Youping Chen scite author profile

Background There is no evidence supporting that temperature changes COVID-19 transmission. Methods We collected the cumulative number of confirmed cases of all cities and regions affected by COVID-19 in the world from January 20 to February 4, 2020, and calculated the daily means of the average, minimum and maximum temperatures in January. Then, restricted cubic spline function and generalized linear mixture model were used to analyze the relationships. Results There were in total 24,232 confirmed cases in China and 26 overseas countries. In total, 16,480 cases (68.01%) were from Hubei Province. The lgN rose as the average temperature went up to a peak of 8.72℃ and then slowly declined. The apexes of the minimum temperature and the maximum temperature were 6.70℃ and 12.42℃ respectively. The curves shared similar shapes. Under the circumstance of lower temperature, every 1℃ increase in average, minimum and maximum temperatures led to an increase of the cumulative number of cases by 0.83, 0.82 and 0.83 respectively. In the single-factor model of the higher-temperature group, every 1℃ increase in the minimum temperature led to a decrease of the cumulative number of cases by 0.86. Conclusion The study found that, to certain extent, temperature could significant change COVID-19 transmission, and there might be a best temperature for the viral transmission, which may partly explain why it first broke out in Wuhan. It is suggested that countries and regions with a lower temperature in the world adopt the strictest control measures to prevent future reversal.

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Molecular censusing doubles giant panda population estimate in a key nature reserve

Zhan

et al. 2006

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Local stress and heat flux in atomistic systems involving three-body forces

Chen

2006

121

120

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Local densities of fundamental physical quantities, including stress and heat flux fields, are formulated for atomistic systems involving three-body forces. The obtained formulas are calculable within an atomistic simulation, in consistent with the conservation equations of thermodynamics of continuum, and can be applied to systems with general two- and three-body interaction forces. It is hoped that this work may correct some misuse of inappropriate formulas of stress and heat flux in the literature, may clarify the definition of site energy of many-body potentials, and may serve as an analytical link between an atomistic model and a continuum theory. Physical meanings of the obtained formulas, their relation with virial theorem and heat theorem, and the applicability are discussed.

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Atomistic viewpoint of the applicability of microcontinuum theories

Chen

Lee

Eskandarian

2004

International Journal of Solids and Structures

228

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Connecting molecular dynamics to micromorphic theory. (I). Instantaneous and averaged mechanical variables

Chen

Lee

2003

Physica A: Statistical Mechanics and its Applications

100

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Youping Chen

Temperature Significantly Change COVID-19 Transmission in 429 cities

Molecular censusing doubles giant panda population estimate in a key nature reserve

Local stress and heat flux in atomistic systems involving three-body forces

Atomistic viewpoint of the applicability of microcontinuum theories

Connecting molecular dynamics to micromorphic theory. (I). Instantaneous and averaged mechanical variables

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