Tag Archive: Pleistocene

Bonneville Salt Flats at Dusk – Utah

Bonneville Salt Flats at Dusk - Utah

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The Bonneville Salt Flats are part of the lake bed of Lake Bonneville. Lake Bonneville, the result of cooler temperatures and higher precipitation during the Late Pleistocene, was the largest of four deep water lakes to exist in the Great Basin over the last 800,000 years. At its greatest extent 18,000 years ago, the lake was more than 980 feet deep, and covered over 20,000 square miles, nearly the size of Lake Michigan. While the lake receded from its maximum extent over thousands of years, one particular event, the Bonneville Flood has been documented in the geologic record, when an alluvial dam on Marsh creek, part of the drainage of the Snake River, was finally breached by rising lake levels. This released over the course of a year, more than 1,200 cu mi of water into the Snake River, and lowered the lake more than 430 feet.

The lake was named after Benjamin Louis Eulalie de Bonneville, an officer in the US military, fur trapper, and explorer of the American West. The largest extant remnants of the lake today are the Great Salt Lake, Utah Lake and Sevier Lake.

Bonneville Salt Flats – Natural Wonder – Utah

Bonneville Salt Flats - Natural Wonder - Utah

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Located near Utah’s northwestern border with Nevada, the Bonneville Salt Flats are a geologic remnant of a much wetter time in Utah and the Great Basin. They along with the Great Salt Lake, Sevier Lake, and Utah Lake, were formed by Lake Bonneville, which at its greatest extent was more than 900 ft deep, and covered more than 19,000 square miles. Roughly the size of Lake Michigan. Lake Bonneville existed in one form or other for more than 12 million years, and lasted until 14,500 years ago. Though technically, since the lake has receded and grown dozens of times over its existence, one might be inclined to consider the present just one of those many phases, with the Great Salt Lake the largest remaining component.

One of the most recent causes for the lake’s decline, was the breaking of an earthen dam (created by two converging alluvial fans) at Red Rock Pass, ID. This event led to a massive flood that emptied into the Snake and Columbia Rivers, and made the lake drop more than 300 ft. Ironically this wasn’t the only massive flood the Columbia River would experience during this rapid period of change, as another massive lake, Lake Missoula was undergoing similar cycles of decline and resurgence, as multiple glacial ice dams broke and reformed along the edge of the Pleistocene ice sheets to the north.

Because of the uniform nature of the salt pan that covers the Bonneville Salt Flats it has become a world renowned location for racing high speed vehicles. Some have reached speeds has high as 400 mph.

And for photographers, a section of the salt flats along I-80, offers a natural wonder to behold, especially at sunrise and sunset.  There are really two different photographic opportunities here, and they generally come during different months of the year.  The first which is fairly easy to get, is when the salt flats are dry, and the polygonal salt formation is at its height.  Considering Utah’s climate, most anytime outside of winter will work.

The other opportunity, is to photograph the salt flats in late winter when they are normally covered in water. The combination of lower temperatures, and increased moisture at that time of year tends to raise the salt flat’s shallow water table above the ground surface. The wetter the year, the bigger the window of opportunity, with the best months probably being January and February. As long as you are able to time your visit with windless conditions, it will be a magical experience to behold.

Suggested Reading:

Roadside Geology of Utah – Felicie Williams, Halka Chronic, and Lucy Chronic
On the Trail of the Ice Age Floods: A Geological Field Guide to the Mid-Columbia – Bruce Bjornstad