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Too Many 'Straws' Sucking Water Out of the Colorado

Without significantly cuts in demand, there won't be enough water for those promised on the Lower Colorado River.

Tim Barnett is no stranger to water woes in the western US, particularly for states that draw on the Colorado River. He’s called its waters “the life’s blood of today’s modern Southwest society and economy” – an artery that serves roughly 27 million people in the US and Mexico and moistens 3 million acres of farmland.

Without significantly cuts to demand from the river,  the US Bureau of Reclamation will be unable to deliver the amounts of water that states in the Lower Colorado River Basin have been allocated, according to a new study he and colleague David Pierce published this week in the Proceedings of the National Academy of Sciences. Both are scientists at the Scripps Institution of Oceanography in La Jolla, Calif. You can find a plain-English description of their study here.

The shortfall in water deliveries would hold true with or without the general drying effect global warming is expected to have in the region, the duo finds. But the effects would be more pronounced when taking global warming into account.

Unlike past studies on the river, the two have come up with estimates on the magnitude of shortfalls water managers can expect – and when – with or without global warming, and in conjunction with a burgeoning population in the region.

Without global warming in the picture, the scientists estimate that the Bureau of Reclamation would be unable to meet delivery schedules 40 percent of the time by 2050, although the shortfalls would be manageable.

Toss global warming into the mix, however, and the situation worsens.

Other rivers face long-term declines

Nor is the Colorado alone. The Columbia River, China’s  Yellow River, India’s Ganges, and the Niger in Africa all have seen long-term declines in flow, according to a new analysis by scientists at the National Center for Atmospheric Research, in Boulder, Colo., and the College of William and Mary in Virginia. You can download a PDF of the research paper here. A plain-English description is available here.

The analysis, set for publication in the Journal of Climate next month, looks at flow records from 925 of the world’s largest rivers, covering a period from 1948 to 2004. It represents the most comprehensive data base yet assembled to track river flows. Where gaps appear in a river’s records, the team used climate and hydrological models to estimate runoff.

Roughly one-third of the rivers experienced significant changes in flow rates – some up, some down. But the rivers with reduced flow rates outnumbered the ones with higher flow rates by 2.5 to 1.

The team notes that activities such as building dams and expanding irrigation make it hard to use these data for estimating the effects of global warming on river flow. Dam building is perhaps the least of these influences on long-term trends because water still gets released during the course of a year – a factor that tends to get smoothed out when looking at longer-term flow trends.

In the end, climatic events such as the shift from El Ninos to La Ninas and back exert far more influence on runoff than do direct human activities, because of the changes they bring to regional rain and snowfall patterns, the team explains.

Still, the team notes, rivers with reduced flows snake through regions of the globe that have experienced the most pronounced drying over the past several decades. These drying patterns are consistent with projections from global climate models. Meanwhile, regions seeing increased flow generally fall into areas where climate models have projected rising rain and snowfall with global warming.

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