Regime‐Dependence of Nocturnal Nitrate Formation via N₂O₅ Hydrolysis and Its Implication for Mitigating Nitrate Pollution

Abstract

The heterogeneous hydrolysis of dinitrogen pentoxide (N₂O₅) is an important pathway in nitrate formation; however, its formation rate and relative contribution to total particulate nitrate () are highly variable. Here we report that nocturnal formation via N₂O₅ hydrolysis is dependent on the regime defined by the ratio of NO₂ to O₃. Nocturnal formation via N₂O₅ hydrolysis is suppressed in an O₃‐limited regime but enhanced in a NO₂‐limited regime. The results have crucial implications for effective control of nitrate pollution in the future. An exclusive decrease in NO₂ will decrease nocturnal formation in a NO₂‐limited regime but may be less effective or even increase nocturnal formation in an O₃‐limited regime.