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۶۵

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به منظور بررسی تغییرات پوشش زمین بر دمای رویه سطحی زمین، تصاویر مودیس مربوط به پوشش سطح زمین (MCD12Q1) در فاصله زمانی سال های  2001 تا 2019 میلادی دریافت شد. محصول پوشش سطح زمین بر اساس  برنامه بین المللی ژئوسفر- زیست کره استخراج و با کمک الگوریتم درخت خوشه بندی تغییرات پوشش سطخ زمین مشخص شد. برای تهیه  انواع مؤلفه های دمای سطحی، محصول دمای سطح زمین(MOD11) نیز در مقیاس روزانه در محیط سامانه گوگل ارث انجین تهیه شد. در مرحله آخر برای آشکارسازی تأثیر پوشش های زمین، بر مؤلفه های دمای سطحی از ابزار تحلیل خود همبستگی موران جهانی، شاخص انسلین موران محلی، همچنین ضریب همبستگی پیرسون ، رابطه رگرسیونی و مقدار معناداری بین متغیرها در محیط برنامه نویسی R  اقدام شد. بر اساس نقشه های پوشش سطح زمین، پوشش بوته زارها، علفزارها، زمین های زراعی، پوشش گیاهان پراکنده و مناطق سکونتگاهی، پوشش های غالب منطقه را تشکیل می دهند. در طی 19 سال افزایش وسعت طبقه پوشش گیاهی پراکنده و بوته زارهای بی ثمر نشان دهنده تغییرات منفی در اکوسیستم منطقه است. به گونه ای که از مساحت طبقات دیگر همچون زمین های زراعی، و علف زارها  کاسته و بر وسعت این طبقات  افزوده شده است. دمای سطح زمین این منطقه، دارای ساختار فضایی بوده و به شکل خوشه ای در 3 خوشه توزیع شده است. خوشه های داغ، مناطق کم ارتفاع، خوشه های سرد، مناطق پر ارتفاع و ناخوشه ها کوهپایه ها را دربر گرفتند. در بررسی اثرات پوشش های سطح زمین بر دمای رویه سطحی زمین، در طی 19 سال، دمای شبانه روزی لایه سکونتگاه ها حدود1.12 درجه و لایه زمین های زراعی0.41 درجه سانتی گراد افزایش یافته است. در مقیاس دمای روزانه، لایه سکونتگاه ها ازافزایش دمای حدود 1 درجه برخوردار است. در مقیاس دمای سطحی شبانه، پوشش های زمین های زراعی، پوشش های گیاهی پراکنده و لایه سکونتگاه ها به ترتیب 6.2، 0.8 و 0.6 درجه سانتی گراد، افزایش دما را بخود ثبت کردند.

Investigation of the effect of land cover changes on the surface temperature of the earth using MODIS satellite images - Case study: Northeast of Iran

Extended Abstract Introduction Among the climatic elements, the effect of temperature in an area and its changes is the perception of land reclamation and can be maintained and land use of a place. Mean while, surface temperature is an important factor in global warming studies and as a representative for climate change and radiation balance estimation in energy balance studies. Due to the special heat that each cover has on the ground. Vegetation land uses, barren lands, water resources, residential areas, absorb some of the sun's radiant energy and increase the temperature of the earth's surface. Finally, this heat is emitted from the surface of various coatings to the environment in the form of long wavelength radiation. If the surface temperature is calculated in different periods, the process of increasing or decreasing the surface temperature of different types of surface coverings can be modeled.   Methodology In this study, to study the changes in land cover, MODIS images related to land cover from 2001 to 2019 were received. Surface cover product (MCD12Q1) Surface temperature product (MOD11) was prepared on a daily scale for both Terra and Aqua satellites to provide a variety of surface temperature indicators in the Google Earth engine system. In environmental studies, we often deal with observations that are not independent of each other and their interdependence with each other is due to the location and location of the observations in the study space. For this purpose, to reveal the effect of land cover on surface temperature components, global Moran correlation analysis tool was used and to analyze clusters and non-clusters, local Moran insulin index was used. In the last step, to evaluate the relationship between circadian surface temperature, daily temperature and night temperature After converting NDVI and LST raster maps to vector maps, Pearson correlation coefficient, regression relationship and significant value between variables in R programming environment were calculated. Discussion Based on the land cover product of Modis 5 sensor, the predominant cover including shrubs, grasslands, agricultural lands, scattered vegetation and residential areas were identified between 2001 and 2019. The largest area of the region is scattered vegetation (50%) and secondarily grasslands (20%). During these 19 years, the cover of shrublands and the cover layer of scattered plants has an increasing trend and the cover of grasslands and arable lands has a decreasing trend. The surface temperature of this region has a spatial structure and is distributed in the form of clusters, so it has a spatial relationship with the natural features of the region. Spatial patterns of spatial data on surface temperature are divided into three categories: hot spots, cold spots, and clusters. Low-lying areas of the south and part of the east and west of the area, hot spots, high-altitude areas that include parts of the central areas in the south and north of the area, cold spots and cold spots margin, clusters (foothills) they give. On the 24-hour surface temperature scale, the land use layer of settlements and agricultural lands shows the most significant relationship between the types of land surface cover. In the daily temperature scale, the land use layers, grasslands and scattered vegetation have a decreasing trend and the use layer of shrubs and settlements has an increasing temperature. At night surface temperature scale, the trend of significant surface coatings in relation to the microclimatic element of surface temperature intensifies so that field cover, scattered vegetation and habitat layer have the highest correlation with increasing night surface temperature Show them selves. Therefore, in the study of spatial pattern of surface temperature, latitude and altitude are the most influential factors and in the study of the effects of land cover, the layer of settlements in three surface temperature parameters (minimum, maximum, average) of the highest temperature increase compared to others. Uses have been enjoyed.   Conclusion Land use type and land use changes and vegetation have a significant effect on land surface temperature changes. In the northeastern region of the country, shrub cover, grasslands, arable lands, scattered vegetation cover and residential areas are the dominant cover of the region. During 19 years, the increase in the area of scattered vegetation and barren shrubs indicates negative changes in the ecosystem of the region. In such a way that the area of other classes such as arable lands and grasslands has been reduced and the area of these classes has been increased. The surface temperature of this region has a spatial structure and is distributed in the form of clusters in 3 clusters. Hot clusters, low-lying areas, cold clusters, high-altitude areas and inconveniences covered the foothills. Elevation factor, latitude are influential in the distribution of clusters. In studying the effects of land cover on the surface temperature of the land, during 19 years, the circadian temperature of the settlement layer has increased by about 1.12 degrees and the arable land layer by 0.41 degrees Celsius. On the daily temperature scale, the settlement layer has a temperature increase of about 1 degree. At night surface temperature scale, arable land cover, scattered vegetation cover and habitat layer recorded 6.2, 0.8 and 0.6 ° C temperature increase, respectively.  

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