Abstract
Human exposure to healthy doses of UV radiation is required for vitamin D synthesis, but exposure to excessive UV irradiance leads to several harmful impacts ranging from premature wrinkles to dangerous skin cancer. However, for countries located in the global dust belt, accurate estimation of the UV irradiance is challenging due to a strong impact of desert dust on incoming solar radiation. In this work, a UV Index forecasting capability is presented, specifically developed for dust-rich environments, that combines the use of ground-based measurements of broadband irradiances UVA (320–400 nm) and UVB (280–315 nm), NASA OMI Aura satellite-retrieved data and the meteorology-chemistry mesoscale model WRF-Chem. The forecasting ability of the model is evaluated for clear sky days as well as during the influence of dust storms in Doha, Qatar. The contribution of UV radiation to the total incoming global horizontal irradiance (GHI) ranges between 5% and 7% for UVA and 0.1% and 0.22% for UVB. The UVI forecasting performance of the model is quite encouraging with an absolute average error of less than 6% and a correlation coefficient of 0.93. In agreement with observations, the model predicts that the UV Index at local noontime can drop from 10–11 on clear sky days to approximately 6–7 during typical dusty conditions in the Arabian Peninsula—an effect similar to the presence of extensive cloud cover.
Highlights
The incoming solar radiation at the Earth’s surface consists of radiations of different wavelengths such as the visible and infrared, and the UV (UltraViolet) bandwidth
A method for UV Index (UVI) forecasting has been developed for the dust-rich conditions of the Middle East that makes use of a three dimensional regional meteorology-chemistry model [7], [22]
The Arabian Peninsula, due to its geographical location in the global sun belt, constantly receives very high ultraviolet radiation and its population has a high risk of succumbing to the negative aspects of over exposure to UV radiation
Summary
The incoming solar radiation at the Earth’s surface consists of radiations of different wavelengths such as the visible and infrared, and the UV (UltraViolet) bandwidth. The most important benefit of human exposure to UV radiation is the production of vitamin D that contributes to a strengthening of the bones. Exposure to controlled doses of UV radiation helps in treating several human skin diseases such as atopic dermatitis, psoriasis, localized scleroderma, and vitiligo. Excessive exposure to UV radiation leads to several harmful health effects on the skin through sunburn, melanoma, and non-melanoma carcinoma, on the eye through cataracts, pterygium (growth of conjunctiva in eye), and photoconjunctivitis (inflammation of conjunctiva), Atmosphere 2020, 11, 96; doi:10.3390/atmos11010096 www.mdpi.com/journal/atmosphere (inflammation the cornea), and suppression of the immune system [1,3,4,5].2. 11, x FOR PEER of REVIEW of 17 it is important for people to control their exposure to UV radiation [1,6] Excessive exposure to UV radiation leads to several harmful health effects on the skin through sunburn, melanoma, and non-melanoma carcinoma, on the eye through cataracts, pterygium (growth of conjunctiva in eye), and photoconjunctivitis (inflammation of conjunctiva), Atmosphere 2020, 11, 96; doi:10.3390/atmos11010096 www.mdpi.com/journal/atmosphere (inflammation the cornea), and suppression of the immune system [1,3,4,5].2 11, x FOR PEER of REVIEW of 17 it is important for people to control their exposure to UV radiation [1,6]
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