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Agricultural water productivity Hotspots of irrigated areas in 2002
The Hot spots of high and low water productivity was done by classifying the biophysical agricultural water productivity (kg/m3) layer into three classes: (i) High water productivity which includes values exceeding 1.0 ...
Agricultural water productivity Hotspots of irrigated areas in 2006
The Hot spots of high and low water productivity was done by classifying the biophysical agricultural water productivity (kg/m3) layer into three classes: (i) High water productivity which includes values exceeding 1.0 ...
Agricultural water productivity for irrigated areas in 2008
Agricultural Water Productivity (WPM) (kg/m3) was determined for each pixel by dividing crop productivity (kg/ha) raster layer by seasonal crop water use in terms of actual evapotranspiration (m3/ha) raster layer. The WPM ...
Optimizing cotton irrigation regime using climatic data from mini weather station via evapotranspiration in the Fergana Valley, Uzbekistan (in Russian)
Irrigated agriculture is the backbone of Central Asian economies and efficient
irrigation management is of crucial importance to the sustainable crop production. The ET-based irrigation scheduling method has potential to ...
Agricultural water productivity Hotspots of rainfed areas in 2002
The Hot spots of high and low water productivity was done by classifying the biophysical agricultural water productivity (kg/m3) layer into three classes: (i) High water productivity which includes values exceeding 1.0 ...
Agricultural water productivity Hotspots of rainfed areas in 2008
The Hot spots of high and low water productivity was done by classifying the biophysical agricultural water productivity (kg/m3) layer into three classes: (i) High water productivity which includes values exceeding 1.0 ...
Agricultural water productivity for rainfed areas in 2008
Agricultural Water Productivity (WPM) (kg/m3) was determined for each pixel by dividing crop productivity (kg/ha) raster layer by seasonal crop water use in terms of actual evapotranspiration (m3/ha) raster layer.The WPM ...
Agricultural water productivity for rainfed areas in 2006
Agricultural Water Productivity (WPM) (kg/m3) was determined for each pixel by dividing crop productivity (kg/ha) raster layer by seasonal crop water use in terms of actual evapotranspiration (m3/ha) raster layer.The WPM ...
Agricultural water productivity for irrigated areas in 2002
Agricultural Water Productivity (WPM) (kg/m3) was determined for each pixel by dividing crop productivity (kg/ha) raster layer by seasonal crop water use in terms of actual evapotranspiration (m3/ha) raster layer.The WPM ...
Agricultural water productivity for rainfed areas in 2002
Agricultural Water Productivity (WPM) (kg/m3) was determined for each pixel by dividing crop productivity (kg/ha) raster layer by seasonal crop water use in terms of actual evapotranspiration (m3/ha) raster layer.The WPM ...