Nitrous oxide (N₂O) is a greenhouse gas that also destroys the stratospheric ozone. It is important to estimate accurately the global N₂O budget in order to better understand the factors that influence atmospheric N₂O concentrations, to develop global warming countermeasures, and to protect the ozone layer. Previous models have indirectly predicted marine N₂O emissions from the apparent oxygen utilization, based on the observed inverse relationship between the dissolved oxygen and N₂O concentrations in the ocean. However, different microbes with distinctive substrates and enzymes mediate N₂O production and consumption processes. The accurate estimation of past, current and future marine N₂O emissions requires a model including these processes explicitly. In this study, a 1D marine ecosystem model that incorporates N₂O production processes (i.e., ammonium oxidation during nitrification and nitrite reduction during nitrifier denitrification) was developed. We applied this model to the JAMSTEC time-series subarctic and subtropical sites (K2 and S1) in the western north Pacific. The model was validated with observed nitrogen concentration and successfully simulated the higher N₂O concentration, the higher N₂O production rates, and the higher nitrification rates at K2 compared with S1. The annual mean N₂O emission fluxes were estimated to be 42 mgN m⁻² yr⁻¹ at K2 and 3 mgN m⁻² yr⁻¹ at S1. Using this model, we conducted two case studies: 1) estimating the ratio of N₂O emission flux by in-situ biological N₂O production to total flux, 2) estimating the ratio of N₂O production by ammonium oxidation to that by nitrite reduction. The results of case studies estimated the ratio of N₂O emission flux by in-situ biological N₂O production to be ~68% at K2 and ~100% at S1. It is also suggested that N₂O was mainly produced via ammonium oxidation at K2 but was produced via both ammonium oxidation and nitrite reduction at S1. Beman et al. (2010) suggested that ocean acidification could reduce nitrification rates and therefore affect oceanic N₂O production. In this presentation, we will also show the model results in the case of ocean acidification.