Abstract
The dynamic nature and unsustainable exploitation of groundwater aquifers pose a range of management challenges. The accurate basin-wide hydrological assessment is very critical for the quantification of abstraction rates, spatial patterns of groundwater usage, recharge and discharge processes, and identification of critical areas having groundwater mining. This study provides the appraisal of remote sensing technology in comparison with traditionally prevailing tools and methodologies and introduces the practical use of remote sensing technology to bridge the data gaps. It demonstrates the example of Gravity Recovery and Climate Experiment (GRACE) satellite inferred Total Water Storage (TWS) information to quantify the behavior of the Upper Indus Plain Aquifer. The spatio-temporal changes in aquifer usage are investigated particularly for irrigation and anthropogenic purposes in general. The GRACE satellite is effective in capturing the water balance components. The basin-wide monthly scale groundwater storage monitoring is a big opportunity for groundwater managers and policymakers. The remote sensing integrated algorithms are useful tools to provide timely and valuable information on aquifer behavior. Such tools are potentially helpful to support the implementation of groundwater management strategies, especially in the developing world where data scarcity is a major challenge. Groundwater resources have not grown to meet the growing demands of the population, consequently, overexploitation of groundwater resources has occurred in these decades, leading to groundwater decline. However, future developments in the field of space technology are envisioned to overcome the currently faced spatio-temporal challenges.
Highlights
Groundwater is an underground finite resource contributing to agricultural maintenance and ecosystem sustainability
The changes in groundwater storage are a function of recharge and pumping [7], which means that changes in groundwater storage are correlated with the variations in recharge and pumping processes, which are an integral component of water balance
This study provides an insight into the satellite remote sensing technological development for groundwater management and uses the case of the Indus Basin to demonstrate its practical adaptability as a tool for groundwater monitoring
Summary
Groundwater is an underground finite resource contributing to agricultural maintenance and ecosystem sustainability. It acts as a buffer in droughts and helps in maintaining the water supplies in countries like Pakistan where surface water is more prone to climatic implications in addition to storage limitations. In Pakistan, groundwater fulfills approximately 90% of drinking water requirements and more than 60% of irrigation water supplies [1]. The Indus Basin is the largest basin in Pakistan [2] and serves as the main source of groundwater. Groundwater availability for irrigation has dropped from 5000 m3 per capita to less than 1000 m3 [6] due to population growth and agricultural land expansion
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
