Budapest International Research and Critics Institute-Journal (BIRCI-Journal)

The purpose of this study is that all research articles in journals discussing meteorology related to this research are to find out the form of mapping research subjects in journals discussing meteorology associated with COVID-19 transmission based on the database. Google Scholar and Scopus. The method used is descriptive research by doing research mapping. The research mapping in question is a literature study using bibliometrics. The bibliometric method aims to classify and interpret statistics related to scientific publications. Unit of analysis p with COVID-19 transmission based on database Google Scholar and Scopus since the COVID-19 pandemic until the end of 2021. The results of this study show an overview of the publication trend between meteorological conditions and confirmed cases of COVID-19 until the end of 2021, indicating that this variable is still rarely studied. This can be seen from the nets connecting the meteorological condition variables with the COVID-19 variable, which still looks far away. In addition, the diameter that describes the meteorological condition variable is still small, which means there is still a lot of room for researchers to conduct research related to the meteorological condition variable with the COVID-19 variable.

Araujo, M., & Naimi, B. (2020). Spread of SARS-CoV-2 Coronavirus likely constrained by climate. medRxiv, 1-26.

Auler, A., Cássaro, F., Silva, V. d., & Pires, L. (2020). Evidence that High Temperatures and Intermediate Relative Humidity Might Favor the Spread of COVID-19 in Tropical Climate: a Case Study for the most Affected Brazilian Cities. Journal Science of the Total Environment, 1-10.

Banister-Tyrrell, M., Meyer, A., Faverjon, C., & Cameron, A. (2020). Preliminary evidence that higher temperatures are associated with lower incidence of COVID-19, for cases reported globally up to 29th February 2020. medRxiv, 1-6.

Bashir, M. F., Ma, B., Bilal, Komal, B., Bashir, M. A., Tan, D., & Bashir, M. (2020). Correlation between climate indicators and COVID-19 pandemic in New York, USA. Science of the Total Environment, 1-4.

Becchetti, L., Conzo, G., Conzo, P., & Salustri, F. (2020). Understanding the Heterogeneity of Adverse COVID-19 Outcomes: the Role of Poor Quality of Air and Lockdown Decisions. SSRN Electronic Journal, 1-20.

Bi, P., Wang, J., & Hiller, J. (2007). Weather: Driving Force Behind the Transmission of Severe Acute Respiratory Syndrome in China? Journal International Medicine, 550-554.

Casanova, L. M., Jeon, S., Rutala, W. A., Weber, D. J., & Sobsey, M. D. (2010). Effects of Air Temperature and Relative Humidity on Coronavirus Survival on Surfaces. Journal Applied and Environmental Microbiology, 2712-2717.

Chan, K., Peiris, J. M., Lam, S., Poon, L., Yuen, K., & Seto, W. (2011). The Effects of Temperature and Relative Humidity on the Viability of the SARS Coronavirus. Journal Advances in Virology, 1-7.

Chen, B., Liang, H., Yuan, X., Hu, Y., Xu, M., Zhao, Y., . . . Zhu, X. (2020). Roles of meteorological conditions in COVID-19 transmission on a worldwide scale. medRxiv, 1-18.

Faeni, Y. A., Astasia, A., & Riadi, M. (2019). Pengaruh Parameter Meteorologi Terhadap Penurunan Kasus COVID-19 di DKI Jakarta. Seminar Nasional Official Statistics 2019: Pengembangan Official Statistics dalam mendukung Implementasi SDG’s (pp. 132-137). Jakarta: Politeknik Statistika STIS.

Fattorini, D., & Regoli, F. (2020). Role of the Chronic Air Pollution Levels in the Covid-19 Outbreak Risk in Italy. Environmental Pollution, 1-5.

Iqbal, N., Fareed, Z., Shahzad, F., He, X., Shahzad, U., & Lina, M. (2020). Nexus Between COVID-19, Temperature and Exchange Rate in Wuhan City: New Findings from Partial and Multiple Wavelet Coherence. Science of the Total Environment, 1-9.

Irawan, F. A., Suhel, H., & Wibawanto, A. E. (2020). Identifikasi Geospasial Cuaca dan Kelembaban Terhadap Penyebaran Virus Covid-19 Menggunakan Sistem Informasi Geografis Provinsi Kalimantan Selatan Identifikasi Geospasial Cuaca dan Kelembaban Terhadap Penyebaran Virus Covid-19 Menggunakan Sistem Informasi. Jurnal Poros Teknik, 99-106.

Jahangiri, M., Jahangiri, M., & Najafgholipour, M. (2020). The Sensitivity and Specificity Analyses of Ambient Temperature and Population Size on the Transmission Rate of the Novel Coronavirus (COVID-19) in Different Provinces of Iran. Journal Science of the Total Environment, 1-5.

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Kudo, E., Song, E., Yockey, L., Rakib, T., Wong, P., Homer, R., & Iwasaki, A. (2019). Low ambient humidity impairs barrier function and innate resistance against influenza infection. Proceedings of the National Academy of Sciences (pp. 10905–10910). America: United States National Academy of Sciences (United States).

Leydesdorff, L., & Rafols, I. (2012). Interactive Overlays: a New Method for Generating Global Journal Maps. Journal of Informetrics(6), 318-332.

Prata, D. N., Rodrigues, W., & Bermejo, P. H. (2020). Temperature Significantly Changes COVID- 19 Transmission in (Sub) Tropical Cities of Brazil. Science of the Total Environment, 1-7.

Qi, H., Xiao, S., Shi, R., Ward, M. P., Chen, Y., Tu, W., . . . Zhang, Z. (2020). COVID-19 Transmission in Mainland China is Associated with Temperature and Humidity: a Time-series Analysis. Journal Science of the Total Environment, 1-6.

Sajadi, M., Habibzadeh, P., Vintzileos, A., Shokouhi, S., Miralles-Wilhelm, F., & Amoroso, A. (2020). Temperature and latitude analysis to predict potential spread and seasonality for COVID-1. SSRN Electronic Journal, 1-9.

Setti, L., Passarini, F., Gennaro, G. D., Barbieri, P., Perrone, M. G., Piazzalunga, A., . . . Miani, A. (2020). The Potential Role of Particulate Matter in the Spreading of COVID-19 in Northern Italy: First Evidence-Based Research Hypotheses. MedRxiv, 1-28.

Sun, L., Tang, Y., & Zuo, W. (2020). Coronavirus pushes education online. Nature Materials, 687.

Sun, Z., Thilakavathy, K., Kumar, S., He, G., & Liu, S. V. (2020). Potential Factors Influencing Repeated SARS Outbreaks in China. Environmental Research and Public Health, 1-11.

Travaglio, M., Yu, Y., Popovic, R., Selley, L., Leal, N. S., & Martins, L. M. (2020). Links Between Air Pollution and COVID-19 in England. MedRxiv, 1-28.

Wang, Y., Wang, Y., Chen, Y., & Qin, Q. (2020). Unique Epidemiological and Clinical Features of the Emerging 2019 Novel Coronavirus Pneumonia (COVID-19) Implicate Special Control Measures. Journal of Medical Virology, 568-576.

Wu, Y., Jing, W., Liu, J., Ma, Q., Yuan, J., Wang, Y., . . . Liu, M. (2020). Effects of Temperature and Humidity on the Daily New Cases and New Deaths of COVID-19 in 166 Countries. Journal Science of the Total Environment, 1-7.

Xie, J., & Zhu, Y. (2020). Association Between Ambient Temperature and COVID-19 Infection in 122 Cities from China. Journal Science of the Total Environment, 1-5.