Position paper: Characterising performance of environmental models
Environmental Modelling & Software
Hi-index | 0.00 |
We evaluated the use of the ''DeNitrification DeComposition'' (DNDC) model to estimate variation in N"2O emissions from agriculture for large geographic areas, using maize production in the United States as an example. We address practical and methodological issues, including how much model spin-up time is necessary; whether to run the model in ''site'' or ''regional'' mode; the importance of considering crop rotations; and the contribution of ''background emissions'' (emissions that occur when no crop is grown). We conclude that: 1) Spin-up time of 5-10 years may be sufficient to achieve steady-state N"2O fluxes in many cases, 2) results between ''site'' and ''regional'' mode can differ greatly; 3) ''Site'' mode is preferable to ''regional'' mode as its use is more transparent and flexible, 4) Crop rotations have a modest, but observable effect on modeled emissions from US maize, 5) Background emissions, while generally low, can be very high in certain locations and should thus be considered.