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United States Geological and Geographical Survey
of the Territories (Hayden). Pikes Peak from Colorado City. Colorado Territory,
August 13, 1869. Public Domain plate from US Geological Survey.
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Visitors travel to Colorado Springs for a number of reason including
visits to Pikes Peak, the US Air Force Academy, Garden of the Gods, or perhaps
some/many of the Olympic venues. Most do
not arrive in the city thinking about the local geology (they want to pick up
that aspect in Rocky Mountain National Park)! However, I always encourage visitors (many
writing to me because of this Blog) to take a road trip from Colorado Springs up
U. S. 24 to Woodland Park and continuing to Florissant, summiting Wilkerson Pass,
and then on to Hartsel located in the majestic South Park (Bayou Salado) and
ending up on Colorado 9 and the small community of Guffy with the nearby 39
Mile Volcanics. Another option is to travel the graveled Old Stagecoach and
Gold Camp Roads to Victor and Cripple Creek and then on the Florissant (see Blogs
06/05/2012; 06/07/2012; 0612/2012; 04/24/2013).
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| Precambrian rocks of the Pikes Peak Batholith exposed at Cathedral Park along Gold Camp Road. |
The western skyline of Greater Colorado
Springs is dominated by rocks of the Pikes Peak Batholith (~1.05 Ga) to the
southwest, including Pikes Peak (14,115 feet) and Cheyenne Mountain (9564 feet
and home of NORAD). To the west is the
Rampart Range with its granitic core extending north almost to Denver. The Ute Pass Fault (generally a thrust)
fronts Cheyenne Mountain and is responsible for faulting the Precambrian
granite to the east, and over Cretaceous rocks.
At Manitou Springs the fault takes a turn to the northwest and heads
towards Woodland Park. U.S. 24, trending
northwest and west from Colorado Springs, is built in the fault zone and
travelers can easily notice the broken rocks of the Pikes Peak granite (this is
actually a generic term since rocks of the Pikes Peak Batholith contain a
number of different granites and pegmatites). North of U.S. 24 the Rampart
Range Fault fronts the eastern flank of this range.
Manitou Springs is a small city
contiguous with, and immediately west of, Colorado Springs. Many tourists consider the city “as sort of
funky” and there are a plethora of “mom and pop” motels, eating places,
historic buildings, and small shops selling a wide variety of merchandise from
black powder rifles, books, souvenirs, tee shirts, to marijuana. It is also home to the Cog Railway that
slowing putters to the summit of Pikes Peak (for visitors who care not to
drive).
Manitou Springs lies right at the base
of the Pikes Peak Batholith and its fault junction with the Paleozoic and
Mesozoic sedimentary rocks. The city
received its name from the many bubbling springs (from CO2) coming
up along broken rocks in the Ute Pass Fault Zone. Thought at one time to be a health benefit,
the springs today are generally capped and diverted into a series of spigots
and fountains. However, one can still
fill drinking bottles for later consumption!
Near the west end of Manitou Springs,
along Fountain Creek, the visitor can observe a very nice unconformable contact,
a great example of a nonconformity. The
Sawatch Sandstone, Cambrian in age (~500 Ma or so), is in contact the
Precambrian granite (~1.05 Ga) and therefore approximately a half billion years of geologic
time is missing. The Sawatch represents
the initial excursion, in the Colorado Springs area, of Paleozoic marine waters
onto the craton (the old and stable part of the North American continent). Geologists
know that the sedimentary Sawatch (near shore marine/beach) was deposited on
top of the Pikes Peak granite, rather than the granite being intruded into the
sandstone. By examining the contact, one
can observe: 1) that the unconsolidated sand (at the time of deposition) of the
Sawatch flowed over the rough spots of the granite before consolidation; 2) the
lack of sandstone alteration that would result from heat generated by an
intrusive granite; 3) that the granite below the sandstone is deeply weathered;
and 4) that small faults in the granite do not extend into the overlying
sandstone. Therefore, the sandstone is
much younger in age than the granite.
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The Precambrian (deeply weathered granite)—Cambrian
(Sawatch Fm.) nonconformity near Manitou Springs. Note the small faults in the granite
terminating at the sandstone, and how the Sawatch sands (at time of deposition)
“flowed over” the irregularities in the granite.
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As one continues west on U. S. 24 the
traveler will notice fantastic road cuts of the Fountain Formation consisting
of red to orange to pink, feldspar-rich, sandstones, shales and mudstones. The formation represents debris shed from the
Ancestral Front Range (Frontrangia) about 290-295 Ma in braided streams and
alluvial fans. This ancestral mountain
building event is termed the Ancestral Rockies Uplift. The Fountain Formation is also well-exposed
in Garden of the Gods, Red Rocks (Morrison) and the Flatirons (Boulder).
In the Colorado Springs area outcrops of
lower and middle Paleozoic rocks above the Sawatch are uncommon and perhaps the
best section is located in Williams Canyon, home of Cave of the Winds, a
popular tourist attraction near Manitou Springs. Visitors may read about the cave on their
website (www.caveofthewinds.com), but in summary Cambrian, Ordovician,
Devonian, Mississippian, and Pennsylvanian rocks are exposed in the canyon, and
accessible by trail. A Disclaimer: the
beginning of the trail is on property owned by Cave of the Winds; therefore,
check with their ticket booth. During my
last hike I simply signed a waiver.
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The Fountain Formation crops out along U. S. 24 west
of Manitou Springs.
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The Pikes Peak granite has experienced
several episodes of erosion totaling tens of millions of years with major events
at the end of the Precambrian into the early Paleozoic, during the Ancestral
Rockies uplift, at the time of the Laramide Orogeny, throughout the major epeirogenic
uplift in the late Tertiary, and continuing into the present. As a result, outcrops are many times deeply
weathered and are covered by“granite gravel” termed grus. In addition, there are numerous examples of
spheroidal weathering, spires, such as the Crags on the west slope of Pikes Peak,
and whimsical objects, such as my favorite, “Frog on a Rock.” Look for it on the north side of U.S. 24
before arriving in Florissant.
Visitors driving U. S. 24 follow the Ute
Pass Fault Zone, and Fountain Creek, to Woodland Park, a small town with a
wonderful museum, the Dinosaur Discovery
Center. At Woodland Park the fault turns
north (travel CO 67 towards Deckers) but perhaps the most interesting aspect of
the local geology is that Paleozoic rocks are preserved in a faulted syncline
north of town, and west of the Rampart Range.
For decades, fossil collectors have pounded on the limestones looking
for Ordovician trilobites.
To the west of CO 67, and the north of
U. S. 24, the traveler may catch a glimpse of a large, distinct conical peak
rising above the general landscape—Signal Butte (see Blog 2/5/2011). From a
geological point of view, Signal Butte is an interesting “oddity” as it exposes
middle Tertiary igneous rocks (~1/4 sq. mile) almost in the center of the
massive Pikes Peak Batholith (~1300 sq. miles) (Tweto, 1979). The Batholith, with exposures of pink
granites and pegmatites, has been intruded (igneous magma cooling below the
surface and within the granite) by gray colored igneous rocks termed a
trachydacite with an Eocene age of 42.5 to 45.2 Ma (Tweto, 1979;
Wilson and Bryant, 2006).
The hike to the summit is well
worth the view, and the rocks are quite interesting.
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Signal
Butte, an igneous intrusive mass of Tertiary age located in the “middle” of the
Precambrian Pikes Peak granite.
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At the town of Divide, a few miles west
of Woodland Park on U. S. 24, CO 67 heads south to the fabled mining towns of
Cripple Creek and Victor. The diggings,
“discovered” in 1890-91 by Bob Womack, created the last major “gold rush”, and
one of the richest, in Colorado. The
gold, associated with rocks located in a volcanic neck complex about 33.3 Ma,
is extremely fine (less than 20 microns in size) and occurs in three principal
forms: 1) native gold with pyrite; 2) native gold associated with telluride minerals
(calaverite, krennerite, sylvanite); or 3) gold-silver tellurides in quartz-fluorite
veins (Vardiman and others, 2005). Today, and since 1976, the Cripple Creek
& Victor Gold Mining Company extracts precious metals and in 2008 produced
250,000 troy ounces of gold! For a bit
of history visitors may tour a historic underground mine, the Mollie
Kathleen. In addition, travelers have an
opportunity to “strike it rich” in the current gold rush, for the Cripple Creek
casinos offer slot machines, blackjack, roulette, craps, and poker!
Continuing west on U. S. 24 the Pikes
Peak granite crops out on both sides of the road and the traveler will get a
fantastic view of the Peak to the south.
Near the town of Florissant the rocks change and shales associated with the
Florissant Formation (near the Eocene-Oligocene boundary) begin to crop
out. The geology of the area is quite
complex but the Formation represents a series of lake beds and volcanics
(associated with the Guffy Volcanic Center to the south) that preserved a
world-class assemblage of fossil plants, insects and fish (plus a variety of
other invertebrates and vertebrates).
Florissant Fossil Beds National Monument was established to protect the assemblage
and visitors should plan on a stop and short hike.
The town of Lake George seems at the
“center” of the hunt for world- famous crystals of amazonite, microcline, smoky
quartz, goethite, and topaz found in the pegmatites and granites (in miarolitic
or gas cavities) of the Precambrian rocks (see Blog 12/24/2013). The local Lake George and Colorado Springs
mineral clubs have members who are quite successful “specimen hunters”. Both clubs also have mineral claims in the
area and many individual members have personal claims. I refer readers to the
blog of Mr. Rockhounding the Rockies at http://rockhoundingkw.blogspot.com.
One of the largest commercial mining
companies is Glacier Peak Mining, a family-operated business owned by Joe
Dorris, of Prospector TV fame. I refer readers to their website (www.pinnacle5minerals.com/) for a
description and photos of a few fantastic specimens.
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Mine dump near summit of Wilkerson Pass.
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Continuing west on U.S. 24, Precambrian
igneous and metamorphic rocks considerably older (~1.7 Ga) than the Pikes Peak granite
begin to crop out as the traveler ascends Wilkerson Pass crossing the Puma
Hills and the Tarryall Mountains. At the
summit of the pass (9507 feet) Tertiary volcanics, with a source from the south,
mostly cover the very top of the granite.
However, numerous mines, with accessible associated roads, may be seen
to the north. The mine dumps seem fairly
safe and expose some beautiful specimens of micacous schist, including layers
of almost pure biotite. Other specimens
of gneiss have books of mica approaching one inch in length. Streaks of green to blue indicate the
presence of copper minerals, and tourmaline was noted; however, neither azurite
nor malachite was located on my most recent trip. Garnets were sparse and although Pearl (1972)
noted the presence of epidote and galena, neither was located. At one abandoned mine, the prospectors were
digging in a very coarse-grained rock where large pieces of rock quartz were
quite evident. As usual, inquire about land
ownership at the U. S. Forest Service office, do not enter shafts, and stay
away from abandoned buildings.
Wilkerson Pass marks the eastern
boundary of South Park, a large Laramide basin and the subject of other blogs: 08/11/2011,
08/20/2011.
REFERENCES CITED
Pearl, R. M., 1972, Colorado Gem Trails
and Mineral Guide: Swallow Press, Athens, Ohio.
Tweto, O., 1979, Geologic Map of
Colorado: U. S. Geological Survey, scale 1:500,000.
Vardiman,
D. M., T.R. Brown, E. Roy, M. Ward, I.P. Hutchinson, 2005, Exploration Geology:
http://www.ccvgoldmining.com.
Wilson, A. B. and Bruce Bryant, 2006,
Isotopic Ages of Rocks in the Northern Front Range, Colorado: U. S. Geological
Survey Open-File Report 2006-1051.