Author: Sarah Stanley

Surprise hydrological shifts imperil water resources

Source(s): Eos - AGU

From 1997 to 2010, southeastern Australia experienced its worst drought on record. The “Millennium” drought severely strained municipal and agricultural water supplies—and despite a return to near-predrought rainfall levels, some of the region’s watersheds have not yet recovered. The extended dry spell delivered two surprises: streamflows that were surprisingly low during the drought, even considering the low rainfall, and a lack of postdrought recovery in streamflows back to predrought norms.

In recent years, similar hydrological shifts have occurred in watersheds across multiple continents, including in California, Chile, and China. Fowler et al. address these unexpected shifts and discuss the implications for future water management and hydrological research.

A major concern the researchers discuss is that climate change could trigger similar surprise shifts in many more watersheds, threatening ecosystems and water supplies worldwide. So far, the magnitude of this risk remains unclear, and more research is needed to determine the underlying causes of these reductions in streamflow. However, existing evidence suggests that these causes are not rare, indicating it could be prudent to plan for such shifts even in watersheds that do not yet show concerning signs.

Because the underlying mechanisms are still unclear, existing hydrological models do not adequately predict future hydrological shifts. A key unknown is whether “shifted” watersheds will recover over the span of current planning horizons. The researchers demonstrate that the resulting uncertainty is comparable in magnitude to other uncertainties inherent in the problem of projecting future streamflows—specifically, uncertainty in their response to climate change.

The researchers call for development of new hydrological models that better predict streamflow shifts associated with droughts and that do not require recalibration as the climate changes.

In the meantime, climate change risk assessment methods could be refined to account for the possibility of unexpectedly low streamflow during and after droughts. In addition, planners and policymakers could implement strategies to boost the resilience of water systems.

CC BY-NC-ND 3.0

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