Environmental Erosion Research
پژوهش هاي فرسايش محيطي
E.E.R.
Literature & Humanities
http://magazine.hormozgan.ac.ir
1
admin
2251-7812
2717-3968
10.52547/jeer
6561
8888
45855/11/3/90
fa
jalali
1396
5
1
gregorian
2017
8
1
7
2
online
1
fulltext
fa
ارزیابی تاثیر گرمایش جهانی بر پهنه های مستعد فرسایش بادی در غرب دشت مرکزی و شرق زاگرس میانی ایران
Assessing the Effects of Global Warming on the Areas Susceptible to Wind Erosion in the West of Central Plains and the East of Central Zagros Mountains of Iran
سناریوسازی و پیشیبینی وجوه مختلف فرسایش
پژوهشي
Research
<p style="text-align: justify;"><strong><span style="font-family:b compset;">مسئله­ گرمایش جهانی و گرم شدن سریع هوا در دهههای اخیر را می­توان یکی از مشکلات فراروی بشر در هزاره­ی سوم دانست. از سوی دیگر، افزایش متوسط دمای جهانی به تغییر در میزان، نوع و الگوی توزیع مکانی و زمانی بارش منجر شده است. بالا بودن دما و کمبود بارش در سطح زمین، زمینه را برای تأثیرپذیری سطح زمین از باد افزایش می­دهد؛ بنابراین، در مناطقی که با افزایش دمای ناشی از گرمایش جهانی و کاهش بارش مواجه هستند، فرسایش بادی تشدید می­یابد. در این پژوهش، به بررسی تأثیر گرمایش جهانی بر میزان فرسایش­پذیری خاک حاصل از باد، در غرب دشت مرکزی و شرق زاگرس میانی ایران پرداخته شد. برای پهنه­بندی مناطق مستعد فرسایش بادی، از مدل اثر باد بر فرسایش ـ که لویز پلتیر </span></strong><strong><span dir="LTR">(</span></strong><strong><span dir="LTR">Peltier,</span></strong> <strong><span dir="LTR">1950</span></strong><strong><span style="font-family:b compset;">) ارائه کرده­است، استفاده شد. همچنین برای پیش­بینی دما و بارش در آینده­ی محدوده­ی پژوهش، از مدل مجیک سنجن استفاده شد. در ابتدا به پهنه­بندی میزان تأثیرپذیری خاک از باد در دوره­ی کنونی پرداخته شد. نتایج پژوهش نشان داد که دشت مرکزی ایران، تحت شرایط دما و بارش دوره­ی کنونی کاملاً مستعد فرسایش بادی شدید است. همچنین در مناطق مرتفع و قلل کوه­های زاگرس، باد نقش بسیار ناچیزی در فرسایش خاک دارد. این پژوهش نشان داد که در اثر گرمایش جهانی در دهه­های آتی، پهنه­هایی که در آنها فرسایش بادی شدید است، توسعه می­یابد و مناطقی از دامنه­های شرقی کوه­های زاگرس که در دوره­­ی کنونی، باد در فرسایش خاک آن نقش چندانی ندارد، در آینده مستعد فرسایش بادی شدیدی هستند. </span></strong><strong><span dir="LTR"></span></strong></p>
<p><strong>Extended abstract</strong><br>
<br>
<br>
<strong><span dir="LTR">1- Introduction</span></strong><br>
Climate change is one of the problems human is facing today, and most of the scientific societies know that it is rooted in the distribution of greenhouse gases. Distribution of greenhouse gases with large volumes and in large spans has been affecting the energy budget and consequently has caused earth rapid temperature increase during the last decades. On the other hand, such a growth of world means temperature has changed the amount, type and spatiotemporal pattern of precipitation and it is forecasted that it will affect the hydrological cycle in the future decades, severely. Different Changes of moisture and thermal components as inputs for the organized systems of nature means that (under present condition which can be called rapid change era) we should wait for the consequences of irreversible human manipulations on the nature. The damages caused by wind erosion on the environment, health and economy are vast. These damages occur at the removal place and also at the places where the particles of soil deposit. Wind erosion entails the loss of soil fertility, the damage to infrastructure and railway lines, the limitation of the life of plant and animal species, the occurrence of severe dust storms and air quality fall, increase in respiratory problems and illnesses, and desertification. Several factors contribute to the erosion of the soil by the wind. For example, to determine the severity of wind erosion in the IRIFR model, 9 different factors are used. The Raizal model, which is a software program, determines the amount of soil erosion in terms of the physical condition of the land, including the soil, climate, and region. A point among all the wind erosion models is that the climate factors are the most effective factors in creating wind erosion. Wind erosion is one of the most important factors in soil erosion in the arid and semi-arid regions. Iran, due to its location in the arid and semi-arid belt of the Earth, is one of the areas that exposed to wind erosion. Most of the researches on wind erosion in Iran have been in the central and desert regions of Iran, whereas other parts of Iran also affected by this phenomenon. One aspect of the climate change includes the changes in soil erosion susceptibility from the wind. If the climate becomes dry, the wind erosion will increase. This study investigated the effects of global warming on the soil erosion caused by the wind in the West Central Plains and the East central Zagros mountains of Iran.<br>
<br>
<strong>2- Methodology</strong><br>
Wind erosion is a process where soil particles detached from the surface and moved by the wind. Several factors contribute to the creation of wind erodibility including lithology, topography, climate, land use and vegetation. Climate conditions among these factors is the most effective one due to the fact that the climate conditions influence the other factors such as land use, vegetation, and even the surface layers of lithology and topography in the long term. This article focused on climatic aspect of influencing factors on the soil wind erodibility<span dir="RTL">.</span> <span dir="RTL"></span><br>
The study area was limited to Khoramabad (48.17 E, 33.26 N), Kashan (51.27 E, 33.59 N), Yazd (54.17 E, 31.54 N) and Yasuj (51.41 E, 3050 N) contexts. Louis Peltier, using two climate indices, i.e. rainfall and temperature, determines the susceptibility of the soil erosion by the wind. For the zoning of the areas susceptible to the wind erosion, Louis Peltier's model used. In order to choose a suitable model for predicting the temperature and precipitation values under the effects of global warming, MAGICC SCENGEN model used. This composite model used for evaluating the climate change due to the greenhouse gases. <span dir="RTL"></span><br>
<br>
<br>
<strong>3-Results</strong><br>
The results showed that in the regions of the West Central plains of Iran in the current period which had low rainfall and relatively high temperature, the wind plays an important role in the soil erosion. According to Peltier's classification, wind erosion is severe in these areas. While passing through these areas to the eastern slopes of the central Zagros Mountains, the rate of wind erosion reduced. In these areas, the wind erosion is moderate. In the highlands of the Zagros Mountains, undergoing low temperature and relatively high rainfall, the wind has very little role in the erosion of the soil. The results also showed that due to global warming, the areas with severe wind erosion would expand.<br>
<br>
<strong>4- Discussion and Conclusion</strong><br>
Because Iran is located in the arid and semi-arid belt of the Earth, it can regarded as one of the areas susceptible to wind erosion. This study indicated that the climate factors, the most important of which are temperature and rainfall, have created the conditions for wind erosion in Iran. Wind erosion is so severe in the large parts of the study area. Only in the highlands of the Zagros Mountains, due to higher rainfalls and lower temperatures and thus maintaining the soil moisture, the wind cannot cause soil erosion. This study showed that global warming could play a major role in the development of the regions where the wind erosion is severe. Hence, in land use and infrastructure planning, the type of the wind erosion in the current period as well as in the future periods must take into account.<br>
</p>
دشت مرکزی, زاگرس میانی, فرسایش بادی, گرمایش جهانی, مدل پلتیر
Central plain, Zagros Mountains, Global Warming, Peltier's model, Wind Erosion
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58
http://magazine.hormozgan.ac.ir/browse.php?a_code=A-10-488-1&slc_lang=fa&sid=1
Faramrz
Khoshakhlagh
فرامرز
خوش اخلاق
fkhosh@ut.ac.ir
10031947532846003754
10031947532846003754
No
Tehran University
دانشگاه تهران
Mohamadamin
Moradimoghadam
محمد امین
مرادی مقدم
moradi.m.a@ut.ac.ir
10031947532846003755
10031947532846003755
Yes
Tehran University
دانشگاه تهران
hossein
Mohamadi
حسین
محمدی
hmmohamadi@ut.ac.ir
10031947532846003756
10031947532846003756
No
Tehran University
دانشگاه تهران
Mohamadhassan
Mahoutchi
محمد حسن
ماهوتچی
mhmahoutchi@ut.ac.ir
10031947532846003757
10031947532846003757
No
Tehran University
دانشگاه تهران