Great Salt Lake showing its major bays and the relative contribution (percentage) of each of the major river  inflows. The white line shows the lake margin at its  average natural elevation of 4,207 feet and the July  2015 NASA photograph shows the lake at near record low levels, exposing half of the lake bed. Photo: NASA

By Laura Bliss
2 March 2016

(CityLab) – The Great Salt Lake is drying up, thanks to 150 years of human diversions from the rivers that feed it. That’s the takeaway of a white paper released by a team of Utah biologists and engineers. And if those diversions continue ramping up, as a bill working its way through the Utah legislature proposes, the waterbody may face a withering fate similar to other dried-up salt lakes around the world.

The namesake of Utah’s capital city, the Great Salt Lake is the the state’s defining geographic feature and one of its economic anchors. A 2012 report by the Great Salt Lake Council estimated that the total economic output of the waterbody at $1.32 billion, between mineral extraction from the lake, brine shrimp egg production (used in aquaculture all over the world), and recreation that takes place in and around it. It also serves as an essential migration flyway for millions of birds each year.  

But the lake, which approached record-low water levels last year, is under threat. According to the Utah researchers’ calculations, since the mid-19th century, consistent reductions from the rivers that feed the lake have caused the lake’s elevation to drop by 11 feet, lose roughly half its volume, increase the lake’s salinity, and expose approximately 50 percent of the lake bed.

Those numbers are unrelated to natural fluctuations over wet and dry periods, including the current drought. Since the lake is a closed basin, the only way water leaves it is through evaporation. That makes it fairly simple to calculate just how much water has been lost to agriculture and urban growth.

A. Water flow in headwater streams of the Great Salt Lake (Blacksmith River gage data; Bear River flow  based on tree-ring reconstructions). B. Estimated consumptive use of water for agriculture, salt ponds, wetlands and cities. C. Observed level of Great Salt Lake (dashed red line). The solid blue line shows a model of lake elevation in the absence of consumptive water uses.  Averaged over the last 10 years, water use has lowered the lake 11 feet and decreased its volume by 48 percent. Graphic: Wurtsbaugh, et al., 2016

Currently, the Utah Senate is debating a bill that would fund a number of water infrastructure projects, including the controversial Bear River Development Project, which would dam and divert more water from one of the Great Salt Lake’s main feeds. Supporters of the project say it’s designed to support the state’s growing population and water consumption needs. But the researchers estimate that the project would lead to an additional 8.5 inch drop in the Great Salt Lake’s elevation, and another 30 square miles of exposed lake bed. [more]

Thanks to Humans, the Great Salt Lake Is Drying Up


  1. Anonymous said...

    "Thanks to humans, the Great Salt Lake is drying up" The Sahara Desert was once lush, whose fault is it that it became a desert? Human's are monsters, but they evolved from the biggest monster of all, nature.  


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