History of Corps of Engineers
The US Army
Corps of Engineers played a remarkable role in structuring the nation's parks,
lands, waterways, and coastal shorelines. They have also contributed a
significant role in wartime situations.
Currently the
U.S. Army Corp of Engineers is mainly known for its construction and
maintenance of civil engineering structures such as levees, damns, jetties, and
contributions to parks and monuments. But did you know that their contributions
go back to when the United States was in its infancy?
Battlefield Sappers
To quote George
Patton: "Wars may be fought with weapons, but they are won by men!"
During a war,
combat engineers that join the troops in the front line during battle are also
known as sappers. The term “sapper" goes as far as back as 1501 during the
Siege of Rouen, which had occurred during the French wars. After the wars were
over, reformation of the land was also the responsibility of the battlefield
engineers.
In World War
II, this remarkable profession allowed American soldiers to overtake Omaha
Beach on D-Day by providing ordinance called the “M1A1 Bangalore," a
specialized ground tube torpedo that would blast away obstructions like barbed
wire and low embankments to clear a path to allow our troops to make their way
into German territory.
Several
varieties of combat engineers were involved in the battles. For instance,
mechanized combat engineers fell into formation around armored personnel
carriers and were equipped with a variety of heavy and light rifles as well as
demolition ordinance and anti-tank weapons. When moving forward into the
battlefield, they could unleash a tremendous amount of fire power as they
established what was basically a portable minefield
around their position.
Another combat
sapper classification was the wheeled combat engineers. They were basically
arranged and equipped like the combat engineers. The main difference was their
method of transport; it was a five-ton dump truck.
The light
engineers moved on foot. They would carry the same tools and equipment as any
combat soldier as well as their demolition materials. As part of a platoon,
they would move in the same fashion as light infantry with the same firing
and maneuvering techniques as well as close
combat fighting.
Heavy or
topographic engineers were usually equipped with limited weapons. Their job was
to provide geospatial field intelligence such as terrain mapping and analysis.
They did not partake in fire and maneuvering techniques,
but they did participate in close combat attack and movement.
Combat
engineers provide the ability to re-form the battle space by providing enough
room and time for the generation of speed in maneuvers,
while at the same time protecting friendly forces and denying maneuverability to opposing forces.
The Evolution of the Army Corps of Engineers
In the
nineteenth century, the U.S. Government wanted to split the responsibilities of
the US Corp of Engineers between their wartime contributions and their civil
constructions and land-forming activities within the U.S. This other group was
known as the Corp of Topographical Engineers. They were responsible for coastal
structures, as in the manufacture of coastal jetties and piers and mapping out
navigation channels, as well as for charting and mapping the western portions
of the country.
The early
twentieth century found the Army Corp of Engineers to be the most prominent
organization involved in flood control. They soon spread their domain into
civil work projects such as providing hydropower. The dams and reservoirs they
created naturally also fit in as recreational facilities. Responding to natural
disasters also became a major role for the Corp.
In the last
thirty years, priorities have changed. Political decisions and economic
limitations have altered the Army Corps of Engineers role again. From navigation,
flood control, and irrigation, it changed to that of water quality,
environmental preservation, and recreation.
Interestingly,
U.S. citizens had a very high disapproval rate for the first large-scale water
projects done by the Corp of Engineers. People simply did not trust the motives
of the Corps. There had been issues in general where people had questioned
investing federal funds in public projects that might benefit only specific
regions. Were they ever justified?
By the
mid-seventies, the justification for the large water projects was somewhat
obvious. Aging water resource structures such as damns were in dire need of
repair and restructuring. Around 3,000 damns were deemed unsafe, and locks on
rivers were too outdated to handle the then-current shipping methods. (Things
are even worse now. River transportation of goods and people has all but
disappeared in the majority of states.)
The final
outcome of all this was the far-reaching and complex Water Resources
Development Act of 1986. This indicated a major change in the attitude toward
water resource planning. Among other things, it differentiated between
non-essential water projects, federal projects, and essential, but non-federal
projects, as well as established cost-sharing for the participants.
Lake Okeechobee and Lake Okeechobee Waterway
With the
growing concern of water shortages and quality in the state of Florida, the
U.S. Army Corps of Engineers’ involvement in this state is quite significant,
especially in the south Florida area where drought conditions can be prominent
during certain times of the year.
In the central
and southern Florida, with the Florida Flood Control Project comes also the
Lake Okeechobee and Lake Okeechobee Waterway project, which also a part of the
complex waterway system. This project starts off just at the southernmost part
of Orlando all the way through the Kissimmee River Basin, on through to
Everglades National Park, and then finally Florida Bay. This span of land
involving this project covers around 16,000 square acres.
There are five
navigation locks and dams throughout the Lake Okeechobee waterway as well. It
also serves to provide irrigation for surrounding farmlands, drinking water,
recreational activities, and flood control.