By Published: March 4, 2024

If you鈥檝e driven the mostly flat stretch of I-25 in Colorado from Pueblo to Trinidad, you鈥檝e seen them: the Spanish Peaks, twin mountains that soar into the sky out of nowhere, reaching altitudes of 13,628 and 12,701 feet above sea level.

In a new study, geologists from CU听Boulder have laid out a timeline for the emergence of these majestic but isolated mountains. The team鈥檚 findings could bring scientists closer to answering one of the most enduring puzzles in Colorado geology: What made Denver, the Mile High City, a mile high?

鈥淔or geologists, the big question is: Why are Colorado鈥檚 High Plains so high?鈥 said Sabrina Kainz, who led the research as an undergraduate student studying geology at 精品SM在线影片.

The group March 1听in the scientific journal Lithosphere.

Colorado鈥檚 craggy, snow-capped Rocky Mountains attract听tourists and more. But for researchers like Kainz and 精品SM在线影片 geologist Lon Abbott, the High Plains that extend over much of eastern Colorado鈥攖he territory of tumbleweeds and prairie dogs鈥攎ay be even more interesting.

Sabrina Kainz holds up a map while standing on a rocky overlook

Sabrina Kainz on an expedition to collect rock samples. (Credit: Lon Abbott)

A cross made from metal wires sticks out from a pile of rocks on top of a mountain

View from Colorado's Wet Mountains looking south toward the Spanish Peaks in the distance. (Credit: Sabrina Kainz)

Black and white image of dozens of men gathered in front of tents

Striking coal miners gather in front of the Ludlow tent site in 1914. (Credit:听Western History/Genealogy Department, Denver Public Library)

Abbott explained that the world鈥檚 highest places tend to be that way because of squishing and squeezing from tectonic plates鈥攇iant pieces of Earth鈥檚 crust that slam together, crumpling up land masses and raising entire mountain ranges. But Colorado鈥檚 High Plains, which are dominated by sedimentary rocks, aren鈥檛 crumpled at all. They鈥檙e one tall, flat stack of geological pancakes.

鈥淭he Colorado High Plains are anomalous, really, in the entire world,鈥 said Abbott, co-author of the study and teaching professor in the Department of Geological Sciences. 鈥淭hey鈥檙e not formed the way that mountains are typically formed.鈥

To get nearer to solving the mystery of the plains, the researchers collected and analyzed rocks from the Spanish Peaks east to Two Buttes, a geologic formation near the Kansas border.听

They found that the rocks forming the Spanish Peaks injected into the crust below Colorado as magma around 24 million years ago, but remained miles underground until about 17 million years ago. What happened to bring them to the surface remains a mystery.

鈥淲e can answer when the plains around the Spanish Peaks got so high,鈥 Kainz said. 鈥淭he 鈥榳hy鈥 of the matter is a little more complicated.鈥

Colorado landmark

The Spanish Peaks have long been an important monument for generations of people who have called southern Colorado home.

The indigenous Comanche people referred to these formations as 鈥淲ahatoya,鈥 which means 鈥淒ouble Mountain.鈥 In the early 1800s, travelers following the Santa Fe Trail, which joined Missouri to what is now the southwestern U.S., formerly the northern reaches of New Spain听and then Mexico, used the peaks as a landmark.

鈥淭hey would spend weeks and weeks traveling in their wagons on the plains,鈥 said Abbott, whose book 鈥溾 is a primer for the state鈥檚 rockhounds. 鈥淭hen, all of a sudden, they'd see those mountains, and they knew they were getting close.鈥

In 1913, hundreds of coal miners striking against the Colorado Fuel and Iron Company not far from the mountains鈥攁 prelude to the , which remains among the nation鈥檚 deadliest labor disputes.

The peaks have always been a bit mysterious. They are as tall as many of the Rocky Mountain summits to the west, but the Spanish Peaks formed at a different time and from completely different rocks.

For Kainz, now a doctoral student at the University of Washington in Seattle, getting to study those features as an undergrad was a dream come true. She began the project at the height of the COVID pandemic in 2020, and spent hours crammed into cars with dozens of rock samples.

The team included Rebecca Flowers, professor of geological sciences; undergraduate geology student Skye Fernandez;听James Metcalf, manager of the Thermochronology Research and Instrumentation Laboratory (TRaIL); and Aidan Olsson, then a student at Fairview High School in Boulder now studying biology at 精品SM在线影片.

The project hinged on an approach called thermochronology. Kainz noted that small chemical changes in the crystals within many rocks can give geologists clues about how hot or cold those samples were millions of years ago. Rocks buried deep below the Earth tend to be hotter than those closer to the surface.

More than a mile high

According to the team鈥檚 results, the Spanish Peaks first formed when magma welled up from deep within Earth鈥檚 crust but didn鈥檛 quite break through to the surface.

Then, something happened. In a very short span of time, geologically-speaking, huge tracts of land in southeastern Colorado vanished. Between roughly 18 and 14 million years ago, more than a mile of sedimentary rocks around the Spanish Peaks eroded away, then were swept into the Arkansas River.

The researchers suspect that as-of-yet-unidentified geologic forces were pushing up southeastern Colorado from below鈥攅xposing previously underground rocks to rain and flowing water.听

Abbott and his colleagues are now exploring how this disturbance may have fit into the broader evolution of Colorado鈥檚 plains. Their preliminary data, for example, suggests that the flat lands around what is now Denver may not have experienced similar upheaval at the same time.

But the study makes one thing clear: Colorado鈥檚 High Plains have long been something to behold.

鈥淎s high as the High Plains are today, they used to be a lot higher,鈥 Kainz said. 鈥淭hey were as high as the Rocky Mountains are today.鈥