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Number of rainy days (K3, Karnataka, India - Monthly - 250m)
Number of rainy days calculated in the Ghataprabha (K3) sub-basin area. For every pixel, the number of rainy days in a month is reported. This dataset is created by using daily rainfall data from... -
Actual evapotranspiration (K3, Karnataka, India - Monthly - 250m)
Actual Evapotranspiration (ETa) calculated in the Ghataprabha sub-basin area. The actual Evapotranspiration (ETa) is the sum of the soil evaporation (E), canopy transpiration (T), and evaporation... -
Total flow (K3, Karnataka, India - Monthly - 250m)
Total Flow (calculated for the Ghataprabha (K3) sub-basin area. The total flow (tf) is the sum of surface runoff (sro) and the base flow (bf). More information can be found on the IHE Delft Water... -
Surface runoff (K3, Karnataka, India - Monthly - 250m)
Surface runoff calculated for the Ghataprabha (K3) sub-basin area. The surface runoff (sro) is the fraction of the effective rainfall that does infiltrate into the soil and contributes to overland... -
Soil moisture (K3, Karnataka, India - Monthly - 250m)
Soil moisture calculated for the Ghataprabha (K3) sub-basin area. The soil moisture (sm) is the water content in the unsaturated zone (depth of the unsaturated zone = root zone). The calculation... -
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... -
Dry matter productivity (K2, Karnataka, India - Monthly - 250m)
Dry Matter Productivity in the Middle Krishna sub-basin area. The Dry Matter Productivity (DMP) is the dry biomass increase of the vegetation in a given month. Data is obtained from Copernicus... -
Leaf area index (K2, Karnataka, India - Monthly - 250m)
Leaf Area Index calculated in the Middle Krishna (K2) sub-basin area. The Leaf Area Index or LAI is a dimensionless quantity which is used to characterize plant canopies. It is defined as the... -
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...