Next to
winning the Civil War and abolishing slavery, building the first
transcontinental railroad, from Omaha, Nebraska, to Sacramento, California, was
the greatest achievement of the American people in the nineteenth century. Stephen
Ambrose
The Union Pacific depot at Tescott, Kansas ca.
1950. The passenger train or Doodlebug made
its last stop on 1 June 1958. Photo
courtesy of Rolling Hills Wildlife Adventure.
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I have been fascinated with railroads since my
childhood days in Kansas. As a youngster
I was a regular visitor to the local train depot and spent long
periods of time watching the telegrapher and trying to learn Morse Code
(unsuccessful). Most warm days I would
walk down to the tracks and watch the Doodlebug (Jitney) come to town. This piece of history was an interesting two
car train with the front car devoted to the diesel engine and passenger
compartment (a Pullman motor car) while the second car carried mail, cream cans
and other odd bits of freight. This
train, The Salina, Western and Lincoln Railroad (later purchased by Union
Pacific) operated as the Plainville Short
Line going east in the morning to the larger town of Salina and returning in
the afternoon heading west to its night stop.
So, one could pay a small fee and ride to the city of Salina, do some
shopping/buying and return home in the late afternoon. The morning train carried the cream cans to a
creamery in Salina while the afternoon train delivered mail from a regional
post office. This was an interesting
situation since one could receive two first class mail deliveries in the same
day as the morning mail came by truck. I
also fooled around catching the daily freight train for a few blocks before
jumping off as the speed increased.
Sometimes I rode it a little further and bailed off at a fishing
hole! While in the 6th grade
my parents let me take my first solo trip to Kansas City to watch the major
league baseball game. We got off at
Union Station in Kansas City and took a bus to the old Municipal Stadium and
watched the Athletics (before they moved to Oakland, CA). I shudder today at the thought of putting a
12 year old kid on the train. But, I
survived, and times were different.
As an adult I became interested in passenger trains
and have ridden Amtrak all over the U. S.
I also began reading about the history of railroading and became fascinated
with the first train to span our country—the Transcontinental Railroad. As a geology student I soon begin to realize
that rocks and hills and rivers, the landforms of this country, dictated the
routes of the early railroads. The most
fascinating route of all was the “Gangplank” in southeastern Wyoming. This winter my mind became refocused on the
feature, probably because I finished reading, for the second time, Stephen
Ambrose’s great book about the transcontinental railroad, Nothing Like it in the World.
This tome is a wonderful description of how “geology” dictated the route
of a major technological feat that linked the U. S. East with the U. S. West. With the railway construction companies being
paid by the mile of track laid, the book is an explanation of how the Union
Pacific zoomed across the flat plains west of Omaha while the Central Pacific
struggled going east across the Sierra Nevada Mountains. But there is one little piece of information
that is off extreme interest to geologists, and that is the September 1865 pronouncement
of Grenville Dodge, of the Union Pacific, that he had found a route to cross the
Black Hills (the area that is now known as the Laramie Range in southeastern
Wyoming). What Dodge described was a
solution to the first major topographical problem that the Union Pacific
experienced—how to get over this front range of the mighty Rocky Mountains? The idea of a U. S. railroad linking the Atlantic to
the Pacific had been debated by Congress for many years, probably at least
since the 1830’s as Manifest Destiny was in full bloom. However, then as now, senators and
representatives wanted the best for their districts and states so continued to
debate and propose routes. Finally, in
1853 Congress gave the task of completing a number of railroad surveys to the U.
S. Army Corps of Topographical Engineers with the results being presented back
to Congress for a final decision. Secretary
of War Jefferson Davis (yes, that Jefferson Davis) assigned the Corps to
investigate five routes: the Northern route (Lake Superior-Puget
Sound). under the direction of Isaac Stevens, recently appointed territorial
governor of Washington; the 38th-39th parallel route (St. Louis-West Coast)
headed by Capt. John Gunnison (who was killed by Indians in western Colorado in
June 1853. the expedition taken over by Lt. Edward G. Beckwith who completed
the survey by following the 41st parallel; the 35th parallel route (Little
Rock-Los Angeles), commanded by Lt. A. W. Whipple; and the 32nd parallel route
explored from the west by Lt. John Parke and from the East by Capt. John Pope
(Roberts, 2011).
The construction of the railroad was delayed for
several years due to other impending problems of the Nation—the American Civil
War. But, as soon as hostilities ended
the building begin, often using recently unemployed soldiers. The starting--ending points of the railroad
had been determined: Sacramento in the
west and Council Bluffs/Omaha on the east.
However, the surveyors were still somewhat undecided as to exact
routes. At first, the Union Pacific favored
following the old Oregon Trail north around the Laramie Range, up the
Sweetwater River to South Pass (the easiest place to cross the Continental
Divide), and then on to Utah via Fort Bridger.
But, and this is a critical but, this Oregon Trail Route was almost
barren of coal until near Salt Lake City.
Wagon Trains on the Oregon Trail traveled by horses/oxen and needed
forage for fuel; trains were fueled by coal.
Therefore, proximity to coal reserves was an important consideration for
any route. Slightly south of the Oregon Trail route was a stage
route, established by Ben Holliday, sometimes referred to as the Overland Trail.
This route seemed like a good alternative since coal was more readily available
in southern Wyoming. However, there was
a big problem with this proposal since the railroad would need to ascend and
summit the Laramie Range, the initial front range of the Rocky Mountains. I have written many times before about the Laramide
Orogeny, that mighty tectonic event (Cretaceous into the Eocene) that created
the diverse ranges of the Rocky Mountains from Utah east to the Black Hills
(the “real” ones in South Dakota) and from Canada to Mexico. The numerous ranges appeared at different
times and involved both vertical uplift (often in the form of large anticlines)
and faulting. I once heard a talk by
Wyoming Geologist Laureate David Love where he likened these uplifts to a bunch
of hogs waking up under a blanket!
However, nature dictates that everything that goes up (orogeny) must
come down (erosion) and that is what happened in the Rockies. By the late
Eocene and Oligocene the tectonic uplift had stopped and the mountains had
generally been worn down and were being buried in their own debris. Adding to the sediment load was a vast amount
of wind-blown volcanic ash coming in from the northwest. Well-known formations such as the White River
Group, so well-exposed in the Badlands of South Dakota, represent stream
sediments shed far to the east of the mountains. By the Miocene only a few mountain ranges in
Wyoming projected above the sediment fill and by about five million
years ago (end of the Miocene) a vast alluvial, sloping plain extended from the
low mountain fronts eastward to at least the Missouri River (current location);
we know these rocks as the Ogallala Formation. Later, during the Pliocene,
something in the earth’s crust triggered a widespread and strong uplift of the
entire Rocky Mountain region. Geologists
term this as an epeirogeny—broad uplift of an entire region as opposed to “sharp”
uplift, an orogeny. When this happened
streams begin to flow eastward off the mountains and the sediments were
stripped off the interior basins, the mountains, and the plains to the east,
especially in the areas nearest the mountains. The modern river drainage of the Rocky
Mountains and Great Plains were becoming established.
Today, the Laramie Range, a northern extension of the Colorado Front Range, extends from the Colorado—Wyoming state line north and west to near Casper, Wyoming. East of the mountains is a section of the Great Plains termed the Cheyenne/Denver Basin with Tertiary rocks exposed at the surface. The Paleozoic and Mesozoic rocks, mostly in the subsurface in the Basin, are upturned and eroded as they meet the Precambrian granite of the Range. The Laramie Range, with Laramie Peak at 10,272 feet, is approximately 3000 feet higher than the rocks of the Great Plains. So, if the Union Pacific Railroad was to ascend the
Laramie Range, the challenge would be to establish a route with minimal grade,
minimal fill work, and a minimum number of trestles. That route, later named the Gangplank, seemed
unknown to non-Native Americans as the railroad began their westward push. A U. S. Army Corps of Topographical Engineers
project, led by Major Howard Stansbury, studied Great Salt Lake in 1849-51 (Exploration
and survey of the valley of the Great Salt Lake of Utah, including a reconnaissance
of a new route through the Rocky Mountains) and returned to the east via
southern Wyoming and “missed” the Gangplank, although their route generally
followed what was later known as the Overland Trail. U. S. Army soldiers stationed at Camp Walback
(Ostresh, 2011), a post created in 1858 to protect wagon trains crossing Cheyenne
Pass on the Overland Trail, was only a few miles north of the Gangplank but no
mention was made of this feature. Nor
did teamsters and travelers on the nearby Denver-Fort Laramie Trail comment on
the feature. Ostresh (2011) summed up
these “missed” opportunities by stating that “while people intent on building a
railroad over the Black Hills [Laramie Range] had seen the Gangplank for a
period of 15 years, Dodge was the first to connect the dots and realize the
potential as a rail route”.
What is the Gangplank? Essentially it is a piece of the Ogallala
Formation that escaped erosion along the mountain front and actually extends
from the Great Plains up to the summit of the granite core of the Laramie Range. In my college geomorphology
class we were told that the Gangplank is the only place along the entire Rocky
Mountain Front, from Canada to Mexico, where a traveler could simply walk up a
slope from the plains to a mountain summit.
As a comparison for CSMS readers in Colorado Springs, think of the Colorado
Piedmont Province east of the city. This area is quite hilly and eroded eastward to
Limon while the Rampart Range front west of the city is impressive and
forbidding. If the Colorado Piedmont were
similar to the Gangplank, a gentle slope of Ogallala Formation, currently
exposed at Limon but absent in the Piedmont, would gently ascend to the summit
of the Rampart Range! So, Grenville Dodge traveling east and south from a
foray into the Powder River Basin made a detour to explore the land near Crow
Creek and Lone Tree Creek (west of current Cheyenne). Surprised, and harassed (although it may have
been Dodge doing the harassing), by a group of American Indians, Dodge and his
exploratory crew dismounted and begin to walk east toward the larger remainder
of his group. Expecting to travel down
the escarpment off the Laramie Range, Dodge instead found a slope that “led
down to the plains without a break. I
then said to my guide that if we saved our scalps I believed we had found the
crossing” (Dodge, 1910). The rest, as they say, is history as the Union Pacific
passed through Cheyenne in September 1867, crested the Laramie Range at Sherman
Pass (at 8640 feet, the highest point above sea level on the railroad) and reached
Laramie in May 1868. The building of the
first transcontinental railroad has often been hailed as the major engineering
feat in U. S. history. However, few
people know that an accidental erosional remnant helped pave the way for completion
of this massive project.
And finally, current visitors to I-80 during the winter months most likely experienced high winds and lots of drifting snow in the section west of Laramie. According to local legend the area ranchers advised the Interstate planners to detour north around the Snowy Range and follow the route of the Union Pacific. However, the “people from back east” plowed straight ahead and through the Range and therefore, for the foreseeable future, the highway will suffer the effects of expensive winter maintenance. The railroad planners did know something about mountains, road grades, and winter snows. When the
track got beyond Laramie, Congress removed Wyoming from Dakota Territory and
gave it territorial status of its own
[It became a state in 1890, the 44th state]. At the beginning of 1877 Wyoming had fewer than a thousand white
inhabitants; by early 1878, thanks to the railroad, it was estimated to have
forty thousand white people [the population today (2015 census is ~ 586,000—total]. Stephen Ambrose.
The western railroad surveys completed in the 1850’s by the U. S. Army Corps of Topographical Engineers. From Ostresh, 2011. |
Today, the Laramie Range, a northern extension of the Colorado Front Range, extends from the Colorado—Wyoming state line north and west to near Casper, Wyoming. East of the mountains is a section of the Great Plains termed the Cheyenne/Denver Basin with Tertiary rocks exposed at the surface. The Paleozoic and Mesozoic rocks, mostly in the subsurface in the Basin, are upturned and eroded as they meet the Precambrian granite of the Range. The Laramie Range, with Laramie Peak at 10,272 feet, is approximately 3000 feet higher than the rocks of the Great Plains.
Sketch
showing relationship of the Gangplank (Ogallala Formation) to the Laramie
Range. Adapted from Ostresh, 2011.
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And finally, current visitors to I-80 during the winter months most likely experienced high winds and lots of drifting snow in the section west of Laramie. According to local legend the area ranchers advised the Interstate planners to detour north around the Snowy Range and follow the route of the Union Pacific. However, the “people from back east” plowed straight ahead and through the Range and therefore, for the foreseeable future, the highway will suffer the effects of expensive winter maintenance. The railroad planners did know something about mountains, road grades, and winter snows.
REFERENCES
CITED
Dodge, G. M., 1910, How we Built the Union Pacific
Railway and Other Railway Papers and Addresses: unknown publisher.
Ostresh, L., 2011, The Mystery of the Gangplank: http://picasaweb.google.com/LarryOstresh/MysteryOfTheGangplank#slideshow/5441970535271957106