The Effect of Humidity and Temperature on Indoor and Outdoor COVID-19 Infections

IF 2.1 4区地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES

Advances in Meteorology Pub Date : 2022-06-01 DOI:10.1155/2022/4496679

J. M. Salih

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Abstract

Environmental conditions and their association with COVID-19 have significantly attracted scientists’ attention. The current study links COVID-19 with climate indicators by comparing two configurations: indoor infections in a University of Duhok (UOD) building and outdoor infections within the boundaries of the Duhok Governorate (DG). The collected data included temperature and relative humidity (RH) and confirmed cases for indoor and outdoor configurations over 5 and 11 months, respectively. For the indoor infections, data were collected over the period of 5 weekdays, while for the outdoor infections, they were collected on the days when statistics were published. The prospective cross-section design was used for different statistical analyses. The overall indoor infections were very low, and the maximum values for RH and temperature were approximately <24% and <20°C, respectively; in the one-sample t-test, the results were significantly correlated ( p value <0.05) with the confirmed COVID-19 cases. For outdoor infections, using the correlation bivariate method, the study found that the RH and temperature results significantly correlated ( p value <0.05) with the confirmed COVID-19 cases. However, for indoor configuration, other than for Tmax, the results were not associated. As for the outdoor infections, the RH and temperature averages were high enough to put in groups to employ the one-way repeated ANOVA and general linear model with the same results. The means of the RHlow, RHmedium, and RHh groups were significantly correlated ( p value <0.05) with COVID-19. However, the means of the medium RH and high RH groups were not significantly associated with the increasing outdoor infections. This study will contribute to the reduction of overall COVID-19 infections.

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湿度和温度对室内外新冠肺炎感染的影响

环境条件及其与新冠肺炎的关联显著吸引了科学家的注意。目前的研究通过比较两种配置将新冠肺炎与气候指标联系起来：杜克大学（UOD）大楼内的室内感染和杜克省（DG）边界内的室外感染。收集的数据包括温度和相对湿度（RH），以及分别在5个月和11个月内室内和室外配置的确诊病例。对于室内感染，数据是在5个工作日内收集的，而对于室外感染，数据则是在公布统计数据的当天收集的。前瞻性横截面设计用于不同的统计分析。室内总体感染率非常低，相对湿度和温度的最大值分别约<24%和<20°C；在单样本t检验中，结果与确诊的新冠肺炎病例显著相关（p值<0.05）。对于室外感染，使用相关双变量方法，研究发现RH和温度结果与新冠肺炎确诊病例显著相关（p值<0.05）。然而，对于室内配置，除了Tmax，结果没有关联。至于室外感染，RH和温度的平均值足够高，可以分组使用单向重复方差分析和一般线性模型，得到相同的结果。RHlow、RHmedium和RHh组的平均值与新冠肺炎显著相关（p值<0.05）。然而，中等相对湿度和高相对湿度组的平均值和室外感染的增加并没有显著相关性。这项研究将有助于减少新冠肺炎的总体感染。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Meteorology 地学天文-气象与大气科学

CiteScore

5.30

自引率

3.40%

发文量

审稿时长

>12 weeks

期刊介绍： Advances in Meteorology is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles in all areas of meteorology and climatology. Topics covered include, but are not limited to, forecasting techniques and applications, meteorological modeling, data analysis, atmospheric chemistry and physics, climate change, satellite meteorology, marine meteorology, and forest meteorology.