One of my favorite highways is U. S. 287
heading north out of Ft. Collins, Colorado, toward Laramie, Wyoming, and passing
through some very interesting geology. Most
of the early going is in a variety of marine Cretaceous formations deposited in
the great Western Interior Seaway. Near
Teds Place the highway breeches the Dakota Hogback, a well-know feature along
the Front Range, and moves to older rocks. About 17 miles north of Ft. Collins
the Permian Lykins Formation (and others) crops out exposing extensive beds of
gypsum. Rocks of the Lykins represent deposition
in the final stages of the end-of-Paleozoic seaway, including evaporitic rocks
such as gypsum.
 |
|
Google Earth© image of area near Teds Place. CO 14 turns west off U.S. 287 crossing Quaternary
sediments and poorly exposed Permian, Triassic and Jurassic rocks, hits the
Precambrian schist and gneiss and heads west up the Cache la Poudre River
Canyon. Note how the canyon narrows as
the highway and river meet the Precambrian rocks.
|
The Owl Canyon Road (Larimer Co 72
running east) cuts through the Lykins and rockhounds will be able to examine
road cuts and collect alabaster, satin spar and selenite. The alabaster is of high quality and has been
used by “rock carvers” since the late 1800’s.
Today, a company called Colorado Alabaster Company in Fort Collins
markets the raw rock on a world-wide basis.
 |
Colorado Alabaster Company (courtesy photos)
quarries stone from north of Fort Collins and markets the raw material (quarry
to right) to a variety of artists (lathe-turned urn to left) and schools (for art projects).
One of the more interesting crystals
available among the alabaster outcrops are the misnamed “Indian Dollars.” Aragonite and calcite have the same chemical
composition [CaCo3]; however, calcite forms in the Hexagonal crystal
system and aragonite is Orthorhombic---so they are polymorphous minerals. Most aragonite crystals are acicular, maybe
chisel-like, in shape. But, the hexagonal
“Indian Dollars” commonly sold as aragonite are another story! Actually these “Dollars” are twinned crystals
(three individuals) that form trillings that look like hexagonal crystals. The kicker is that calcite has replaced the original
aragonite in the “Dollars.”
 | |
|
“Indian Dollars” are actually calcite pseudomorphs after
twinned (trilling) crystals of aragonite. Width ~4 cm.
|
After
leaving the Owl Canyon Road, U. S. 287 traverses the Permian-Pennsylvanian
Fountain Formation until reaching the small community of Livermore. The road then cuts through an unnamed
anticline (older Permian Owl Canyon and Ingleside formations exposed) before
picking up the Fountain again about two miles from Livermore. The Fountain is a hodgepodge of arkosic (rich
in feldspar) sandstone and conglomerate, and reddish-brown siltstone and shale
shed off the rising Ancestral Rocky Mountains to the immediate west.
 |
Google Earth© image of the
Livermore area. Note the difference in
topography along the North Livermore Fault.
Farm land on the Paleozoic rocks change to the rugged topography of the
Precambrian rocks.
|
The big change in geology happens in another mile and one-half where the highway crosses the North Livermore Fault! Travelers can easily notice the change from the Fountain arkose to the Precambrian (1.7 Ga event) gneiss and schist. This is a great place to observe a fault contact of major proportions (for a map see Braddock, W.A. and Connor, J.J., 1988).
Approximately 10 miles north of Livermore,
on the east side of the road, is a local landmark called Steamboat Rock. The entire structure is due to erosion of the
Fountain Formation (I think) although the area is mapped as Ingleside
Formation-Fountain Formation (Braddock, W.A. and Cole, J.C., 1978).
 |
|
Steamboat Rock exposing rocks of the Fountain
Formation (I think). Stream in the
foreground exposes Precambrian rocks.
The unconformity between the Fountain and the Precambrian is due to the
late Paleozoic mountain building event termed the Ancestral Rockies
Orogeny. Paleozoic rocks older than the
Fountain were eroded away during the uplift. The Fountain represents debris shed off the
mountains.
|
The road continues on to Laramie and the
stretch in Colorado, shortly after Steamboat Rock, traverses through the
Precambrian Sherman Granite (~1.4 Ga).
This unit was intruded into the older ~1.7 Ga metamorphic schists and
gneisses. A really interesting geological feature called the Virginia Dale Ring
Complex is exposed near the community with the same name (about four miles
south of the state line). The complex is
circular and approximately nine miles in diameter, and inserted into the base
rock Sherman Granite. The “rings” are
composed of granite and quartz monzonite (intrusive igneous rocks rich in the
feldspar, plagioclase). Some early
geologists thought the complex was some sort of an impact structure; however, geologists
now believe the ring rocks were emplaced into older ring fractures (Eggler,
1968).
 |
|
Digital satellite image looking
north at Virgina Dale Ring Complex, northern Larimer County, Colorado. Image by permission Dr. William Bowen.
|
For a history buff like me, Virginia
Dale is also known as a stage stop (1862-67) on the Overland Trail Stage
Line. The first station agent was sort
of a “desperado” by the name of Jack Slade (who ended up at the end of a hanging
rope in Virginia City, Montana, in 1864). The Colorado city of Julesburg was named after
Jules Beni whom Slade shot and killed in 1860.
And, in his novel Roughing It,
the famous writer Mark Twain described Slade. There
was such magic in that name, SLADE! Day or night, now, I stood always ready to
drop any subject in hand, to listen to something new about Slade and his
ghastly exploits. Even before we got to
Overland City, we had begun to hear about Slade and his "division"
(for he was a "division-agent") on the Overland; and from the hour we
had left Overland City we had heard drivers and conductors talk about only
three things -- "Californy," the Nevada silver mines, and this
desperado Slade.
REFERENCES CITED
Braddock,
W.A. and J. C. Cole, 1978, Preliminary Geologic Map of the Greeley 1 degree x 2
Degree Quadrangle, Colorado and Wyoming: U.S. Geological Survey, Open-File
Report OF-78-532, scale 1:250000.
Braddock, W.A., D. D. Wohlford, and J. J. Connor, 1988,
Geologic Map of the Livermore Quadrangle, Larimer
County, Colorado: U.S. Geological Survey Quadrangle
Map 1618.
Eggler, D.H., 1968, Virginia Dale Precambrian Ring-dike
Complex, Colorado-Wyoming: Geological Society of America,
v. 79.