Do Weather Conditions Still Have an Impact on the COVID-19 Pandemic? An Observation of the Mid-2022 COVID-19 Peak in Taiwan

Since the onset of the COVID-19 pandemic in 2019, the role of weather conditions in influencing transmission has been unclear, with results varying across different studies. Given the changes in border policies and the higher vaccination rates compared to earlier conditions, this study aimed to reas...

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Bibliographic Details
Published in:Microorganisms (Basel) 2024-05, Vol.12 (5), p.947
Main Authors: Lin, Wan-Yi, Lin, Hao-Hsuan, Chang, Shih-An, Chen Wang, Tai-Chi, Chen, Juei-Chao, Chen, Yu-Sheng
Format: Article
Language:English
Subjects:
Atmospheric temperature
Climate
Climate change
Climate effects
climate factor complex (CFC)
climatic factors
Condition factor
Correlation
COVID-19
COVID-19 infection
COVID-19 vaccines
Data collection
Disease control
Disease spread
Disease transmission
Diurnal
Environmental aspects
Environmental conditions
Epidemics
Fire-Qi Period
Global climate
Health aspects
human behavior
Humidity
Immunization
Infectious diseases
meteorological factors
Pandemics
Public health
Regions
Relative humidity
Severe acute respiratory syndrome coronavirus 2
Taiwan
Temperature
unease environmental condition factor (UECF)
Vaccination
Viral diseases
Weather
Wind
Wind speed
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Summary:Since the onset of the COVID-19 pandemic in 2019, the role of weather conditions in influencing transmission has been unclear, with results varying across different studies. Given the changes in border policies and the higher vaccination rates compared to earlier conditions, this study aimed to reassess the impact of weather on COVID-19, focusing on local climate effects. We analyzed daily COVID-19 case data and weather factors such as temperature, humidity, wind speed, and a diurnal temperature range from 1 March to 15 August 2022 across six regions in Taiwan. This study found a positive correlation between maximum daily temperature and relative humidity with new COVID-19 cases, whereas wind speed and diurnal temperature range were negatively correlated. Additionally, a significant positive correlation was identified between the unease environmental condition factor (UECF, calculated as RH*Tmax/WS), the kind of Climate Factor Complex (CFC), and confirmed cases. The findings highlight the influence of local weather conditions on COVID-19 transmission, suggesting that such factors can alter environmental comfort and human behavior, thereby affecting disease spread. We also introduced the Fire-Qi Period concept to explain the cyclic climatic variations influencing infectious disease outbreaks globally. This study emphasizes the necessity of considering both local and global climatic effects on infectious diseases.
ISSN:2076-2607
2076-2607
DOI:10.3390/microorganisms12050947