Weather Conditions (with Focus on UV Radiation) Associated with COVID-19 Outbreak and Worldwide Climate-based Prediction for Future Prevention

Respiratory infectious diseases are highly influenced by climate and feature seasonality, whose peak is December to February in the Northern Hemisphere. SARS-CoV-2 produced consistent debate regarding the relationship between its emergence and weather conditions. Our study explored these conditions,...

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Veröffentlicht in:	Aerosol and Air Quality Research 2020-09, Vol.20 (9), p.1862-1873+ap1-3
Hauptverfasser:	Lucian Sfîcă, Mihai Bulai, Vlad-Alexandru Amihăesei, Constantin Ion, Marius Ștefan
Format:	Artikel
Sprache:	eng
Schlagworte:	Air temperature Climate Climate prediction Coronaviruses COVID-19 Infectious diseases Northern Hemisphere Outbreaks Pandemics Public health Relative humidity Seasonal variations Severe acute respiratory syndrome coronavirus 2 Solar radiation Ultraviolet radiation Viral diseases Weather
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container_end_page	1873+ap1-3
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container_title	Aerosol and Air Quality Research
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creator	Lucian Sfîcă Mihai Bulai Vlad-Alexandru Amihăesei Constantin Ion Marius Ștefan
description	Respiratory infectious diseases are highly influenced by climate and feature seasonality, whose peak is December to February in the Northern Hemisphere. SARS-CoV-2 produced consistent debate regarding the relationship between its emergence and weather conditions. Our study explored these conditions, expressed by three main parameters-ultraviolet radiation, air temperature and relative humidity-that characterized Hubei (China), the source region of COVID-19 pandemic, in November 2019-March 2020. During COVID-19 outbreak, the low amounts of UV radiation (down to -273 kJ m^(-2) in January 2020) were associated with the early stage environmental survival of the novel coronavirus. As well, this period was characterized by a high relative humidity during peak hours of the day, and a positive air temperature anomaly (+1.7°C in December 2019), which also favored the outdoor people mobility in winter. Based on Hubei analysis, a presumed optimal weather frame was set in order to identify other world regions with similar weather characteristics. In brief, the ＂Hubei weather profile＂ was recorded in those regions of COVID-19 outbreak in February 2020, such as northern Iran, Italy or Spain. Our results, which focused on the role of the UV solar radiation, could be used as a prediction tool for identifying the world regions with a higher risk of future faster increase in COVID-19 cases.
doi_str_mv	10.4209/aaqr.2020.05.0206
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SARS-CoV-2 produced consistent debate regarding the relationship between its emergence and weather conditions. Our study explored these conditions, expressed by three main parameters-ultraviolet radiation, air temperature and relative humidity-that characterized Hubei (China), the source region of COVID-19 pandemic, in November 2019-March 2020. During COVID-19 outbreak, the low amounts of UV radiation (down to -273 kJ m^(-2) in January 2020) were associated with the early stage environmental survival of the novel coronavirus. As well, this period was characterized by a high relative humidity during peak hours of the day, and a positive air temperature anomaly (+1.7°C in December 2019), which also favored the outdoor people mobility in winter. Based on Hubei analysis, a presumed optimal weather frame was set in order to identify other world regions with similar weather characteristics. In brief, the ＂Hubei weather profile＂ was recorded in those regions of COVID-19 outbreak in February 2020, such as northern Iran, Italy or Spain. 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subjects	Air temperature Climate Climate prediction Coronaviruses COVID-19 Infectious diseases Northern Hemisphere Outbreaks Pandemics Public health Relative humidity Seasonal variations Severe acute respiratory syndrome coronavirus 2 Solar radiation Ultraviolet radiation Viral diseases Weather
title	Weather Conditions (with Focus on UV Radiation) Associated with COVID-19 Outbreak and Worldwide Climate-based Prediction for Future Prevention
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