Abstract
As human water demand is increasing worldwide, pressure on available
water resources grows and their sustainable exploitation is at risk. To
mimic changes in exploitation intensity and the connecting feedbacks
between surface water and groundwater systems, a dynamic attribution of
demand to water resources is necessary. However, current global-scale
hydrological models lack the ability to do so. This study explores the
dynamic attribution of water demand to simulated water availability. It
accounts for essential feedbacks, such as return flows of unconsumed
water and riverbed infiltration. Results show that abstractions and
feedbacks strongly affect water allocation over time, particularly in
irrigated areas. Also residence time of water is affected, as shown by
changes in low flow magnitude, frequency, and timing. The dynamic
representation of abstractions and feedbacks makes the model a suitable
tool for assessing spatial and temporal impacts of changing global water
demand on hydrology and water resources.
Original language | English |
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Pages (from-to) | 21-33 |
Number of pages | 13 |
Journal | Advances in Water Resources |
Volume | 64 |
DOIs | |
Publication status | Published - Feb 2014 |
Keywords
- Water abstractions
- Groundwater
- Surface water
- Return flows
- Global hydrological model
- River low flows