Escherichia coli are rodent bacteria that are usually found in the gastrointestinal tract of warmblooded organisms. Because of its recognizability, it is used as one of the potential indicators of contaminated water. We modeled the coefficient K by non-stationary solar radiation over a period of one day for three different types of weather using a summer and a winter sunny day and a summer cloudy day. The modeling was performed in Matlab environment, where we considered data on salinity, temperature, solar radiation, depth and the coefficient of water turbidity. As a result, we created a four-dimensional matrix containing coefficient K, which depends on the time, mixed layer depth and location of the bacteria in the horizontal plane. Furthermore, we compared the obtained results with the results of another master’s thesis (Lešek, 2018). The difference between the coefficient K within individual layers increases with depth reaching the discrepancies between 3 and 20 %. Therefore, applying daily averaged solar radiation gives a too optimistic prediction of the E. coli decay rate.