Meteorological factors and COVID-19 incidence in 190 countries: An observational study

Cui Guo; Yacong Bo; Changqing Lin; Hao Bi Li; Yiqian Zeng; Yumiao Zhang; Md Shakhaoat Hossain; Jimmy W.M. Chan; David W. Yeung; Kin-on Kwok; Samuel Y.S. Wong; Alexis K.H. Lau; Xiang Qian Lao

doi:10.1016/j.scitotenv.2020.143783

Meteorological factors and COVID-19 incidence in 190 countries: An observational study

Cui Guo, Yacong Bo, Changqing Lin, Hao Bi Li, Yiqian Zeng, Yumiao Zhang, Md Shakhaoat Hossain, Jimmy W.M. Chan, David W. Yeung, Kin-on Kwok, Samuel Y.S. Wong, Alexis K.H. Lau^*, Xiang Qian Lao^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

79 Citations (Scopus)

Abstract

Novel corona virus disease 2019 (COVID-19), which first emerged in December 2019, has become a pandemic. This study aimed to investigate the associations between meteorological factors and COVID-19 incidence and mortality worldwide. This study included 1,908,197 confirmed cases of and 119,257 deaths from COVID-19 from 190 countries between 23 January and 13 April, 2020. We used a distributed lag non-linear model with city-/country-level random intercept to investigate the associations between COVID19 incidence and daily temperature, relative humidity, and wind speed. A series of confounders were considered in the analysis including demographics, socioeconomics, geographic locations, and political strategies. Sensitivity analyses were performed to examine the robustness of the associations. The COVID-19 incidence showed a stronger association with temperature than with relative humidity or wind speed. An inverse association was identified between the COVID-19 incidence and temperature. The corresponding 14-day cumulative relative risk was 1.28 [95% confidence interval (CI), 1.20–1.36] at 5 °C, and 0.75 (95% CI, 0.65–0.86) at 22 °C with reference to the risk at 11 °C. An inverse J-shaped association was observed between relative humidity and the COVID-19 incidence, with the highest risk at 72%. A higher wind speed was associated with a generally lower incidence of COVID-19, although the associations were weak. Sensitivity analyses generally yielded similar results. The COVID-19 incidence decreased with the increase of temperature. Our study suggests that the spread of COVID-19 may slow during summer but may increase during winter.

Original language	English
Article number	143783
Journal	Science of the Total Environment
Volume	757
Online published	23 Nov 2020
DOIs	https://doi.org/10.1016/j.scitotenv.2020.143783
Publication status	Published - 25 Feb 2021
Externally published	Yes

Funding

This work was in part supported by RGC-General Research Fund (14603019) and Environmental Health Research Fund of the Chinese University of Hong Kong (7104946). Cui Guo is in part supported by the Faculty Postdoctoral Fellowship Scheme of the Faculty of Medicine of the Chinese University of Hong Kong. Yacong Bo and Yiqian Zeng is supported by the PhD Studentship of the Chinese University of Hong Kong.

Research Keywords

COVID-19 incidence
COVID-19 mortality
Meteorology
Relative humidity
Temperature
Wind speed

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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@article{5ab09dadf29a49e0a7dc3693c01f446f,

title = "Meteorological factors and COVID-19 incidence in 190 countries: An observational study",

abstract = "Novel corona virus disease 2019 (COVID-19), which first emerged in December 2019, has become a pandemic. This study aimed to investigate the associations between meteorological factors and COVID-19 incidence and mortality worldwide. This study included 1,908,197 confirmed cases of and 119,257 deaths from COVID-19 from 190 countries between 23 January and 13 April, 2020. We used a distributed lag non-linear model with city-/country-level random intercept to investigate the associations between COVID19 incidence and daily temperature, relative humidity, and wind speed. A series of confounders were considered in the analysis including demographics, socioeconomics, geographic locations, and political strategies. Sensitivity analyses were performed to examine the robustness of the associations. The COVID-19 incidence showed a stronger association with temperature than with relative humidity or wind speed. An inverse association was identified between the COVID-19 incidence and temperature. The corresponding 14-day cumulative relative risk was 1.28 [95% confidence interval (CI), 1.20–1.36] at 5 °C, and 0.75 (95% CI, 0.65–0.86) at 22 °C with reference to the risk at 11 °C. An inverse J-shaped association was observed between relative humidity and the COVID-19 incidence, with the highest risk at 72%. A higher wind speed was associated with a generally lower incidence of COVID-19, although the associations were weak. Sensitivity analyses generally yielded similar results. The COVID-19 incidence decreased with the increase of temperature. Our study suggests that the spread of COVID-19 may slow during summer but may increase during winter.",

keywords = "COVID-19 incidence, COVID-19 mortality, Meteorology, Relative humidity, Temperature, Wind speed",

author = "Cui Guo and Yacong Bo and Changqing Lin and Li, {Hao Bi} and Yiqian Zeng and Yumiao Zhang and Hossain, {Md Shakhaoat} and Chan, {Jimmy W.M.} and Yeung, {David W.} and Kin-on Kwok and Wong, {Samuel Y.S.} and Lau, {Alexis K.H.} and Lao, {Xiang Qian}",

note = "Publisher Copyright: {\textcopyright} 2020 Elsevier B.V.",

year = "2021",

month = feb,

day = "25",

doi = "10.1016/j.scitotenv.2020.143783",

language = "English",

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TY - JOUR

T1 - Meteorological factors and COVID-19 incidence in 190 countries

T2 - An observational study

AU - Guo, Cui

AU - Bo, Yacong

AU - Lin, Changqing

AU - Li, Hao Bi

AU - Zeng, Yiqian

AU - Zhang, Yumiao

AU - Hossain, Md Shakhaoat

AU - Chan, Jimmy W.M.

AU - Yeung, David W.

AU - Kwok, Kin-on

AU - Wong, Samuel Y.S.

AU - Lau, Alexis K.H.

AU - Lao, Xiang Qian

PY - 2021/2/25

Y1 - 2021/2/25

N2 - Novel corona virus disease 2019 (COVID-19), which first emerged in December 2019, has become a pandemic. This study aimed to investigate the associations between meteorological factors and COVID-19 incidence and mortality worldwide. This study included 1,908,197 confirmed cases of and 119,257 deaths from COVID-19 from 190 countries between 23 January and 13 April, 2020. We used a distributed lag non-linear model with city-/country-level random intercept to investigate the associations between COVID19 incidence and daily temperature, relative humidity, and wind speed. A series of confounders were considered in the analysis including demographics, socioeconomics, geographic locations, and political strategies. Sensitivity analyses were performed to examine the robustness of the associations. The COVID-19 incidence showed a stronger association with temperature than with relative humidity or wind speed. An inverse association was identified between the COVID-19 incidence and temperature. The corresponding 14-day cumulative relative risk was 1.28 [95% confidence interval (CI), 1.20–1.36] at 5 °C, and 0.75 (95% CI, 0.65–0.86) at 22 °C with reference to the risk at 11 °C. An inverse J-shaped association was observed between relative humidity and the COVID-19 incidence, with the highest risk at 72%. A higher wind speed was associated with a generally lower incidence of COVID-19, although the associations were weak. Sensitivity analyses generally yielded similar results. The COVID-19 incidence decreased with the increase of temperature. Our study suggests that the spread of COVID-19 may slow during summer but may increase during winter.

AB - Novel corona virus disease 2019 (COVID-19), which first emerged in December 2019, has become a pandemic. This study aimed to investigate the associations between meteorological factors and COVID-19 incidence and mortality worldwide. This study included 1,908,197 confirmed cases of and 119,257 deaths from COVID-19 from 190 countries between 23 January and 13 April, 2020. We used a distributed lag non-linear model with city-/country-level random intercept to investigate the associations between COVID19 incidence and daily temperature, relative humidity, and wind speed. A series of confounders were considered in the analysis including demographics, socioeconomics, geographic locations, and political strategies. Sensitivity analyses were performed to examine the robustness of the associations. The COVID-19 incidence showed a stronger association with temperature than with relative humidity or wind speed. An inverse association was identified between the COVID-19 incidence and temperature. The corresponding 14-day cumulative relative risk was 1.28 [95% confidence interval (CI), 1.20–1.36] at 5 °C, and 0.75 (95% CI, 0.65–0.86) at 22 °C with reference to the risk at 11 °C. An inverse J-shaped association was observed between relative humidity and the COVID-19 incidence, with the highest risk at 72%. A higher wind speed was associated with a generally lower incidence of COVID-19, although the associations were weak. Sensitivity analyses generally yielded similar results. The COVID-19 incidence decreased with the increase of temperature. Our study suggests that the spread of COVID-19 may slow during summer but may increase during winter.

KW - COVID-19 incidence

KW - COVID-19 mortality

KW - Meteorology

KW - Relative humidity

KW - Temperature

KW - Wind speed

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U2 - 10.1016/j.scitotenv.2020.143783

DO - 10.1016/j.scitotenv.2020.143783

M3 - RGC 21 - Publication in refereed journal

C2 - 33257056

AN - SCOPUS:85097051276

SN - 0048-9697

VL - 757

JO - Science of the Total Environment

JF - Science of the Total Environment

M1 - 143783

ER -

Meteorological factors and COVID-19 incidence in 190 countries: An observational study

Abstract

Funding

Research Keywords

UN SDGs

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