Title |
Data sources for the manuscript on groundwater stress indicators published in Water Resources Research (see reference below) |
Date |
May 2019 |
Version |
1.0 |
Former versions |
- |
Abstract |
We computed seven global-scale groundwater stress indicators at the 0.5° grid-cell level and for transboundary aquifers> 20,000 km². All indicators were calculated for current conditions (1981-2010 or 2001-2010) based on a homogenized version of the concatenated WATCH Forcing Data ERA-40 (WFD) and WFD ERA-Interim data sets (WFDEI). In addition, four of the indicators were computed for the 2050s (2041-2070) under the worst-case greenhouse gas emissions scenario RCP8.5 applying ten climate and irrigation scenarios. The scenarios were derived by combining two irrigation scenarios (“AAI constant” and “AAI LandSHIFT”) with model output from the five global climate models GFDL-ESM2M, HadGEM2 -ES, IPSL-CM5A-LR, MIROC-ESM-CHEM, and NorESM1-M. Here, we provide the WaterGAP model output used to compute the groundwater stress indicators. A description of the indicators and the underlying data can be found in the reference below. Moreover, a table with coordinates and grid-cell area [km²] used in WaterGAP is provided for the conversion of units. The model output comprises:
|
Format |
netCDF4 (global, 0.5° grid cells) |
Purpose |
Computation of groundwater stress indicators at the 0.5° grid-cell level or for larger spatial units such as transboundary aquifers. We advise the use for global assessments or for spatial units larger than 20,000 km². |
Data download Alternative URL |
WaterGAP model output (1 text and 7 zip files, total of 3.26 GB) - |
Documentation Alternative URL |
See reference below - |
Keywords |
Global-scale groundwater stress indicators, global-scale modeling, WaterGAP, transboundary aquifers |
Please cite as |
Herbert, C. & Döll, P. (2019): Global assessment of current and future groundwater stress with a focus on transboundary aquifers. Water Resour. Res., 55. doi: 10.1029/2018WR023321. |