Add to ORKGUsing a participatory approach, AWD has been successfully validated in three climatic zones in West Africa: semi-arid (Senegal River Valley in Senegal and Plain of Zoungou and Valley of Sourou in Burkina Faso), sub-humid dry (Kou valley and plain of Karfiguela in Burkina Faso) and sub-humid humid (Côte d’Ivoire)
The evaluation metrics such as the area under the curve and percentage correctly classified showed v...
For 2019, this is listed as stage 1 because we are testing how a modified version of a proven manage...
e-resilient-lowland is an e-learning toolkit to improve water control and climate resilience in inla...
Using a participatory approach, AWD was successfully validated in 4 sites characterized by different...
AWD has been integrated in major national rice crop management guidelines in Vietnam, China and the ...
This technology has been evaluated in three consecutive seasons in Bouake (Africa Rice Center) and w...
The Smart-Valleys approach has been validated using a participatory approach in Burkina Faso in 4 si...
The approach was developed and validated for irrigated schemes of Burkina Faso. The evaluation metri...
We are developing a water management approach for reducing the transmission potential of malaria, gr...
The Smart-Valleys approach developed in Benin and Togo has been introduced and evaluated in Burkina ...
More than 1171 ha (11,000 smallholder farmers cultivate rice) were developed with the Smart-Valleys ...
In the pilot countries, the Smart-Valleys approach has been adopted by non-development farmers organ...
Alternate wetting and drying is a water saving technology that enables irrigated rice cultivation wi...
We identified the best covariates for drought occurrence in inland valleys rice-based production sys...
The Smart-Valleys approach has been successfully piloted in Cote d’Ivoire. Overall, the Smart-Valley...
The evaluation metrics such as the area under the curve and percentage correctly classified showed v...
For 2019, this is listed as stage 1 because we are testing how a modified version of a proven manage...
e-resilient-lowland is an e-learning toolkit to improve water control and climate resilience in inla...
Using a participatory approach, AWD was successfully validated in 4 sites characterized by different...
AWD has been integrated in major national rice crop management guidelines in Vietnam, China and the ...
This technology has been evaluated in three consecutive seasons in Bouake (Africa Rice Center) and w...
The Smart-Valleys approach has been validated using a participatory approach in Burkina Faso in 4 si...
The approach was developed and validated for irrigated schemes of Burkina Faso. The evaluation metri...
We are developing a water management approach for reducing the transmission potential of malaria, gr...
The Smart-Valleys approach developed in Benin and Togo has been introduced and evaluated in Burkina ...
More than 1171 ha (11,000 smallholder farmers cultivate rice) were developed with the Smart-Valleys ...
In the pilot countries, the Smart-Valleys approach has been adopted by non-development farmers organ...
Alternate wetting and drying is a water saving technology that enables irrigated rice cultivation wi...
We identified the best covariates for drought occurrence in inland valleys rice-based production sys...
The Smart-Valleys approach has been successfully piloted in Cote d’Ivoire. Overall, the Smart-Valley...
The evaluation metrics such as the area under the curve and percentage correctly classified showed v...
For 2019, this is listed as stage 1 because we are testing how a modified version of a proven manage...
e-resilient-lowland is an e-learning toolkit to improve water control and climate resilience in inla...