High-resolution Data Based Groundwater Recharge Estimations of Aynalem Well Field

Abdelwassie Hussien,Miruts Hagos,Tesfamichael Gebreyohannes,Gebremedhin Berhane,Kassa Amare,Gebremedhin Berhe Zenebe

doi:10.4314/mejs.v13i1.1

Abdelwassie Hussien, Miruts Hagos + Show 4 more

Open Access

https://doi.org/10.4314/mejs.v13i1.1

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Abstract

Due to the ever-increasing demand for water in Aynalem catchment and its surrounding, there has been an increased pressure on the Aynalem well field putting the sustainability of water supply from the aquifer under continuous threat. Thus, it is vital to understand the water balance of the catchment to ensure sustainable utilization of the groundwater resource. This in turn requires proper quantification of the components of water balance among which recharge estimation is the most important. This paper estimates the groundwater recharge of the Aynalem catchment using high-resolution hydro-meteorological data. Daily precipitation and temperature measurement data for years 2001-2018; groundwater level fluctuation records collected at every 30 minutes; and soil and land use maps were used to make recharge estimations. In the groundwater level fluctuation, three boreholes were monitored, but only two were utilized for the analysis because the third was under operation and does not represent the natural hydrologic condition. Thornthwaite soil moisture balance and groundwater level fluctuation methods were applied to determine the groundwater recharge of the Aynalem catchment. Accordingly, the annual rate of groundwater recharge estimated based on the soil-water balance ranges between 7mm/year and 138.5 mm/year with the weighted average value of 89.04 mm/year. The weighted average value is considered to represent the catchment value because the diverse soil and land use/cover types respond differently to allow the precipitation to recharge the groundwater. On the other hand, the groundwater recharge estimated using the groundwater level fluctuation method showed yearly groundwater recharge of 91 to 93 mm/year. The similarity in the groundwater recharge result obtained from both methods strengthens the acceptability of the estimate. It also points out that the previously reported estimate is much lower (36 to 66 mm/year).

Highlights

According to the Sustainable Development Goals of the UN (SDG, 2015), everyone on earth should have access to safe, clean, and affordable drinking water by 2030
Based on the data an investigation was made to examine the effect of high-resolution meteorological data in groundwater recharge estimation in a semiarid climatic setting using the soil water balance and water level fluctuation methods
Both methods gave rise to similar results of groundwater recharge in the study area, which is significantly different from values of previous studies

Summary

Introduction

According to the Sustainable Development Goals of the UN (SDG, 2015), everyone on earth should have access to safe, clean, and affordable drinking water by 2030. An increase in population in many towns, climate change and its variability, expansion of irrigated agriculture, and change in the living standards due to economic development denote an increase in the demand for water. Abdelwassie,H., Tesfamichael,G.Y., Miruts,H., Gebremedhin,B., Kassa,A and Gebremdhin,B.Z (MEJS) Volume 13(1):1-20, 2021 regions and actions taken to solve the demands have led to excessive groundwater abstraction, which in turn caused over-exploitation or persistent groundwater depletion (Yoshihide et al, 2010). This necessitated the need for proper groundwater management. Estimation of groundwater recharge is of critical importance for safe and efficient management of groundwater resources (Misstear, 2006). Selecting the best techniques of recharge estimation mechanisms is of paramount importance

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