Bathymetric Map Production of Therthar Depression Basin and Water Storage Volume Estimation

Ruba Yousif Hussain

doi:10.24237/djes.2024.17303

Authors

Ruba Yousif Hussain
engineer.ruba@uomustansiriyah.edu.iq
Highway and Transportation Engineering Department, College of Engineering, Mustansiriyah University, Baghdad, Iraq

Keywords:

Bathymetric map, Contour, Surface area, Topographic map, Water storage volume

Abstract

Water crisis, drought, and desertification are prominent environmental issues facing many countries and threaten their sustainable development. Therthar depression basin in Iraq was selected as a study area. A new approach was adapted in producing a bathymetric map by merging contours derived from both topographic maps and digital elevation models using ArcGIS applications. Water storage volumes were estimated from 2017 to the end of 2023 using the trapezoidal rule. The results demonstrate that the maximum water storage volume was 80% of the total storage capacity in 2019. In 2021, this percent began to decrease significantly as a result of climatic changes until reached a dead storage about 40% in 2023. Large surface area of Therthar depression leads to increased evaporation and infiltration rates. The water consumption exceeded the incoming water storage by 5.292 billion cubic meters (bcm) in May and 13.127 bcm in October, between 2017 and 2023. The comparison between the estimated and actual live storage volumes resulted a root mean square error of 0.534 m and a coefficient of determination (R²) equals 0.871. However, to award off flood risks in rainy years, the study proposes increasing Therthar depression design elevation to 67 m rather than 65 m in proportion to Therthar arranger gate level.

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