We report experimental observation and model simulations of N 2 O emissions in a cropland, located in Southern Italy, candidate ICOS (Integrated Carbon Observation system) level 1 site. Eddy Covariance (EC) and chamber measurements were conducted on sorghum wheat and corn crops over several years. The Agricultural Productions Systems sIMulator (APSIM) model was used to simulate the N 2 O emission. Our preliminary results indicate that APSIM was able to catch the seasonal dynamics of the N 2 O fluxes, when compared to the EC observations. A considerably lower agreement was found with static chamber measurements. Amount and timing of nitrogen fertilization drive the N 2 O emission. Overall, we found APSIM simulations underestimated the cumulative values, compared to both eddy covariance and chambers observations.
Process-oriented simulation and observations of N2O emission from intensively managed agricultural cropping system
Terenzio Zenone;Antonio Manco;Luca Vitale;Daniela Famulari
2021
Abstract
We report experimental observation and model simulations of N 2 O emissions in a cropland, located in Southern Italy, candidate ICOS (Integrated Carbon Observation system) level 1 site. Eddy Covariance (EC) and chamber measurements were conducted on sorghum wheat and corn crops over several years. The Agricultural Productions Systems sIMulator (APSIM) model was used to simulate the N 2 O emission. Our preliminary results indicate that APSIM was able to catch the seasonal dynamics of the N 2 O fluxes, when compared to the EC observations. A considerably lower agreement was found with static chamber measurements. Amount and timing of nitrogen fertilization drive the N 2 O emission. Overall, we found APSIM simulations underestimated the cumulative values, compared to both eddy covariance and chambers observations.File | Dimensione | Formato | |
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Descrizione: Process-oriented simulation and observations of N2O emission from intensively managed agricultural cropping system
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