Assessment of vulnerability to water shortage in semi-arid river basins: The value of demand reduction and storage capacity

Assessment of vulnerability to water shortage in semi-arid river basins: The value of demand reduction and storage capacity

Interest in securing reliable water supplies has increased due to climate change and rapid population growth. This challenge is significant in growing areas with limited water supplies. To meet water demands, water managers are considering new storage infrastructure to increase the reliability of wa...

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Bibliographic Details
Published in:The Science of the total environment Vol. 871; p. 161964
Main Authors: Gharib, Ahmed A., Blumberg, Joey, Manning, Dale T., Goemans, Christopher, Arabi, Mazdak
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-05-2023
Subjects:
Climate change
Reservoirs
Storage capacity
Water resources management
Water shortage
Weap model
Climate change
Reservoirs
Water shortage
Water resources management
Storage capacity
Weap model
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Summary:Interest in securing reliable water supplies has increased due to climate change and rapid population growth. This challenge is significant in growing areas with limited water supplies. To meet water demands, water managers are considering new storage infrastructure to increase the reliability of water supplies while also identifying opportunities to reduce water use per person. Although these strategies change water consumption patterns, their success at reducing shortages across space and time for different climate change scenarios remains unclear. In this paper, population- and climate-dependent future water supply and demand models are developed and integrated into a water allocation model calibrated for the South Platte River Basin of Colorado. Eight future climate scenarios are simulated using four statistically downscaled models from the Coupled Model Inter-Comparison Project Phase 5 (CMIP5) with two Representative Concentration Pathways (RCP). Lastly, findings from the water allocation model simulations are generalized beyond the study area using a novel approach by introducing dimensionless indices to characterize water shortage and basin conditions. Results reveal a threshold ratio of total storage capacity to mean water supply with a value of 0.64 above which additional storage has no effect on total water shortages. This threshold communicates the limitation of building storage infrastructure as a strategy to adapt to decreasing average water supplies for basins considering increasing storage capacity. However, basins with low current capacity are likely to fall below the threshold and could invest in reservoirs to mitigate future shortages. •Vulnerability to shortage varies across regions and sectors within a river basin.•Water shortage would increase significantly in the future without adaptation.•Reservoirs can mitigate the consequences of earlier water supplies and later demands.•Water demand management strategies are effective in mitigating the vulnerability.•Additional storage capacity is only beneficial under certain conditions.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.161964