Exploring Possible Missing Sinks of Nitrate and Its Precursors in Current Air Quality Models —A Case Simulation in the Pearl River Delta, China, Using an Observation-Based Box Model

Abstract

Nitrate and its precursor (gaseous HNO₃) in China are generally overestimated by current chemical transport models in comparison to in-situ observations. In this study, we used an observation-based box model and in-situ measurements at a rural site in southern China to investigate possible missing sinks of nitrate. We found that a heterogeneous reaction of HNO₃ to NO_x on soot can better balance the NO_x/HNO₃ chemistry in models and improve model performance with regard to nitrate, particularly where an additional HONO source (the heterogeneous reaction of NO₂ on soot) is incorporated into current models. Through a series of sensitivity simulations, the uptake coefficients of heterogeneous reactions were suggested to be 3.0 × 10⁻³ and 1 × 10⁻⁴ for HNO₃ and HONO over southern China in fall, respectively. A 3-D simulation with the suggested uptake coefficients further confirmed that heterogeneous reactions significantly decreased the nitrate concentrations (PNO₃) in southern China, by up to 10 μg m⁻³ (50%-80% of simulated PNO₃) in polluted regions (e.g., the Yangtze River). In contrast to nitrate and HNO₃, NO_x concentrations in China were enhanced, which partly explained the underestimation of NO₂ in current models compared to satellite observations.