The effect of climate on the spread of the COVID-19 pandemic: A review of findings, and statistical and modelling techniques

The new SARS-CoV-2 coronavirus has spread rapidly around the world since it was first reported in humans in Wuhan, China, in December 2019 after being contracted from a zoonotic source. This new virus produces the so-called coronavirus 2019 or COVID-19. Although several studies have supported the ep...

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Bibliographic Details
Published in:Progress in physical geography 2020-10, Vol.44 (5), p.591-604
Main Authors: Briz-Redón, Álvaro, Serrano-Aroca, Ángel
Format: Article
Language:English
Subjects:
Atmospheric models
Climate effects
Coronaviridae
Coronaviruses
Correlation analysis
COVID-19
Differential equations
Disease transmission
Epidemiology
Generalized linear models
Hot weather
Literature reviews
Mathematical models
Pandemics
Reviews
Severe acute respiratory syndrome coronavirus 2
Statistical analysis
Statistical models
Viral diseases
Viruses
Weather
Weather patterns
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Summary:The new SARS-CoV-2 coronavirus has spread rapidly around the world since it was first reported in humans in Wuhan, China, in December 2019 after being contracted from a zoonotic source. This new virus produces the so-called coronavirus 2019 or COVID-19. Although several studies have supported the epidemiological hypothesis that weather patterns may affect the survival and spread of droplet-mediated viral diseases, the most recent have concluded that summer weather may offer partial or no relief of the COVID-19 pandemic to some regions of the world. Some of these studies have considered only meteorological variables, while others have included non-meteorological factors. The statistical and modelling techniques considered in this research line have included correlation analyses, generalized linear models, generalized additive models, differential equations, or spatio-temporal models, among others. In this paper we provide a systematic review of the recent literature on the effects of climate on COVID-19’s global expansion. The review focuses on both the findings and the statistical and modelling techniques used. The disparate findings reported seem to indicate that the estimated impact of hot weather on the transmission risk is not large enough to control the pandemic, although the wide range of statistical and modelling approaches considered may have partly contributed to the inconsistency of the findings. In this regard, we highlight the importance of being aware of the limitations of the different mathematical approaches, the influence of choosing geographical units and the need to analyse COVID-19 data with great caution. The review seems to indicate that governments should remain vigilant and maintain the restrictions in force against the pandemic rather than assume that warm weather and ultraviolet exposure will naturally reduce COVID-19 transmission.
ISSN:0309-1333
1477-0296
DOI:10.1177/0309133320946302