The critical role of water in enabling or constraining human well-being and socioeconomic activities has led to an interest in quantitatively establishing the status of water (in)sufficiency over space and time. Falkenmark introduced the first widely accepted measure of water status, the Water Scarcity Index (WSI), which expressed the status of the availability of water resources in terms of vulnerability, stress, and scarcity. Since then, numerous indicators have been introduced, but nearly all adopt the same basic formulation; water status is a function of available water resourceby the demand or use. However, the accurate assessment of available water is difficult, especially in data-scarce regions, such as Africa. In this paper, therefore, we introduce a satellite-based Potential Available Water Storage indicator, PAWS. The method integrates GRACE (Gravity Recovery and Climate Experiment) satellite Total Water Storage (TWS) measurements with the Tropical Rainfall Measuring Mission (TRMM) precipitation estimates between 2002 and 2016. First, we derived the countries' Internal Water Storage (IWS) using GRACE and TRMM precipitation data. Then, the IWS was divided by the population density to derive the PAWS per capita. Following the Falkenmark thresholds, 54% of countries are classified in the same water vulnerability status as the AQUASTAT Internal Renewable Water Resources (IRWR) method. Of the remaining countries, PAWS index leads to one or two categories shift (left or right) of water status. The PAWS index shows that 14% (similar to 160 million people) of Africa's population currently live under water scarcity status. With respect to future projections, PAWS index suggests that a 10% decrease in future water resources would affect similar to 37% of Africa's 2025 population (similar to 600 million people), and 57% for 2050 projections (similar to 1.4-billion people). The proposed approach largely overcomes the constraints related to the data needed to rapidly and robustly estimate available water resources by incorporating all stocks of water within the country, as well as underscores the recent water storage dynamics. However, the estimates obtained concern potential available water resources, which may not be utilizable for practical, economic, and technological issues.
1.SUNY Binghamton, Dept Geog, Binghamton, NY 10002 USA 2.Univ Oklahoma, Hydrometeorol & Remote Sensing HyDROS Lab, ARRC, Norman, OK 73019 USA 3.Damietta Univ, Dept Geol, Fac Sci, New Damietta 34518, Egypt 4.Univ Oklahoma, Coll Atmospher & Geog Sci, Norman, OK 73019 USA
Recommended Citation:
Hasan, Emad,Tarhule, Aondover,Hong, Yang,et al. Assessment of Physical Water Scarcity in Africa Using GRACE and TRMM Satellite Data[J]. REMOTE SENSING,2019-01-01,11(8)