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Percentage of irrigated area serviced by groundwater (Global)
This map, compiled to support the analysis of SOLAW report concerning trends and current use of water use in agriculture, shows the percentage of irrigated area supplied by groundwater. Irrigation... -
Irrigation areas v.5 (Global - 5 arc/min)
Global Map of Irrigation Areas - Version 5 Grid with percentage of area equipped for irrigation with a spatial resolution of 5 arc minutes or 0.083333 decimal degrees. This dataset is developed in... -
Actual evapotranspiration (Khongor, Mongolia - Seasonal - 15m)
Actual EvapoTranspiration over MOFALI center pivots study area in the Khongor, Mongolia, for the Kharif season (July to October) 2019. Data publication: 2020-01-01 Supplemental Information: Unit:... -
Above ground biomass production (Khongor, Mongolia - Seasonal - 15m)
The Above Ground Biomass Production (AGBP) is computed using vegetation index-based approach in PySEBAL and aggregated over MOFALI center pivots in Khongor, Mongolia for the Kharif season (July to... -
Biomass water productivity (Khongor, Mongolia - Seasonal - 15m)
The Biomass Water Productivity (WPb) is computed by dividing Biomass by ETa and aggregated over MOFALI center pivots in Khongor, Mongolia for the Kharif season (July to October) 2019. Data... -
Relative water deficit (Khongor, Mongolia - Seasonal - 15m)
The Relative Water Deficit dataset represents the water deficit per pixel computed as 1 minus the ratio of ETa over ETx (max crop ET) over MOFALI center pivots in Khongor, Mongolia for the Kharif... -
Normalized difference vegetation index (Khongor, Mongolia - Seasonal - 15m)
The Normalized Difference Vegetation Index (NDVI) is computed by applying the ration between red and NIR spectral bands and maximum aggregated over MOFALI center pivots in Khongor, Mongolia for the... -
Precipitation minus evapotranspiration (Khongor, Mongolia - Seasonal - 15m)
The map represents the water flux per pixel computed as precipitation minus ETa over MOFALI center pivots in Khongor, Mongolia for the Kharif season (July to October) 2019. Data publication:... -
Above ground biomass production in Nura district (N2, Karaghandy, Kazakhstan - Seasonal - 30m)
The Above Ground Biomass Production (AGBP) is estimated from remote sensing energy balance model (SEBAL) on Landsat 8 OLI and meteo data, aggregated over main growing season (May to October) 2019.... -
Relative water deficit in Nura district (N2, Karaghandy, Kazakhstan - Seasonal - 30m)
The Relative Water Deficit dataset represents the water deficit per pixel computed as 1 minus the ratio of ETa over ETx (max crop ET) over the main growing season (May to October) 2019. The RWD is... -
Gross biomass water productivity in Nura district (N2, Karaghandy, Kazakhstan - Seasonal - 30m)
The Gross Biomass Water Productivity (GBWP) dataset is estimated from seasonal AGBP and ETa derived from Landsat 8 OLI and meteo data, averaged over main growing season (May to October) 2019. The... -
Actual evapotranspiration in Nura district (N2, Karaghandy, Kazakhstan - Seasonal - 30m)
The Actual Evapotranspiration is estimated from remote sensing energy balance model (SEBAL) on Landsat 8 OLI and meteo data, aggregated over main growing season (May to October) 2019. The Actual... -
Relative water deficit in Nura district (N1, Karaghandy, Kazakhstan - Seasonal - 30m)
The Relative Water Deficit dataset represents the water deficit per pixel computed as 1 minus the ratio of ETa over ETx (max crop ET) over the main growing season (May to October) 2019. The RWD is... -
Gross biomass water productivity in Nura district (N1, Karaghandy, Kazakhstan - Seasonal - 30m)
The Gross Biomass Water Productivity (GBWP) dataset is estimated from seasonal AGBP and ETa derived from Landsat 8 OLI and meteo data, averaged over main growing season (May to October) 2019. The... -
Above ground biomass production in Nura district (N1, Karaghandy, Kazakhstan - Seasonal - 30m)
The Above Ground Biomass Production (AGBP) is estimated from remote sensing energy balance model (SEBAL) on Landsat 8 OLI and meteo data, aggregated over main growing season (May to October) 2019.... -
Actual evapotranspiration in Nura district (N1, Karaghandy, Kazakhstan - Seasonal - 30m)
The Actual Evapotranspiration is estimated from remote sensing energy balance model (SEBAL) on Landsat 8 OLI and meteo data, aggregated over main growing season (May to October) 2019. The Actual... -
Relative water deficit in Bukhar district (Karaghandy, Kazakhstan - Seasonal - 30m)
The Relative Water Deficit dataset represents the water deficit per pixel computed as 1 minus the ratio of ETa over ETx (max crop ET) over the main growing season (May to October) 2019. The RWD is... -
Gross biomass water productivity in Bukhar district (Karaghandy, Kazakhstan - Seasonal - 30m)
The Gross Biomass Water Productivity (GBWP) dataset is estimated from seasonal AGBP and ETa derived from Landsat 8 OLI and meteo data, averaged over main growing season (May to October) 2019. The... -
Above ground biomass production in Bukhar district (Karaghandy, Kazakhstan - Seasonal - 30m)
The Above Ground Biomass Production (AGBP) is estimated from remote sensing energy balance model (SEBAL) on Landsat 8 OLI and meteo data, aggregated over main growing season (May to October) 2019.... -
Actual evapotranspiration in Bukhar district (Karaghandy, Kazakhstan - Seasonal - 30m)
The Actual Evapotranspiration is estimated from remote sensing energy balance model (SEBAL) on Landsat 8 OLI and meteo data, aggregated over main growing season (May to October) 2019. The Actual...