How we're reshaping global water storage

Author

Saima May Sidik

Source(s)
Eos - AGU

Researchers modeled and mapped how eight key aspects of human societies affect hydrological cycles.

Globally, humans use about 4 trillion cubic meters of fresh water each year for everything from crop irrigation to cooling manufacturing equipment to generating electricity. In a recent study, Kåresdotter et al. modeled how our unquenchable demand for water affects four hydrological variables: runoffevapotranspirationsoil moisture, and total water storage.

The researchers considered human water use with respect to eight objects and processes: interbasin transfers (systems that move water between river basins), dams, reservoirs, impervious surfaces such as roads, domestic and industrial water demand, livestock water demand, irrigated agriculture, and water “mining” (extracting groundwater for irrigation). They found that these eight factors alter all four hydrological variables, but different areas of the world experience different directions and magnitudes of change.

In tropical and temperate regions, for example, human activity increases water runoff and evapotranspiration, leading the researchers to conclude that humans dramatically influence the amount of water stored in Earth in these regions. On the other hand, humans have a relatively small impact on hydrological cycles in dry areas such as central and West Africa. The researchers conclude that although human activity increases surface water storage somewhat in many parts of the world—a finding at odds with some previous work—this activity is decreasing overall global water storage, with the largest decreases occurring in tropical regions.

Population levels and dams emerged in the study as two factors with outsized influence on hydrology. Not all dams affected the same hydrological parameters, however. The researchers found that hydroelectric dams primarily increase Earth’s total water storage, whereas irrigation dams primarily increase soil moisture.

The work comes with a caveat: The authors assumed the climate would remain the same if human influences were removed, possibly explaining the discrepancy between their results and others’. Future work could assess the validity of this assumption and perhaps incorporate human-induced climate variation into models. The researchers say they hope their work provides a step toward sustainable water management planning.

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