Led by Huilin Gao, associate professor in the department of civil and environmental engineering at Texas A&M University, researchers used a new approach with satellite data to estimate the storage variations of 7,245 global reservoirs from 1999 to 2018. The researchers report findings in Nature Communications.
Overall, global reservoir storage increased at an annual rate of 28 cubic kilometers, attributed to the construction of new reservoirs. However, despite these efforts, the data reveal that the rate of reservoir filling is lower than anticipated.
“As the global population continues to grow in the 21st century, surface water reservoirs are increasingly being relied on to meet rising demands in the context of a changing climate,” Gao says. “However, the amount of water available in reservoirs and its trends have not been well quantified at the global scale.”
The researchers developed the Global Reservoir Storage dataset, freely available online to benefit decision-makers and the wider science community.
Given the projected decline in water runoff and the rising water demand, the observed trend of diminishing storage returns from reservoir construction is expected to continue, potentially affecting water supplies and with significant implications. These findings indicate that addressing future water demands cannot rely solely on constructing new reservoirs, emphasizing the need for novel management strategies.
“Through this research, we share a new perspective for reevaluating the socio-economic benefits of new reservoir construction and the tension between growing water demand and lessening water availability in developing countries,” says Yao Li, a former postdoctoral researcher at Texas A&M who is now a professor at Southwest University.
The decline in reservoir storage is particularly prominent in the global south, including South Asia, Africa, and South America. Despite efforts to construct new reservoirs, the data show that they fall short of expected filling levels.
The most significant decline is in South America and Africa, where growing populations contribute to an escalated water demand.
In contrast, reservoirs in the global north, including regions in North America and Europe, are experiencing an upward trend in reaching their maximum capacity. Reservoirs in high-latitude regions like the Great Lakes and Siberia exhibit comparatively higher storage capacities, primarily attributed to their lower population densities and lesser effects from human activities.
The analysis did not consider the sedimentation process, and therefore the overall storage decline presented in this study is conservative.
Additional contributors to this research are the Institute of Geographic Sciences and Natural Resources Research, and Virginia Polytechnic and State University.
This research has funding from NASA and the Texas A&M President’s Excellence Fund X-Grants Program.
Source: Texas A&M University
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Previously Published on futurity.org with Creative Commons License
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