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Improving Land and Water Productivity in IGNP Command Area (ICAR – ICARDA Collaborative Project # 8)
poster about Improving Land and Water Productivity in IGNP Command Area.
Special Issue on Improving Water Productivity in Dry Areas
About 41% of the Earth’s land area is classified as dryland wherein the farming system is characterized by approximately 300–500 mm of annual rainfall. The low rainfall, which is not only insufficient but irregular, ...
Improved On-farm Irrigation Management for Olive Growing - A Case Study from Morocco
The key success factors of the olive oil market are the enhancement and stabilization of olive yields, improvement of olive oil quality and reduction of production costs. There is great potential for cost reduction in terms ...
Supplemental Irrigation: A Promising Climate-resilience Practice for Sustainable Dryland Agriculture
Around 80 % of the world’s agricultural land is rainfed, and contributes to at least two-thirds of global food production. About 41 % of the Earth’s land area is classi- fied as dryland (ISPC 2015), wherein the farming ...
Modeling the soil-water-crop-atmosphere system to improve crop and water productivity in Stage II of Indira Gandhi Canal Command Area
The study entitled “Modelling the Soil-Water-Crop-Atmosphere System to Improve Land and Water Productivity in Stage II of IGNP” was carried out at village Amarpura (Bajju), Bikaner, Rajasthan, during 'kharif' and 'rabi' ...
Improving Water-use Efficiency through Innovative Technologies in Irrigation and Farming
The purpose of the Conclusion workshop was i) to showcase the findings to the stakeholders and to find potential development partners and donors to carry this work forward, ii) to familiarize NARES researchers with ET ...
Relative Yield, Profit and Water Productivity of Crops in IGNP Stage-I
The choice of an appropriate crop and cropping systems is essential for achieving
higher yield, profit and resource use efficiencies. Yield, returns and water productivity
are important factors for determining suitability ...
Editorial: Improving Water Productivity in Dry Areas
About 41% of the Earth’s land area is classified as dryland wherein the farming system is characterized by approximately 300-500 mm of annual rainfall. The low rainfall, which is not only insufficient but irregular, ...
Improving Water Productivity in Semi-arid Environments through Regulated Deficit Irrigation
A twelve-year experiment (1998-2009) was conducted at Tal Amara Research Station in Lebanon to determine the effects of deficit irrigation on yield and water productivity in six annual crops; maize (1998-1999), soybean ...