Alternate wetting and drying (AWD) is a rice management practice that reduces water use by up to 30% and can save farmers money on irrigation and pumping costs. AWD reduces methane emissions by 48% without reducing yield. Efficient nitrogen use and application of organic inputs to dry soil can further reduce emissions. Incentives for adoption of AWD are higher when farmers pay for pump irrigation
AWD has been integrated in major national rice crop management guidelines in Vietnam, China and the ...
Demand for rice will increase with growing global population. Globally, water management and nitroge...
This report examines the costs and benefits of alternate wetting and drying (AWD) in paddy rice prod...
Rice is a staple for half the world’s population, thus its impact on land and water use is immense. ...
Alternate wetting and drying is a water saving technology that enables irrigated rice cultivation wi...
Alternate Wetting and Drying (AWD) is a rice production practice which moves away from continuous fl...
AbstractTo meet the major challenge of increasing rice production to feed a growing population under...
Rice production systems are the largest anthropogenic wetlands on earth and feed more than half of t...
<p>Alternate wetting and drying (AWD) is a water-saving irrigation technique in a paddy field that c...
To meet the major challenge of increasing rice production to feed a growing population under increas...
Reducing methane (CH4) emission from paddy rice production is an important target for many Asian cou...
Water-saving technologies such as alternate wetting and drying (AWD) provide a way to change practic...
Climate change and water scarcity threaten the sustainability of rice production systems. Alternate ...
Worldwide, rice production contributes about 10% of total greenhouse gas (GHG) emissions from the ag...
Combination of a pre-season wet soil condition and rice straw incorporation just before transplantin...
AWD has been integrated in major national rice crop management guidelines in Vietnam, China and the ...
Demand for rice will increase with growing global population. Globally, water management and nitroge...
This report examines the costs and benefits of alternate wetting and drying (AWD) in paddy rice prod...
Rice is a staple for half the world’s population, thus its impact on land and water use is immense. ...
Alternate wetting and drying is a water saving technology that enables irrigated rice cultivation wi...
Alternate Wetting and Drying (AWD) is a rice production practice which moves away from continuous fl...
AbstractTo meet the major challenge of increasing rice production to feed a growing population under...
Rice production systems are the largest anthropogenic wetlands on earth and feed more than half of t...
<p>Alternate wetting and drying (AWD) is a water-saving irrigation technique in a paddy field that c...
To meet the major challenge of increasing rice production to feed a growing population under increas...
Reducing methane (CH4) emission from paddy rice production is an important target for many Asian cou...
Water-saving technologies such as alternate wetting and drying (AWD) provide a way to change practic...
Climate change and water scarcity threaten the sustainability of rice production systems. Alternate ...
Worldwide, rice production contributes about 10% of total greenhouse gas (GHG) emissions from the ag...
Combination of a pre-season wet soil condition and rice straw incorporation just before transplantin...
AWD has been integrated in major national rice crop management guidelines in Vietnam, China and the ...
Demand for rice will increase with growing global population. Globally, water management and nitroge...
This report examines the costs and benefits of alternate wetting and drying (AWD) in paddy rice prod...