Published on in Vol 7, No 1 (2021): January

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/20495, first published .
The Influence of Average Temperature and Relative Humidity on New Cases of COVID-19: Time-Series Analysis

The Influence of Average Temperature and Relative Humidity on New Cases of COVID-19: Time-Series Analysis

The Influence of Average Temperature and Relative Humidity on New Cases of COVID-19: Time-Series Analysis

Journals

  1. Gómez-Herrera S, Sartori Jeunon Gontijo E, Enríquez-Delgado S, Rosa A. Distinct weather conditions and human mobility impacts on the SARS-CoV-2 outbreak in Colombia: Application of an artificial neural network approach. International Journal of Hygiene and Environmental Health 2021;238:113833 View
  2. Ai H, Nie R, Wang X. Evaluation of the effects of meteorological factors on COVID-19 prevalence by the distributed lag nonlinear model. Journal of Translational Medicine 2022;20(1) View
  3. Tang S, Hadi M, Arsad S, Ker P, Ramanathan S, Afandi N, Afzal M, Yaw M, Krishnan P, Chen C, Tiong S. Prerequisite for COVID-19 Prediction: A Review on Factors Affecting the Infection Rate. International Journal of Environmental Research and Public Health 2022;19(20):12997 View
  4. Ziyadidegan S, Razavi M, Pesarakli H, Javid A, Erraguntla M. Factors affecting the COVID-19 risk in the US counties: an innovative approach by combining unsupervised and supervised learning. Stochastic Environmental Research and Risk Assessment 2022;36(5):1469 View
  5. Zhang X, Maggioni V, Houser P, Xue Y, Mei Y. The impact of weather condition and social activity on COVID-19 transmission in the United States. Journal of Environmental Management 2022;302:114085 View
  6. Pérez-Gilaberte J, Martín-Iranzo N, Aguilera J, Almenara-Blasco M, de Gálvez M, Gilaberte Y. Correlation between UV Index, Temperature and Humidity with Respect to Incidence and Severity of COVID 19 in Spain. International Journal of Environmental Research and Public Health 2023;20(3):1973 View
  7. Ward M, Liu Y, Xiao S, Zhang Z. Challenges in the control of COVID-19 outbreaks caused by the delta variant during periods of low humidity: an observational study in Sydney, Australia. Infectious Diseases of Poverty 2021;10(1) View
  8. Sharifi A. An overview and thematic analysis of research on cities and the COVID-19 pandemic: Toward just, resilient, and sustainable urban planning and design. iScience 2022;25(11):105297 View
  9. Nottmeyer L, Armstrong B, Lowe R, Abbott S, Meakin S, O'Reilly K, von Borries R, Schneider R, Royé D, Hashizume M, Pascal M, Tobias A, Vicedo-Cabrera A, Lavigne E, Correa P, Ortega N, Kynčl J, Urban A, Orru H, Ryti N, Jaakkola J, Dallavalle M, Schneider A, Honda Y, Ng C, Alahmad B, Carrasco-Escobar G, Holobâc I, Kim H, Lee W, Íñiguez C, Bell M, Zanobetti A, Schwartz J, Scovronick N, Coélho M, Saldiva P, Diaz M, Gasparrini A, Sera F. The association of COVID-19 incidence with temperature, humidity, and UV radiation – A global multi-city analysis. Science of The Total Environment 2023;854:158636 View
  10. Zheng H, Guo Z, Wang M, Yang C, An S, Wu W. Effects of climate variables on the transmission of COVID-19: a systematic review of 62 ecological studies. Environmental Science and Pollution Research 2021;28(39):54299 View
  11. Wang W, Ji S, Wang J, Liao F. Using a novel two-stage strategy to characterize the spatial distribution of associations between temperature and COVID-19: A case study in the continental United States. Science of The Total Environment 2022;850:158003 View
  12. TURAN T, TURAN G, KÖSE U. Uyarlamalı Ağ Tabanlı Bulanık Mantık Çıkarım Sistemi ve Yapay Sinir Ağları ile Türkiye’deki COVID-19 Vefat Sayısının Tahmin Edilmesi. Bilişim Teknolojileri Dergisi 2022;15(2):97 View
  13. Maleki A, Aboubakri O, Rezaee R, Alahmad B, Sera F. Seasonal variation of Covid-19 incidence and role of land surface and air temperatures: a case study in the west of Iran. International Journal of Environmental Health Research 2024;34(3):1342 View
  14. Altuntas G, Cetin M, Canakci M, Yazıcı M. The Effect of Meteorological Factors on the COVID-19 Pandemic in Northeast Turkiye. Cureus 2023 View
  15. Jung S, Jang I, Ryu C, Park J, Padhan A, Kim H. Graphene oxide decorated multi-frequency surface acoustic wave humidity sensor for hygienic applications. Scientific Reports 2023;13(1) View
  16. Wang Y, Gong G, Shi X, Huang Y, Deng X. Investigation of the effects of temperature and relative humidity on the propagation of COVID-19 in different climatic zones. Environmental Science and Pollution Research 2023 View
  17. Penuelas J, Fernández-Martínez M, Cobo S, Badiella L, Sardans J. Does urban particulate matter hinder COVID-19 transmission rate?. Air Quality, Atmosphere & Health 2024 View