Since N2O emissions cannot be measured easily at large scales, global emission estimates inevitably involve problems with scaling. To date, up-scaling processes depend highly on the models and database. Because of the limitation in resolution of the databases, which provide input parameters to drive the model's regional simulations, the uncertainties generated from the up-scaling processes must be quantified. In this paper, the uncertainties in up-scaling N2O emissions from the field scale (similar to 1 km(2)) to 1 degrees X 1 degrees scale (similar to 10,000 km(2)) were quantified in a case study from the Xilin River basin of Inner Mongolia, China. A revised process-based DNDC model was applied in the study for quantifying N2O fluxes with ...
Nitrogen fertilization is a key agronomic lever for high crop productivity, but also an important so...
Fluxes of nitrous oxide (N2O) were measured in mown and intensively-grazed plots on a slightly-slopi...
Nations are now obligated to assess their greenhouse gas emissions under the protocols of Article 4 ...
Nitrous oxide (N2O) emission from agricultural land is an important component of the total annual gr...
International audienceThe spatial variability of soil nitrous oxide (N 2 O) fluxes is large − regard...
International audienceEstimating total N2O emission from agricultural soils is associated with consi...
As one of the largest land cover types, grassland can potentially play an important role in the ecos...
International audienceAccumulating evidence indicates that N2O emission factors (EFs) vary with nitr...
Accumulating evidence indicates that N2O emission factors (EFs) vary with nitrogen additions and env...
China has experienced rapid agricultural development over recent decades, accompanied by increased f...
Nitrous oxide (N2O) is not only an important greenhouse gas, but also impacts stratospheric ozone. S...
Empirical and process-based models simulating N2O fluxes from agricultural soils have the advantage ...
We compared N2O emission results of the simple process based model INITIATOR, using landscape scale ...
Nitrous oxide (N2O) is one of the most important greenhouse gases emitted by the semi-arid grassland...
Nitrogen fertilization is a key agronomic lever for high crop productivity, but also an important so...
Fluxes of nitrous oxide (N2O) were measured in mown and intensively-grazed plots on a slightly-slopi...
Nations are now obligated to assess their greenhouse gas emissions under the protocols of Article 4 ...
Nitrous oxide (N2O) emission from agricultural land is an important component of the total annual gr...
International audienceThe spatial variability of soil nitrous oxide (N 2 O) fluxes is large − regard...
International audienceEstimating total N2O emission from agricultural soils is associated with consi...
As one of the largest land cover types, grassland can potentially play an important role in the ecos...
International audienceAccumulating evidence indicates that N2O emission factors (EFs) vary with nitr...
Accumulating evidence indicates that N2O emission factors (EFs) vary with nitrogen additions and env...
China has experienced rapid agricultural development over recent decades, accompanied by increased f...
Nitrous oxide (N2O) is not only an important greenhouse gas, but also impacts stratospheric ozone. S...
Empirical and process-based models simulating N2O fluxes from agricultural soils have the advantage ...
We compared N2O emission results of the simple process based model INITIATOR, using landscape scale ...
Nitrous oxide (N2O) is one of the most important greenhouse gases emitted by the semi-arid grassland...
Nitrogen fertilization is a key agronomic lever for high crop productivity, but also an important so...
Fluxes of nitrous oxide (N2O) were measured in mown and intensively-grazed plots on a slightly-slopi...
Nations are now obligated to assess their greenhouse gas emissions under the protocols of Article 4 ...