Litcius/Paper detail

Increasing precipitation deteriorates the progress of pesticide reduction policy in the vulnerable watershed

Zewei Guo, Wei Ouyang, Ming Chen, Roberto Xavier Supe Tulcan, Lei Wang, Chunye Lin, Mengchang He

2023npj Clean Water10 citationsDOIOpen Access PDF

Abstract

Abstract Precipitation variation profoundly affects agricultural development and increases the diffuse pollution risk, which may weaken the positive effects of pesticide reduction policy. This study aimed to analyze the response of pesticide discharge loads in the large vulnerable watershed to pesticide application intensity and precipitation variance before and after implementing the pesticide reduction policy. We integrated empirical models, field observation and statistics to explore the sensitive factors of the typical pesticide atrazine before and after the pesticide reduction policy in the Yellow River Watershed. The results showed that the implementation of pesticide reduction policy effectively decreased the annual discharge load of atrazine within the watershed. In addition, the most sensitive factor of atrazine discharge loads shifted from precipitation to the atrazine application intensity after implementing the pesticide reduction policy. However, the discharge loads of atrazine significantly increased in an unusual high precipitation year in the context of increasing precipitation variability.

Topics & Concepts

AtrazineWatershedEnvironmental sciencePesticidePrecipitationContext (archaeology)Pesticide applicationHydrology (agriculture)Environmental engineeringEcologyMeteorologyGeographyBiologyEngineeringComputer scienceMachine learningGeotechnical engineeringArchaeologyPesticide and Herbicide Environmental StudiesPharmaceutical and Antibiotic Environmental ImpactsSoil and Water Nutrient Dynamics