Add to ORKGRice paddies are known to be a major anthropogenic emission source of atmospheric methane (CH4), the second most important greenhouse gas (GHG) following carbon dioxide (CO2). In order to estimate CH4 emissions from rice paddies under various environmental and management conditions, this study developed a process-based biogeochemistry model, DNDC-Rice, which explicitly simulates relevant processes in rice plant (e.g. water and nitrogen uptake, photosynthesis, respiration, carbon and nitrogen allocation, CH4 transport) and in paddy soils (e.g. water, heat and gas transport, organic matters decomposition, Fe reduction/ oxidation, CH4 production/oxidation). The performance of DNDC-Rice model was evaluated using experimental data of 6 rice padd...
Methane (CH4) is a potent green house gas and second in importance after carbon dioxide (CO2) with a...
Methane (CH4) is one of the dominant greenhouse gases (GHG) widely emitted from rice fields, thus si...
©2015. American Geophysical Union. All Rights Reserved. Process-based modeling of CH4 and N2O emissi...
This thesis describes model development and experimentation on the comprehension and prediction of m...
Roughly one-quarter of global methane emissions to the atmosphere come from the agricultural sector....
Estimation and prediction of methane emission from flooded rice paddies is impaired by the large spa...
High CH4 fluxes are emitted from paddy fields worldwide and represent a considerable issue for the r...
Indian scientific research on rice cultivation has been targeted primarily at enhancing crop product...
Methane (CH sub 4) emissions from rice fields were determined using automated measurement systems in...
Fertilized rice paddy soils emit methane while flooded, emit nitrous oxide during flooding and drain...
The development of the MERES (Methane Emissions in Rice EcoSystems) model for simulating methane (CH...
Since early 1980s, water management for rice agriculture in China has substantially changed, with mi...
The process-based crop/soil model MERES (Methane Emissions from Rice EcoSystems) was used together w...
Agricultural activities have been pointed out as one of anthropogenic sources of greenhouse gas emis...
Rice is grown on more than 140 million hectares worldwide and is the most heavily consumed staple fo...
Methane (CH4) is a potent green house gas and second in importance after carbon dioxide (CO2) with a...
Methane (CH4) is one of the dominant greenhouse gases (GHG) widely emitted from rice fields, thus si...
©2015. American Geophysical Union. All Rights Reserved. Process-based modeling of CH4 and N2O emissi...
This thesis describes model development and experimentation on the comprehension and prediction of m...
Roughly one-quarter of global methane emissions to the atmosphere come from the agricultural sector....
Estimation and prediction of methane emission from flooded rice paddies is impaired by the large spa...
High CH4 fluxes are emitted from paddy fields worldwide and represent a considerable issue for the r...
Indian scientific research on rice cultivation has been targeted primarily at enhancing crop product...
Methane (CH sub 4) emissions from rice fields were determined using automated measurement systems in...
Fertilized rice paddy soils emit methane while flooded, emit nitrous oxide during flooding and drain...
The development of the MERES (Methane Emissions in Rice EcoSystems) model for simulating methane (CH...
Since early 1980s, water management for rice agriculture in China has substantially changed, with mi...
The process-based crop/soil model MERES (Methane Emissions from Rice EcoSystems) was used together w...
Agricultural activities have been pointed out as one of anthropogenic sources of greenhouse gas emis...
Rice is grown on more than 140 million hectares worldwide and is the most heavily consumed staple fo...
Methane (CH4) is a potent green house gas and second in importance after carbon dioxide (CO2) with a...
Methane (CH4) is one of the dominant greenhouse gases (GHG) widely emitted from rice fields, thus si...
©2015. American Geophysical Union. All Rights Reserved. Process-based modeling of CH4 and N2O emissi...