BACKGROUND: A significant number of infectious diseases display seasonal patterns in their incidence, including human coronaviruses. Betacoronaviruses such as MERS-CoV and SARS-CoV are not thought to be seasonal. METHODS: We examined climate data from cities with significant community spread of COVID-19 using ERA-5 reanalysis, and compared to areas that are either not affected, or do not have significant community spread. FINDINGS: To date, Coronavirus Disease 2019 (COVID-19), caused by SARS-CoV-2, has established significant community spread in cities and regions along a narrow east west distribution roughly along the 30-50o N' corridor at consistently similar weather patterns consisting of average temperatures of 5-11oC, combined with low specific (3-6 g/kg) and absolute humidity (4-7 g/m3). There has been a lack of significant community establishment in expected locations that are based only on population proximity and extensive population interaction through travel. INTERPRETATION: The distribution of significant community outbreaks along restricted latitude, temperature, and humidity are consistent with the behavior of a seasonal respiratory virus. Additionally, we have proposed a simplified model that shows a zone at increased risk for COVID-19 spread. Using weather modeling, it may be possible to predict the regions most likely to be at higher risk of significant community spread of COVID-19 in the upcoming weeks, allowing for concentration of public health efforts on surveillance and containment.
BACKGROUND: A significant number of infectious diseases display seasonal patterns in their incidence, including humancoronaviruses. Betacoronaviruses such as MERS-CoV and SARS-CoV are not thought to be seasonal. METHODS: We examined climate data from cities with significant community spread of COVID-19 using ERA-5 reanalysis, and compared to areas that are either not affected, or do not have significant community spread. FINDINGS: To date, Coronavirus Disease 2019 (COVID-19), caused by SARS-CoV-2, has established significant community spread in cities and regions along a narrow east west distribution roughly along the 30-50o N' corridor at consistently similar weather patterns consisting of average temperatures of 5-11oC, combined with low specific (3-6 g/kg) and absolute humidity (4-7 g/m3). There has been a lack of significant community establishment in expected locations that are based only on population proximity and extensive population interaction through travel. INTERPRETATION: The distribution of significant community outbreaks along restricted latitude, temperature, and humidity are consistent with the behavior of a seasonal respiratory virus. Additionally, we have proposed a simplified model that shows a zone at increased risk for COVID-19 spread. Using weather modeling, it may be possible to predict the regions most likely to be at higher risk of significant community spread of COVID-19 in the upcoming weeks, allowing for concentration of public health efforts on surveillance and containment.
Entities:
Keywords:
COVID-19; SARS-CoV-2; coronavirus; latitude; novel coronavirus; seasonality; temperature
Authors: You Li; Rachel M Reeves; Xin Wang; Quique Bassat; W Abdullah Brooks; Cheryl Cohen; David P Moore; Marta Nunes; Barbara Rath; Harry Campbell; Harish Nair Journal: Lancet Glob Health Date: 2019-08 Impact factor: 26.763
Authors: James Tamerius; Martha I Nelson; Steven Z Zhou; Cécile Viboud; Mark A Miller; Wladimir J Alonso Journal: Environ Health Perspect Date: 2010-11-19 Impact factor: 9.031