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Global rice production systems face two opposing challenges: the need to increase production to accommodate the world's growing population while simultaneously reducing greenhouse gas (GHG) emissions. Adaptations to drainage regimes are one of the most promising options for methane mitigation in ...


Islam, Syed Faiz-ulGroenigen, Jan Willem vanJensen, Lars S.Sander, Bjoern OleNeergaard, Andreas de[The effective mitigation of greenhouse gas emissions from rice paddies without compromising yield by early-season drainage]The effective mitigation of greenhouse gas emissions from rice paddies without compromising yield by early-season drainage

Elevated greenhouse gas (GHG) emissions, particularly of methane (CH4) from flooded rice production systems contribute to global warming. Different crop management strategies, such as drainage of paddy soils and climate-smart residue management, are essential in order to mitigate GHG emissions fr...


Tariq, AzeemJensen, Lars S.Tourdonnet, Stephane deSander, Bjoern OleNeergaard, Andreas de[Early drainage mitigates methane and nitrous oxide emissions from organically amended paddy soils]Early drainage mitigates methane and nitrous oxide emissions from organically amended paddy soils

The Climate Food and Farming (CLIFF) Research Network is an international research network that helps to expand young researchers' knowledge and experience working on climate change mitigation in smallholder farming. CLIFF provides grants for selected doctoral students to work with CGIAR research...


Tariq, AzeemJensen, Lars S.Sander, Bjoern OleTourdonnet, Stephane deAmbus, Per LennartHữu Thành, PhanVan Mai, TrinhNeergaard, Andreas de[Drainage of Flooded Rice Soil Influence the Residue Carbon Contribution in Methane Emissions]Drainage of Flooded Rice Soil Influence the Residue Carbon Contribution in Methane Emissions

Water drainage is an important mitigation option for reducing CH4 (methane) emissions from residue-amended paddy soils. Several studies have indicated a long-term reduction in CH4 emissions, even after re-flooding, suggesting that the mechanism goes beyond creating temporary oxidized conditions i...


Tariq, AzeenJensen, Lars S.Sander, Bjoern Olede Tourdonnet, StephaneAmbus, Per LennartThanh, Phan HuuTrinh, Mai Vande Neergaard, Andreas[Paddy soil drainage influences residue carbon contribution to methane emissions]Paddy soil drainage influences residue carbon contribution to methane emissions

Rice production systems are an important source of agricultural greenhouse gas (GHG) emissions. Mitigation techniques, such as alternate wetting and drying, have been developed but have often not taken into consideration the constraints imposed by the practices and preferences of farmers. Since G...


Tariq, Azeende Neergaard, AndreasJensen, Lars S.Sander, Bjoern OleTrinh, Mai VanVu, Quynh DuongWassmann, Reinerde Tourdonnet, Stephane[Co-design and assessment of mitigation practices in rice production systems: A case study in northern Vietnam]Co-design and assessment of mitigation practices in rice production systems: A case study in northern Vietnam

This study investigated the effects of different mixing ratios of crop residues and biochar with liquid digestate from anaerobically treated pig manure on CH4, CO2, and N2O emissions over 84 days in a system of passive aeration composting, resembling typical Vietnamese solid manure storage condit...


Vu, Quynh DuongNeergaard, Andreas deTran, TDHoang, HTTVu, VTKJensen, Lars S.[Greenhouse gas emissions from passive composting of manure and digestate with crop residues and biochar on small-scale livestock farms in Vietnam]Greenhouse gas emissions from passive composting of manure and digestate with crop residues and biochar on small-scale livestock farms in Vietnam

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