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Major hydrological basins of the world
This dataset was obtained by delineating drainage basin boundaries from hydrologically corrected elevation data (HydroSHEDS and Hydro1K). Input data resolution is 15 arc-seconds between 60 N and 60... -
Hydrological basins of the world
This dataset represents the world's major hydrological basins and respective sub-basins according to its hydrological characteristics. Source: WWF HydroSHEDS and Hydro1K More information on... -
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... -
Agricultural systems at risk: human pressure on land and water (Global - 5arc-min)
This map shows to which extent rainfed and irrigated agricultural systems as identified on SOLAW Map 1.3: "Major agricultural systems" suffer from land and / or water scarcity. Land... -
Level of water stress (SDG 6.4.2) by major river basin (Global)
Level of water stress (SDG 6.4.2) by major river basin (reference year 2018). This map provides a global representation of the level of water stress spatially disaggregated by major river basin.... -
Proportion of freshwater withdrawal for the Service sector per major river basin (2018) (Global)
This map provides a global representation of proportion of freshwater withdrawal for the Service sector (VS) over the total freshwater withdrawal (TWW) per major river basins for year 2018. The... -
Proportion of freshwater withdrawal for the Industry sector per major river basin (2018) (Global)
This map provides a global representation of proportion of freshwater withdrawal for the Industry sector (VA) over the total freshwater withdrawal (TWW) per major river basins for year 2018. The... -
Proportion of freshwater withdrawal for the Agriculture sector per major river basin (2018) (Global)
This map provides a global representation of proportion of freshwater withdrawal for the Agriculture sector (VA) over the total freshwater withdrawal (TWW) per major river basins for year 2018. The... -
Dominant sector freshwater withdrawal per major river basin (2018) (Global)
This map provides a global representation of the dominant economic sector for freshwater withdrawals per major river basins for year 2018. The analysis is based on the national water withdrawal... -
Level of water stress by major river basin calculated on the water consumption (Global)
Warning Please note that this dataset should not be used as SDG 6.4.2 data. Level of water stress by major basin calculated on the water consumption (reference year 2018). This map provides a... -
Inland water bodies in Africa
Shapefile of inland water bodies in Africa. This dataset originates from the Digital Chart of the World 1:1000000, 1998. The waterbodies for Africa have been characterized (as lake, lagoon,... -
Major agricultural systems (Global)
This map builds upon work done by Dixon (Dixon et al., 2001) in an attempt to propose a general classification of major farming systems. Based on a combination of global dataset, the map proposes a... -
Incremental evapotranspiration (K4, Karnataka, India - Monthly - 250m)
Incremental Evapotranspiration calculated for the Malaprabha (K4) sub-basin area. The incremental evapotranspiration (etincr) is the evapotranspriation of blue water, in other words the incremental... -
Incremental evapotranspiration (K3, Karnataka, India - Monthly - 250m)
Incremental Evapotranspiration calculated for the Ghataprabha (K3) sub-basin area. The incremental evapotranspiration (etincr) is the evapotranspriation of blue water, in other words the... -
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...