1Cademy - Meteorological parameters, humidity, temperature, and solar radiation, were evaluated to determine significant relationships with COVID-19 transmission.

Learn Before

Abstract of Short-term effects of specific humidity and temperature on COVID-19 morbidity in select US cities

Concept

Meteorological parameters, humidity, temperature, and solar radiation, were evaluated to determine significant relationships with COVID-19 transmission.

A condition Poisson regression was used along with the Distributed Lag Nonlinear model (DLNM). A time-stratified case-crossover design was applied in order to evaluate nonlinear and delayed effects, along with cumulative exposure-response between short-term daily average exposure to meteorological parameters and daily COVID-19 cases. All model types for all locations and parameters show the goodness of fit (qAIC) values
Humidity seems to be the strongest predictor for COVID-19 cases for all model types and locations. Case crossover models aligned better in Seattle, WA, New York City, NY, Chicago, IL, and New Orleans, LA, showing a strong association between humidity and COVID-19 counts. Detroit, MI, Pittsfield, MA, and Bridgeport, CT did not show significant results based on high qAIC values. Case crossover and DLNM models were better than DLNM models, with the exception a couple of locations including Albany GA. Humidity between 6-9 g/kg demonstrated a two-fold increase in transmission of COVID-19 in certain areas.
Temperature and solar radiation did not show to be strongly associated with the number of COVID-19 cases. Other studies showed different results compared to this study. This demonstrates that more studies should be done to fully understand the possible influence temperature, solar radiation, and other meteoerolcial parameters that may effect the transmission of COVID-19.

0

1

Updated 2020-07-22

Contributors are: