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بازسازی حلقه- درختی بارش شمال شرق ایران با استفاده از گاهشناسی درختان ارس منطقه لاین
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نویسنده
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نادی مهدی ,پورطهماسی کامبیز
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منبع
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جغرافيا و مخاطرات محيطي - 1395 - دوره : 5 - شماره : 19 - صفحه:1 -16
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چکیده
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در این تحقیق، تاثیر دما، بارش و شاخص pdsi بر پهنای دوایر سالانه درختان ارس در منطقه لاین خراسان شمالی بر مبنای دادههای هواشناسی ایستگاهی و جهانی بررسی شد. سپس بر مبنای گاهشناسی درختان ارس، بارش سالانه منطقه شمال شرق ایران در دوره 1845-2000 بازسازی شد و نتایج بازسازی بارش سالانه با آمار چهار ایستگاه درازمدت بررسی و مطابقت آن با گزارشهای تاریخی قحطی ها بررسی شد. نتایج نشان دادند که پهنای دوایر سالانه درختان ارس منطقه با دمای ماه دسامبر قبل از فصل رشد همبستگی معنادار مثبت ولی با دمای ماه می همبستگی منفی دارند؛ اما بارش در کل دوره رشد تاثیر مثبت بر رشد درختان دارد و بیشترین همبستگی بین بارش سالانه با رشد درختان به دست آمد؛ بنابراین با استفاده از شش نقطه از داده های شبکه جهانی، میانگین منطقه ای بارش شمال شرق کشور محاسبه و بازسازی شد. نتایج بازسازی بارش نشان دادند کمترین بارش 150 سال گذشته در سال 1917 به وقوع پیوست. همچنین سه دوره خشکسالی شدید در دهه 1870، اوایل قرن بیستم و 1919-1915 به وقوع پیوسته است. بارشهای بازسازی شده همبستگی معناداری با آمار صد ساله ایستگاه های مشهد، اصفهان و تهران داشتند. گزارشهای تاریخی قحطی های ایران تطابق بسیار خوبی با خشکسالی شدید بازسازی شده در این تحقیق داشت. مقایسه نتایج این تحقیق با نتایج محققین در مناطق همجوار نشان داد که نتایج محققین در شرق منطقه (غرب و شمال غرب چین) نسبت به تحقیقات انجام شده در غرب (ترکیه و خاورمیانه) تطابق بهتری دارد.
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کلیدواژه
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حلقه درخت، داده های جهانی، ارس، بارش شمال شرق، لاین
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آدرس
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دانشگاه علوم کشاورزی و منابع طبیعی ساری, ایران, دانشگاه تهران, دانشکده منابع طبیعی, ایران
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Tree Ring Based Precipitation Reconstruction of Northeast Iran Using Juniper Tree Chronology of Lain Region
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Authors
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Nadi Mehdi ,Pourtahmasi Kambiz
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Abstract
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1. IntroductionLongterm climatic data are a prerequisite for hydrometeorological studies and understanding of past climate. Iran is mostly located in semiarid to arid climate zones, so information on the natural longterm variability of the hydroclimate is of great relevance for land use planning, agriculture, and water supply of a growing population. However, the maximum length of recorded climate data in Iran is less than 60 years, measured at less than 50 synoptic meteorological stations. Therefore, knowledge of the climate history in the distant past requires reconstruction of climate variables from proxy data. Treering data are an important and precisely dated proxy to reconstruct variations in hydroclimate, especially in climates where tree growth is mainly limited by moisture availability. Juniper trees due to high survivability and high sensitivity to weather conditions are suitable tree species for the reconstruction of past climate. The present study is the first effort to reconstruct local precipitation in the northeast region of Iran from treering data of Juniperus polycarpus. 2. Study AreaThe treering sampling site is located in the Hezarmasjed heights (Lain region) of Khorasan Shomali Province, northeast of Iran (37 N; 59° 21 E) at an altitude of 2100 MSL. The climate of the region is cold and semiarid. Climatic data are prepared from meteorological stations and global data networks (NCEPNCAR) with resolution of 2.5*2.5 deg. with the common period of 19492000. In order to understand regional variation rainfall, the average precipitation of six points from NCEPNCAR network was considered as regional precipitation data. The chronology of tree ring width is developed from 16 increments of Juniper trees. To remove the biological age trend in ring width of data, a double detrending procedure was applied to all series by using the ARSTAN program. 3. Material and Methods In this study, the influence of temperature, precipitation and PDSI on tree ring width of Juniperus trees based on station and global network data was investigated and annual precipitation of northeast of Iran was reconstructed using the Juniper chronology in the period 18452000. A simple linear regression was employed to reconstruct precipitation. The reconstructed results were compared with recorded data of four longterm stations and also their correspondence with historical famine reports and the reconstruction results from neighboring countries (east and west) was investigated. 4. Results and Discussion The results showed that tree ring widths of Juniper trees have positive correlation with temperature of pre growth December and negative correlation with temperature of May, significantly. Also precipitation in all months of growth season has positive effect on tree growth and annual rainfall has the highest correlation with tree ring widths. So average rainfall of northeast Iran from six points of global network data was calculated and using Juniperus chronology was reconstructed in 18452000. Correlation coefficients of calibration and evaluation periods were significant (p <0.01). The positive amounts of CE and RE statistics and fewer amount of RMSE than standard deviation of actual data, allowed using the reconstruction model. Reconstruction results showed in the past 150 years, 1917 and 1891 were the driest and wettest years, respectively. Also three severe droughts occurred in the early 1870s, 19151919 and early twentieth century. The reconstructed results had meaningful correlation with three old stations (100 years old), i.e. Mashhad, Esfahan and Tehran, respectively. Also historical famine reports had good agreement with the reconstructed severe droughts of this region especially the report of L.F. Esseltyn in 21 December 1917 about the famine condition in Mashhad. Also comparison of the reconstruction results with neighboring countries research is more similar to the findings from the east (west and northwest of China) than the west (Middle East and Turkey). 5. Conclusion Radial growth of Juniperus polycarpus trees in northeastern Iran is strongly dependent on rainfall variability during the growing season, as it is indicated by high positive correlations between treering chronology and precipitation from February of pre growth month to September of growth period. Correlation map of treering width and annual precipitation represent that this chronology has the potential to reconstruct precipitation of North half of Iran, Azerbaijan, Turkmenistan, Uzbekistan, Tajikistan, Kyrgyzstan, south half of Kazakhstan and Northwest of China. Based on the reconstructed results, severe droughts had duration of 46 years. Also the reconstruction results of past droughts showed that severe droughts before 2000 were not recorded after establishing meteorological stations and this region is prone to experience more severe droughts in the future. Highly significant correlation of these results with longterm stations showed that our findings can represent historical droughts in northeast and central parts of Iran. The reconstructed precipitation can provide possibilities to link local droughts in northeastern Iran to other areas of the country and also reconstruction results in east and west of Iran.
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Keywords
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