خلاصة:
کشور ایران در کمربند خشک و بیابانی جهان واقع شدهاست. حاکمیت این شرایط به تبعیت از موقعیت جغرافیایی آن، سازوکار لازم را برای وقوع رویدادهای گردوغباری در بسیاری از ایام سال فراهم کرده است. پدیدهی مذکور طی سالهای اخیر با شدت و فراونی وقوع، مناطق عمدهای از ایران (به خصوص بخشهای غربی و جنوب غربی) را متاثر کرده که به لحاظ اقلیمی و زیست محیطی، مطالعه و مدیریت کاهش آثار آن در اولویت است. در این پژوهش نیز رویداد گردوغباری که در آبان 1396 اتفاق افتاد، با استفاده از شاخصهای مبتنی بر سنجش از دور چند زمانی Terra/MODIS، تحلیلهای همدیدی مبتنی بر برونداد پایگاه ECMWF و پارامترهای هواسپهر از پایگاه NCEP/NCAR بررسی شد. بنابراین، بر حسب ویژگیهای انعکاس و جذب رویداد غباری مذکور، محدودهی غبار حاصله و شدت آن به گونه ی دقیق استخراج و درجهی شدت آنها برآورد شد. سپس مسیر حرکت آن به وسیله ی دادههای چند زمانی Terra/MODIS مشخص شد. نتایج حاصل از بررسی ماهواره ای، بیانگر توافق زیاد با پایش شرایط هواشناسی حاکم در زمان وقوع گردوغبار است. همچنین نتایج نشان داد که شرایط جوی حاکم بر لایهی مرزی هواسپهر، در ایجاد تلاطم و انتقال گردوغبار از بیابانهای شمال عربستان، شرق و جنوب سوریه، و غرب و جنوب عراق به جنوب غرب ایران نقش مهم و انکارناپذیری دارد؛ به گونه ای که در رویداد مورد مطالعه، شرایط هواسپهری ناپایدار همچون قرارگیری ناوهای بسیار عمیق، چرخند قوی همراه با تاوایی مثبت قابل توجه در محور ناوه و ناپایداری و صعود هوا، زمینه را برای ایجاد شرایطی ناآرام و متلاطم بر فراز نواحی بیابانی کشورهای عربی همجوار با غرب ایران، فراهم و شرایط بسیار مساعدی برای برداشت، حمل و انتقال آن به نواحی غرب و جنوب غرب ایران مهیا کرده است.
Extended abstract
1- Introduction
Dust storms are a kind of severe natural disaster indust source regions, which have a negative impact on human health, industrial products and activities. Iran is a dry and low water country, the coincidence of this situation and its position in the global rebound belt has brought about very bad conditions. Repeaters in recent years have been affected by the severity and frequency of major events in Iran and, in terms of environmental issues, studying and managing the reduction of its effects is a priority.
In recent years, these events have been the main hazards in areas of South-west Iran. Several complex dust storms have recently occurred in the southwestern part of Iran. Detecting the spatial distribution of dust storms in the deposition regions is an essential step for managing this natural and human-induced crisis. Land measurement and remote sensing techniques are currently two of the most important methods for monitoring dust storms. Traditional reference land measurement methods have little spatial and temporal resolutions, so they can not properly monitor and anticipate dust storms. Due to rapid changes in the nature and location of dust storms, there are limitations in monitoring and relating measurements. Meteorological numerical models can not detect dust storms alone. Today, remote sensing technology is known for providing multiple global and regional images with time, spatial and spectral scales as a useful tool for monitoring , measuring and harvesting dust properties. Also, remote sensing can monitor the range and scope of dust storms, their degree of intensity and their route of movement. In this research, by using MODIS images and applying methods of applying the dust algorithm, dust was monitored. This study aimed to investigate the performance of the Normalized Differences Dust Index (NDDI) applied to MODIS data (01/11/2017) for detection of dust storms in the Southwest of Iran.
2- Methodology
Monitoring disasters properly is a necessary requirement. In this study, the dust event that took place in November 2017, based on Terra / MODIS remote-sensing indices, has been monitored by ECMWF database and synoptic analyzes from the NCEP / NCAR database. Therefore, according to the characteristics of reflection and absorption of the aforementioned dust event, the resulting dust range and its intensity are extracted accurately using the NDDI index and their degree of intensity is estimated. The NDDI equation is as follows:
Here b3 and b7 reflect the band of three and the band of seven of the MODIS bands.
3- Results
Based on the results, the dust pollution eventually increased the air pollution in some areas of Khuzestan, Ilam, Kermanshah and Kurdistan provineces, and greatly reduced the horizontal visibility. The results also showed that the dust storm began from the day in which it started from deserts in the northeast of Saudi Arabia, and after spreading to the vast deserts of southern Syria, northern Arabia and west of Iraq, moving eastward to southwest Iran has moved. The maximum spatial distribution of dust is in Khuzestan province. After the Khuzestan province, western parts of Ilam, Kermanshah, Kurdistan and Zanjan provinces are located in the next rows.
4- Discussion & Conclusions
The results of the satellite monitoring show a great deal of agreement with monitoring the meteorological conditions at the time of the occurrence of dust. The results also showed that the atmospheric conditions affecting the Atmosphere borderland in creating turbulence and transferring dust from deserts in northern Arabia, east and south of Syria, west and south of Iraq to southwest Iran have an important and undeniable nature. So, in the dusty event studied, unstable airborne conditions, such as the presence of very deep wrecks, a strong wheel with a significant positive tau in the wake axis, along with instability and climbing the air, made the region an unrestrained and turbulent situation over adjacent Arabian desert areas Provided with the West of Iran and provided very favorable conditions for harvesting, transportation and transportation to the western and southeastern parts of Iran.