Add to ORKGThis investigation examined the potential of zeolite 4A to reduce emission of greenhouse gases (GHGs) in rice cultivation under different fertilizer regimes. A completely randomized design was used with four treatments (different fertilizer application method) and 2 blocks (zeolite 4A application, using rice variety RD-41 sown at a seed rate of 15.625 g m-2, and harvested in 105 d in Lam Ta Khong Research Station, Nakhon Ratchasima. The experimental results demonstrated that significant reduction in GHG emissions in zeolite 4A treated plots, either alone or in combination with chemical fertilizers, with GHG reduction of 43.27 % and 34.69 %, respectively. It was concluded that zeolite 4A has potential to reduce GHG emissions in rice cultivat...
Presented to the meeting of the Council for Partnership on Rice Research in Asia (CORRA) on October ...
Reducing greenhouse gas emissions from rice fields is essential to respond to the national “dual-car...
Rice production is a significant anthropogenic source of methane (CH4) and nitrous oxide (N2O), two ...
This investigation examined the potential of zeolite 4A to reduce emission of greenhouse gases (GHGs...
This investigation aims to study the value of synthesized zeolite in reducing greenhouse gasses (GHG...
Rainfed area as one of rice production areas is facing drought due to climate change. Management of ...
The research was aimed at investigating the effect of natural zeolite of Taskmalayan deposit and ure...
Climate change caused by increasing anthropogenic greenhouse gas concentrations can threaten food se...
Land management practices for rice productivity and carbon storage have been a key focus of research...
The impact of two water management practises on Greenhouse Gases (GHGs) emissions from paddy rice fi...
Rice field is issued as a source of greenhouses gases (GHGs) emissions especially methane (CH4) and ...
Wetland rice (Oryza sativa L.) production contributes 55% of agricultural greenhouse gas (GHG) emiss...
Environmental and socio-economic evaluations that imply techniques for mitigating greenhouse gas (GH...
Wetland rice cultivation contributes significantly to global warming potential (GWP), an effect whic...
This Technical brief is a short summary of the results obtained from the field trials conducted at A...
Presented to the meeting of the Council for Partnership on Rice Research in Asia (CORRA) on October ...
Reducing greenhouse gas emissions from rice fields is essential to respond to the national “dual-car...
Rice production is a significant anthropogenic source of methane (CH4) and nitrous oxide (N2O), two ...
This investigation examined the potential of zeolite 4A to reduce emission of greenhouse gases (GHGs...
This investigation aims to study the value of synthesized zeolite in reducing greenhouse gasses (GHG...
Rainfed area as one of rice production areas is facing drought due to climate change. Management of ...
The research was aimed at investigating the effect of natural zeolite of Taskmalayan deposit and ure...
Climate change caused by increasing anthropogenic greenhouse gas concentrations can threaten food se...
Land management practices for rice productivity and carbon storage have been a key focus of research...
The impact of two water management practises on Greenhouse Gases (GHGs) emissions from paddy rice fi...
Rice field is issued as a source of greenhouses gases (GHGs) emissions especially methane (CH4) and ...
Wetland rice (Oryza sativa L.) production contributes 55% of agricultural greenhouse gas (GHG) emiss...
Environmental and socio-economic evaluations that imply techniques for mitigating greenhouse gas (GH...
Wetland rice cultivation contributes significantly to global warming potential (GWP), an effect whic...
This Technical brief is a short summary of the results obtained from the field trials conducted at A...
Presented to the meeting of the Council for Partnership on Rice Research in Asia (CORRA) on October ...
Reducing greenhouse gas emissions from rice fields is essential to respond to the national “dual-car...
Rice production is a significant anthropogenic source of methane (CH4) and nitrous oxide (N2O), two ...