاي مشاهداتي در منطقۀ مورد مطالعه و درگام بعـد بررسـي تغييرپـذيري آن است .