Effect of Atmospheric Mixing on Spectral Reflectivity in Sentinel Images of Baghdad Province

Authors

  • Eman S. Hassan Atmospheric Department, College of Science, Mustansiriyah University, Baghdad, Iraq
  • Ahmed F. Hassoon Atmospheric Department, College of Science, Mustansiriyah University, Baghdad, Iraq
  • Ebtesam F. Khanjer GIS and RS Department, College of Science, University of Baghdad, Baghdad, Iraq

DOI:

https://doi.org/10.24996/ijs.2024.65.9.42

Keywords:

Reflectivity, atmospheric boundary layer, Sentinel 2 satellite, Baghdad city, GIS

Abstract

The lowest layer of the atmosphere is called the atmospheric mixed layer, characterized by small-scale, irregular air motions defined by winds that change in speed and direction. Aerosol radiative effects impact the atmospheric boundary layer (ABL), which holds most aerosols in the lower atmosphere. Aerosol absorption and scattering both lower the quantity of solar energy that reaches the ground, which has an impact on the spectral signature of the land coverings. In this study, 51 locations in downtown Baghdad were chosen for four different types of land cover (water bodies, farms, open areas, and residential areas) for Sentinel 2 satellite imagery, and the time the pictures were taken was 8:00 am ( 22 March, 22 June, 20 September, and 22 December) 2021. Their spectral reflectance was calculated at the NIR band using a mathematical equation in the ArcGIS program for Sentinel 2 satellite images that had been processed and analyzed. Also, atmospheric boundary layer height and solar radiation values were downloaded for the same date as the satellite images and compared with the spectral reflectivity values of the land covers(agriculture area, residential area, open area, and river) and knowing the effect of the mixing layer and solar radiation on the spectral reflectance values. The highest value of spectral reflectivity, mixing layer height, and solar radiation was in June at (0.065, 1965.524629, and 897.7088) respectively.  The spectral reflectivity of plants at near-infrared (NIR) was higher than the rest of the earth’s features because plants reflect near-infrared radiation and absorb the red and blue parts of the spectrum.

 

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Published

2024-09-30

Issue

Section

Remote Sensing

How to Cite

Effect of Atmospheric Mixing on Spectral Reflectivity in Sentinel Images of Baghdad Province. (2024). Iraqi Journal of Science, 65(9), 5328-5338. https://doi.org/10.24996/ijs.2024.65.9.42

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