Northeastern Arizona showing the extent of the Bidahochi lake beds in relation to the Grand Canyon and to contours of modern topography. CREDIT: William Dickinson

Content provided by Becky Oskin, OurAmazingPlanet

Could the origins of the Grand Canyon lie in an enormous flood?

The answer is no, says geologist Bill Dickinson, an emeritus professor of geology at the University of Arizona in Tucson.

Tracing the history of the Grand Canyon is controversial. The deep

gorge exposes a billion years of Earth history in its candy-colored

cliffs, but geologists can't agree when it formed, or exactly how.

PHOTOS: DNews Fans Favorite Campsites

Dickinson hopes at least to lay to rest one hypothesis: That an ancient

lake carved the canyon through a cascading series of waterfalls. A

favored concept for two decades, "I don't think it's a valid story, and

my main purpose is to dismantle it," Dickinson said of his new study,

published Dec. 13 in the journal Geosphere.

Here's the gist of the idea: A giant lake covering eastern Arizona ate

through a limestone ridge called the Kaibab uplift, near the eastern end

of the present-day Grand Canyon. A torrent of water spilled through the

crack, cutting the canyon we see today. The Colorado River then followed the new course that was set.

No lake, no flood

The lake in question, called Hopi Lake or Lake Bidahochi, stretched

approximately 112 miles (180 kilometers) across Arizona and New Mexico, a

length equivalent to Utah's Great Salt Lake. The sediments left behind

sit atop a great unconformity, a missing period of geologic time, with

the 8-million-year-old lake silt blanketing the 225-million-year-old

pink mudstone that forms the Painted Desert. (Grand Canyon in Pictures)

Called the Bidahochi Formation, the rocks are evidence of a shallow,

ephemeral playa lake, not a deep basin large enough to buzz saw its way

through the Grand Canyon, Dickinson argues.

"There's no evidence from sedimentology that it was ever a deep lake. It was a hardly a deep playa," Dickinson told OurAmazingPlanet.

Other researchers who have carefully re-analyzed the sediments have

also found the lake was not there as long as previously thought, said

Richard Young, a geology professor at the State University of New York

in Geneseo. "There's no way the lake could have been there for 20 (million) or 10 million years," he told OurAmazingPlanet.

Plus, there's the problem of the Kaibab uplift, a pinch in the Colorado

Plateau where the rocks swell up due to underground folding. Sitting

near the head of the Grand Canyon, the Kaibab uplift is a 650-foot

(250-meter) barrier that any prehistoric lake or river must have carved

through before dropping down into the future gorge. The preserved lake

beds show water levels were never high enough to cross the uplift,

Dickinson said.

VIDEO: A recently discovered dinosaur could unearth clues on the early days of dinosaur evolution.

NEWS: New Clues Date Grand Canyon to Dino Days

Whence the Colorado River?

Knocking down Hopi Lake leaves a major puzzle: What was the course of the Colorado River before the Grand Canyon deepened? Some geologists think the early Colorado River flowed south into the lake.

Dickinson suggests the ancestral Colorado River

crossed northern Arizona, flowing northwest across the plateau. It

exited the state through the Virgin River drainage, where Utah, Arizona

and Nevada meet. "It joined the Virgin River or it may have been the

main water through the Virgin River," Dickinson said.

Part of the challenge of solving the Grand Canyon's history

is that so much has changed in the ensuing millions of years: climate

was different then, the topography has changed dramatically, and

tectonic forces continue to reshape the plateau.

"There is undoubtedly a true history of how Grand Canyon evolved into

what we see today," said Karl Karlstrom, a geology professor at the

University of New Mexico in Albuquerque, who was not involved in

Dickinson's new study. "The present Grand Canyon is made up of sections

each with somewhat different ages and histories. Prior to 6 million

years ago, there were paleorivers and paleocanyons whose flow direction

and geometry is rapidly getting figured out by the geologic community."

For example, Dickinson points out that the deep canyons and tall

mountains that feed today's powerful Colorado River didn't exist 10

million years ago.

NEWS: Grand Canyon Flood Underway to Rebuild Beaches

"One of the hardest things to hindcast is to know how big a river

you're looking for in Grand Canyon country," he said. "What was the

river like up in Utah? I hope that if people would just abandon the Hope

Lake spillover game, their thoughts would lead them on to worrying

about Utah."

More from OurAmazingPlanet:

  • Grand Canyon: Take a Hike Through Geological Time

  • Infographic: Tallest Mountain to Deepest Ocean Trench

  • Video: Virtual Tour of Grand Canyon

Copyright 2012 OurAmazingPlanet, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.