Assessment of hydrological and biogeochemical effects on N2O emission factors in river networks of eastern China based on long-term study

The N₂O emission factors (EF) in river networks remains a major source of uncertainty due to limited data availability. This study integrated three years of multiple stable isotope (¹⁵N-NO₃^-/¹⁸O-NO₃^- and ²H-H₂O/¹⁸O-H₂O) and hydrochemistry measurements for river water and groundwater to evaluate the effects of hydrological and biogeochemical processes on riverine N₂O emission factors in the Yongan watershed (2474 km²) of subtropical eastern China. The EF in groundwater (0.00195 ± 0.00146) was about one magnitude higher than that in surface water (0.00038 ± 0.00020). The N₂O EF displayed seasonal and spatial variability in surface water and groundwater. The emission factors in surface water showed negative relationship with N levels and positive relationship with dissolved organic carbon: DIN (C:N) ratio. In contrast, N₂O EF in groundwater showed positive relationship with N level and negative relationship with DO concentration, implying quite different processes undergoing in surface water and groundwater. The ²H-H₂O/¹⁸O-H₂O information suggested high base flow contribution (~70%) to rivers, implying the potential N₂O contribution from groundwater to riverine N₂O. Information from ¹⁵N-NO₃^- and ¹⁸O-NO₃^- indicated that N₂O in groundwater were regulated by nitrification and denitrification, while N₂O in river networks was mainly derived from nitrification and may be also regulated by hydrological processes. The strong positive relationship between riverine N₂O concentrations and that in groundwater may indicate the potential high contribution of groundwater N₂O to surface water. This study highlights the importance of combining multiple isotope tracers and hydrochemistry to assess the riverine N₂O dynamics, as well as the necessity to consider the potential impact from groundwater N₂O contribution during the determination of riverine N₂O emission factors in rivers with high groundwater recharge.