Autor:
Tariq, Azeem
Jensen, Lars S.
Tourdonnet, Stephane de
Sander, Bjoern Ole
Neergaard, Andreas de
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...
Enlace original:
https://cgspace.cgiar.org/handle/10568/83303
Tariq, Azeem
,
Jensen, Lars S.
,
Tourdonnet, Stephane de
,
Sander, Bjoern Ole
,
Neergaard, 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
