Similar Items: Paddy soil drainage influences residue carbon contribution to methane emissions
- Drainage of Flooded Rice Soil Influence the Residue Carbon Contribution in Methane Emissions
- Early drainage mitigates methane and nitrous oxide emissions from organically amended paddy soils
- Mitigating CH4 and N2O emissions from intensive rice production systems in northern Vietnam: Efficiency of drainage patterns in combination with rice residue incorporation
- Co-design and assessment of mitigation practices in rice production systems: A case study in northern Vietnam
- The effective mitigation of greenhouse gas emissions from rice paddies without compromising yield by early-season drainage
- Paddy fields in the world [by] Tabuchi and S. Hasegawa (Editors), Japanese Society of Irrigation, Drainage and Reclamation Engineering, Tokyo, 1995, 353p. A review
Author: Tariq, Azeen
Author: Jensen, Lars Stoumann
- Mitigating CH4 and N2O emissions from intensive rice production systems in northern Vietnam: Efficiency of drainage patterns in combination with rice residue incorporation
- The effective mitigation of greenhouse gas emissions from rice paddies without compromising yield by early-season drainage
- Drainage of Flooded Rice Soil Influence the Residue Carbon Contribution in Methane Emissions
- Paddy soil drainage influences residue carbon contribution to methane emissions
- Early drainage mitigates methane and nitrous oxide emissions from organically amended paddy soils
- Reducing greenhouse gas emissions and grain arsenic and lead levels without compromising yield in organically produced rice