GILSONITE VEIN NEAR BONANZA, UTAH |
One of the
major subdivisions of the northern Colorado Plateaus is the Uinta Basin, a
large basin associated with the Sevier/Laramide (Cretaceous & early
Tertiary) Orogeny and located in eastern Utah south of the Uinta Mountains. The Basin is a structural basin, as opposed
to a topographic basin, meaning that it is a very large syncline, and a
compliment to the anticlinal Uinta Mountains.
The structure is related to the Piceance Basin of northwestern Colorado,
and the Fossil and Green River Basins north of the Mountains in Wyoming. The rocks in the Basin are an interesting
sequence of latest Paleocene (~58 my) to early Oligocene (~28my) basin-fill
sediments consisting of, in ascending order, the Colton Formation (stream and
flood plain deposits), the Green River Formation (Lake Uinta, part of a large
fresh water lake system), the Uinta Formation (lake edge and lake filling
sediments), and the Duchesne River Formation (stream and flood plain sediments
on top of the lake sediments.
The Basin is
well-known for its production of oil and gas, as well as for interesting examples
of solid hydrocarbons--kerogen-rich mudstone (oil shale) and bitumen-impregnated
sandstone (tar sands). But perhaps the
most interesting hydrocarbon in the Basin is one that a few years ago
(pre-1995) would not be classified as a ”mineral” and that is Uintaite,
referred to in this article as the trade name Gilsonite. In 1995 the International Mineralogical
Association adopted a new definition of a mineral as “an element or chemical
compound that is normally crystalline and that has been formed as a result of
geological processes” (Nickel, 1995). This definition opened the way for an organic
class of substances that included hydrocarbons of which Gilsonite is a
member. Gilsonite is a solid hydrocarbon
that comes from the solidification of petroleum. It is usually a dull black in the field and
resembles coal; however, some fresh surfaces are quite shiny with a conchoidal
fracture and superficially looks a little like obsidian.
Gilsonite
in the Uinta Basin occurs in long veins (measured in miles) from a few inches
to several feet thick and hundreds of feet in a vertical direction. Most thick veins occur in the Green River and
Uinta Formations, both units are Eocene in age.
In fact, the veins seem “rooted” in the oil shales of the Green River
Formation. Tripp (2004) believes the
Gilsonite had its beginning in the large amounts of organic debris that
accumulated in the sediments of tropical Lake Uinta. The burial of these sediments created heat
and pressure and the Green River oil shales were formed. Again, burial of the oil shales created water
and hydrogen and this explosive mixture was expelled and created fractures in
the surrounding rock. These fractures
were later filled with petroleum whose viscosity disappeared with desiccation. Gilsonite is essentially solid “oil”.
ABANDONED ELEVATOR IN GILSONITE VEIN |
The Uintah
also hauled passengers, freight, mail and livestock but was abandoned in 1939. Perhaps its best known cargo---the Dinosaur
bones Earl Douglas quarried from what is now Dinosaur National Monument but were
then shipped to the Carnegie Museum in Pittsburg. Today a few grades remain and I have done
some hiking along the railway route. In
the 1970’s spikes associated with the tracks were common; today, rare.
TIMBERS SHORING UP OLD GILSONITE VEIN |
And, for a special treat, check out the video of the railroad at:
http://www.youtube.com/watch?v=x7IkujWEpm8
REFERENCES CITED
Burton, D.
K. 1996, A History of Uintah County:
Scratching the Surface in Utah Centennial County History Series:
Salt Lake City: Utah State Historical Society, Salt Lake City.
Nickel, E.
H., 1995, The Definition of a Mineral: The Canadian Mineralogist, v. 33, no. 3.
The Uintah
Railway, 2009: http://home.bresnan.net/~bpratt15/
Tripp, B. T., 2004, Gilsonite, an Unusual Utah Resource:
Utah Geological Survey Notes, v. 36, no. 3.