key: cord-0926233-hadnxjeo authors: Corripio, J. G.; Raso, L. title: Weather variables impact on COVID-19 incidence date: 2020-06-09 journal: nan DOI: 10.1101/2020.06.08.20125377 sha: 7d168cf1cd85ddca9eff875a79728bdbb68f6b48 doc_id: 926233 cord_uid: hadnxjeo We test the hypothesis of COVID-19 contagion being influenced by meteorological parameters such as temperature or humidity. We analysed data at high spatial resolution (regions in Italy and counties in the USA) and found that while at low resolution this might seem the case, at higher resolution no correlation is found. Our results are consistent with a poor outdoors transmission of the disease. However, a possible indirect correlation between good weather and a decrease in disease spread may occur, as people spend longer time outdoors. Weather impact on the transmission of SARS-CoV-2 virus causing the current 2 COVID-19 pandemic is of interest to determine whether the infection might be seasonal. 3 This could help contagion forecast models and be useful to mange health care resources. 4 It is an area of active current research. Promising results were published at the initial 5 stages of disease dispersion, showing graphically the correlation between the disease 6 outbreak and narrow bands of air temperature or absolute humidity [1] as shown in evaluate if the relationship is maintained for a longer period of time, on a wider range of 10 weather conditions and at a higher spatial resolution. The relationship between meteorological parameters and disease spread has been 12 investigated more amply in relation to the influenza outbreaks. In temperate regions 13 influenza outbreaks show marked seasonality with an onset in autumn that continues 14 through the winter. The cause of this seasonality is not fully understood. Travel [2], 15 absolute humidity [3, 4] or school calendar [5] all appear to affect the spread of influenza, 16 but the mechanisms behind these relationships are still unknown. Whereas other 17 respiratory viruses seem to lack seasonality or peak in spring or summer, coronavirus 18 outbreaks tend to begin in winter and end before the summer [6, 7] . 19 Our intention is to find a simple meteorological model that can indicate whether 20 meteorological parameters have any impact on transmission rates. We analyse the 21 incidence data at high spatial resolution, for 21 regions in Italy and for 3142 counties in 22 the USA, with weather data at comparable resolution interpolated to the center of every 23 region or county. Meteorological data 26 Meteorological data were obtained from the NCEP GDAS/FNL 0.25 Degree Global 27 Tropospheric Analyses and Forecast Grids [8] and the hourly ERA5 reanalysis from the 28 European Centre for Medium Range Weather Forecasts ECMWF [9] . We compared 29 both datasets to check if discrepancies are high. On average there is less than one 30 degree centigrade difference for the daily average temperature and less than 1g/kg in 31 specific humidity. As the ERA5 has higher temporal resolution, we used this data set 32 for the statistical analysis. 33 Both ERA5 and GDAS provide the data in grib format (GRIdded Binary), that was 34 processed using the Grid Analysis and Display System (GrADS) software [10] . Data 35 were interpolated for every county and region coordinates from the beginning of January 36 to the seventh of April, two weeks after lockdown was declared in many US states. This 37 time frame was used so that both in Italy and the USA the window between the first 38 cases and lockdown was analysed. In this way it is possible to compare spread before ERA5 does not provide specific or absolute humidity, but dew point temperature. 44 From this variable and the local pressure we derived first water vapor pressure, 45 following Bolton (Eq. 10) [11] , and then specific and absolute humidity following Stull 46 (Eq. 4.7 and 4.10) [12] . (1) q = 0.622 e 0 P − (0.378e 0 ) (2) where e 0 is actual water vapour pressure, T d is dew point temperature in degrees 48 centigrade, q is specific humidity in kg/kg, P is local atmospheric pressure in hPa, 49 0.622 = 18.016/28.966 is the ratio of molecular weights of water and dry air, ρ v is 50 absolute humidity, R v is the gas constant for water vapor (461JK − 1kg − 1) and T k is air 51 temperature in Kelvin. Different studies use either specific or absolute humidity, but the differences in the 53 range of temperature and pressures found in this study are small. For the whole of Italy, 54 for example, the mean difference is smaller than 1g of water vapour and values run 55 almost parallel to each other. 56 Hourly data was aggregated as daily means and later aggregated as the mean over a 57 period of eight days with a lag of two days with respect to incidence cases. The median 58 incubation period of COVID-19 has been estimated to be 5.1 days, with 97.5% of those 59 developing symptoms doing so within 11.5 days [13] . Thus, we tested a range of days 60 and lags from seven to 14 and two to five respectively. We imposed a minimum of seven 61 days for the accumulated incidence to avoid weekend errors in the data reporting. The 62 final figures of eight and two gave the best result in the regression analysis. above 11°C [1] . Fig. 2 shows the evolution of accumulated incidence during eight days 105 in Italy from the beginning of February to the 23rd of March, two weeks after general 106 lockdown. Every colour represents one region and the points increase in size with the 107 date, the name of the region is plotted at the last date. It appears that regions with 108 specific humidity higher than 6 g/kg of water vapour at the beginning of the period did 109 not develop many cases. Similarly in Fig. 3 , a threshold slightly over 11°C seems to 110 hinder the development of cases. Fig. 4 shows the mean ultraviolet radiation, and it 111 appears that regions with values higher than 18 Wm −2 at the beginning of the episode 112 remain at very low incidence. Valle d'Aosta seems to be an exception, but the increase 113 in UV radiation is towards the end, while at the beginning of the period values were 114 below the apparent threshold. This is a small region at high altitude in the Alps, 115 bordering with Switzerland, where clear days in March brought about a high dose of UV 116 radiation. 117 Additional tests were done for precipitation, but as Fig. 5 shows there is no evident 118 relationship, thus we discarded this variable for further analysis. A statistical model 119 using generalised linear models with Poisson error structure indicate that all three 120 parameters (specific humidity, temperature and ultraviolet radiation) are significant, 121 but the results have a very low value of adjusted R-squared, as low as 0.14. A model 122 with generalised additive models seems to explain 32% of the deviance, with a poor 123 R-squared value of 0.18. We used count data, incidence accumulated over eight days for 124 the models but the figures show incidence per 100 000 inhabitants to help the 125 visualisation. 126 The threshold hypothesis, which could be useful in forecasting future seasonal 127 incidence, is refuted by the high resolution data from the USA. As can be noted from 128 Figures 6 to 8, there is no evidence of thresholds whatsoever in these data. Fig. 6 shows 129 incidence per capita with respect to Specific Humidity. There are too many counties to 130 use distinctive colours, so these are depicted as a range from grey to blue according to 131 the initial values. Although there seems to be some clustering, especially at high values, 132 there is a broad dispersion at lower values for most of the points. The range of the 133 dispersion is limited by the maximum mean temperature at every county at this period 134 of the year, as maximum possible specific humidity increases exponentially with decreasing the contact with people in closed spaces. This may go some way to 19. TIGER/Line Shapefiles -United States Census Bureau;. . CC-BY-ND 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. (which was not certified by peer review) The copyright holder for this preprint this version posted June 9, 2020. . https://doi.org/10.1101/2020.06.08.20125377 doi: medRxiv preprint q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q 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q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q Evolution of cases in the USA and temperature. Cases per county in the USA against air temperature. Dot colours are graded from blue to red according to initial values of air temperature (low to high), size of dots increase with time from the 20th of February to the seventh of April, between 10 days to two weeks after lockdown depending on State. June 8, 2020 13/14 . CC-BY-ND 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. The copyright holder for this preprint this version posted June 9, 2020. q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q qq q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q 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q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qqq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q qq q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q q Evolution of cases in the USA and UV. Cases per county in the USA against ultraviolet radiation. Dot colours are graded from blue to violet according to initial values of ultraviolet radiation (low to high), size of dots increase with time from the 20th of February to the seventh of April, between 10 days to two weeks after lockdown depending on State. Temperature and Latitude Analysis to Predict Potential Spread and Seasonality for COVID-19