Pesticide transport simulation in a tropical catchment by SWAT

•We performed a global LH-sensitivity analysis of all pesticide related parameters.•Key physical parameters are associated to percolation, degradation and sorption.•We simulated the measured loads of three different pesticides.•We performed an uncertainty analysis of all pesticide simulations.•All Pesticides differed considerably in their sensitivity and simulation behavior.

The application of agrochemicals in Southeast Asia is increasing in rate, variety and toxicity with alarming speed. Understanding the behavior of these different contaminants within the environment require comprehensive monitoring programs as well as accurate simulations with hydrological models. We used the SWAT hydrological model to simulate the fate of three different pesticides, one of each usage type (herbicide, fungicide and insecticide) in a mountainous catchment in Northern Thailand. Three key parameters were identified: the sorption coefficient, the decay coefficient and the coefficient controlling pesticide percolation. We yielded satisfactory results simulating pesticide load dynamics during the calibration period (NSE: 0.92–0.67); the results during the validation period were also acceptable (NSE: 0.61–0.28). The results of this study are an important step in understanding the modeling behavior of these pesticides in SWAT and will help to identify thresholds of worst-case scenarios in order to assess the risk for the environment.