Why Building the Panama Canal Today is IMPOSSIBLE

Why Building the Panama Canal Today is IMPOSSIBLE

The Panama Canal, now considered one of 
the seven wonders of the modern world,  
was once the site of one of the world’s 
greatest roadblocks in engineering history.  
In its long journey to construction, it 
took the lives of tens of thousands of  
workers. We all know the canal as a site of 
smooth transitions from the Atlantic to the  
Pacific and vice versa, but the land it 
crosses carries a dark, deadly history.
The Central American Isthmus separates the 
Atlantic and Pacific oceans but connects  
North and South America. At its narrowest 
point, only 50 miles of mountainous jungle and  
swamp separates east from west. Everyday, 
up to 32 ships cross the Panama Canal,  
avoiding a lengthy trip around Cape Horn in Chile– 
but each ship that passes through floats on the  
blood, sweat and tears of those who braved the 
equator’s unrelenting heat to build the canal.
Breaking up two continents is no easy feat. 
In some ways, constructing the Panama Canal  
was like building a waterlogged great wall. The 
construction of China’s Great Wall is estimated  
to have claimed the lives of over 400,000 people. 
But things would be different with the Panama  
Canal. Millennia have passed and machines have 
made construction projects much safer. Right? In  
the 1880’s rumors swirled about building a canal 
in central America. The invention of the steam  
engine, advancements in steel manufacturing and 
improved concrete manufacturing techniques made  
large scale engineering projects a lot safer and 
more efficient. It seemed like the right time to  
get started on a project that people had thought 
about for hundreds of years. The goal was clear,  
but what exactly it would take to get 
there was more than anyone had anticipated. 
To understand why building the 
Panama Canal was so deadly,  
we first have to understand the geography 
and conditions of the Isthmus of Panama.
 
The strip of land the canal is built on is 30 
miles across at its thinnest point. The canal  
itself is 50 miles from deep water in the Atlantic 
to deep water in the Pacific. Fortunately,  
to build the Panama Canal, engineers didn’t have 
to start from scratch. The location of the canal  
coincides with the natural flow of the Chagres 
River. A key part of the canal’s construction  
involved damming the Chagres to create a lake deep 
enough for massive boats to float through without  
running aground. This became Gatun Lake, which 
now takes up 160 square miles of flooded land.
The original plans for the Panama Canal 
entailed digging into the earth 40 feet  
below sea level so the waters of the Atlantic 
and Pacific could mix. But as we’ll see that  
won’t happen. Carving out the equivalent of 
a mountain was no easy task. Beyond that,  
engineers had to contend with the height 
difference between the Atlantic and Pacific  
Oceans. It sounds strange that one ocean would 
have a higher sea level than the other, but it  
comes from a combination of factors, including 
ocean currents, variations in temperature and  
salinity affecting water density, as well as the 
Earth’s rotation influencing ocean circulation,  
all of which combined lead to the Pacific 
ocean being about 40 centimeters higher  
than the Atlantic. This was a problem, especially 
when there was already a mountain between them.
The task of building the Panama Canal was quite 
steep– almost exactly as steep as the two mountain  
ranges looming over the site of the future canal: 
the Tabasará Mountains and the Cordillera de San  
Blas. Nearby, the Cerro Jefe mountain top towers 
3,300 ft above sea level. The canal was set to run  
from Limón Bay on the Caribbean sea to Miraflores 
Lake by way of an artificial lake that was yet  
to be created. Over the course of 12 locks, any 
ship passing through the canal will be raised and  
lowered 85 feet above sea level to cross. Using 
the locking system, the canal’s designers were  
able to circumvent the challenge of flattening 
the continental divide. The continental divide  
is the mountain range that determines if rainfall 
will drain towards the Atlantic or Pacific oceans.
So, what does this mean? Building the 
Panama canal meant flattening a section  
of a mountain range. More than just layers 
of rock and large boulders, the area was also  
a densely packed jungle, swarming with pests 
and large animals, huge trees and thick brush.
Beneath the stretch of land that would be carved 
up to create the canal, a bedrock of slate and  
shale stood between engineers and the route 
they imagined. The proposed site would follow  
the path of the Chagres River but also a Spanish 
trade route called El Camino Real de Panama that  
connected Panama City on the Pacific coast, with 
its trading partner, Portobelo on the Caribbean  
Sea. The Camino Real was the only road for 
people to move valuable goods such as gold  
and silver from coast to coast through Panama. In 
1850 construction began on the Panama Railroad,  
a 47 and a half mile route that cost a total 
of eight million dollars. An estimated 6,000  
died building it. While this is a huge number 
of casualties for such a short stretch of rail,  
it’s only a fraction of the number who would 
die to build a canal in the years to come.
Building the canal along this route 
was a nod to Vasco Nuñez de Balboa,  
the Spanish conquistador who established Spain’s 
first South American settlement. He was the first  
European to set his eyes on the Pacific Ocean. 
When Balboa wrote back to the Holy Roman Emperor  
Charles the Fifth with news of his discovery 
of an ocean, he was rewarded by becoming the  
governor of Panama. Balboa’s expeditions and 
adventures to this region identified the most  
promising location for a direct passage towards 
Asia and Australia from Africa and Europe. But,  
as a precursor to the devastation that would 
result from constructing the Panama Canal,  
the introduction of Spanish settlements 
decimated local populations. Additionally,  
Balboa brought enslaved African 
people to transport cargo along  
El Camino Real, establishing a new political, 
social and cultural hierarchy that destroyed  
Panamanian traditions as well as their native 
population. While the demographics of Panama  
changed drastically in the nineteenth 
century, its weather was quite consistent.
Average temperatures in Panama linger around 
80 degrees Fahrenheit and it averages about  
105 inches of rainfall a year. It’s wet, humid, 
and nearly impossible to cool off in. Flooding  
was a regular occurrence, especially in the 
wet season. The tropical weather was quite  
the adjustment for workers coming from 
Europe and the United States. Even for  
workers coming to construct the canal from 
Caribbean nations, the mountain jungles of  
Panama were a different beast.
But with the Panama Canal,  
the main cause of death would come at the 
hands, or really the mouths, of tiny insects.
Today we know that infected mosquitoes 
transmit malaria parasites and the yellow  
fever virus when they bite people, but in 
1850’s, people had no understanding of how  
these debilitating diseases were transmitted. 
Many medical professionals believed Malaria  
was caused by something airborne coming out of 
marshes. Just look at the word’s Italian roots:  
bad- ‘mal’ and air-‘aria’. Yellow Fever was 
also thought to be the product of humid air  
mixing with undrained soil. While they were 
onto something by noticing trends about humid  
environments and illness, they were way off in 
their understanding of how these diseases worked.
Scientist Louis Pasteur had just proposed a 
theory that microbial germs caused disease,  
not things floating in the air or imbalances 
in bodily fluids. His theory became known as  
germ theory and informs how we think about 
cleanliness today. It revolutionized how  
scientists understood disease and gave them 
a blueprint for how to combat sickness.
Another medical breakthrough in the time of 
the Panama Canal’s construction happened when a  
French doctor made an astonishing discovery while 
treating patients for what was then called Marsh  
Fever. We now know this to be malaria. Dr. 
Alphonse Laveran was studying a blood sample  
from a sick patient. He wanted to understand 
what caused the disease at a biological level  
rather than just blaming the air. He was eager to 
understand the root of the disease, not only so  
he could better treat his patients who had it, 
but so people could avoid whatever was causing  
it. One day, he identified tiny, wriggling forms 
swimming in the bit of blood he was examining.  
Lavern drew the connection that the moving dots 
in the infected blood mimicked the patterns he  
had seen in parasites. But it would be more than 
20 years until scientists confidently recognized  
that those parasites he spotted were the same as 
those that were found in mosquitos. Around the  
turn of the century, people realized that these 
insects actually transmitted those diseases.
At that point, tens of thousands workers had 
already made the trek to the thick jungles to  
work on the construction of the Panama 
Canal. Thousands had died from malaria  
and yellow fever by the time science could 
explain how the diseases were spreading.
In the 1870’s, central Panama had a few built-up 
cities populated by a combination of European  
expats and formerly enslaved people. Steam 
locomotives now frequented ports in Panama City,  
San Miguelito and Colon. More and 
more attention was directed to the  
development of Central America, and in 
the middle of the age of imperialism,  
powerful countries from around the world 
began taking an interest in the potential of  
an inter-oceanic canal. The pipe dream that 
Vasco Nuñez de Balboa had all those years  
ago seemed like something that could actually 
happen given the recent breakthrough in Egypt.
The Suez Canal which cuts through the Isthmus of 
Suez in Egypt wrapped up its ten year construction  
project in 1869. It was a feat of engineering the 
likes of which the world had never before seen.  
Built across a 120 mile stretch of flat desert, it 
was a long but relatively straightforward build,  
the brainchild of Frenchman Ferdinand de Lesseps. 
Following the opening of the Suez Canal fleets of  
steam ships were trimming over 5,000 nautical 
miles off trips from India to Europe. New ships  
were being designed that could carry larger 
cargoes for shorter distances. Trade was  
flourishing and port economies were booming. Of 
course there was the huge human cost to build it,  
and while the numbers are hard to pin down, 
some estimates put the number of workers  
killed at over 100,000. But the everyday 
utility of the Suez Canal made it easy to  
look past the cholera outbreaks and deadly 
work conditions that the Suez Canal’s 1.5  
million construction workers faced, and despite 
the heavy casualties of the Suez construction,  
there was no hesitation when the idea arose 
of doing something similar in Central America.
Led once again by de Lesseps, the French broke 
ground on the canal in 1881. He estimated  
construction would cost $132 million, and take 12 
years to complete. It was a fraction of the size  
of the Suez canal, but because the terrain was so 
inhospitable he estimated it would take longer.  
While he was right about that, his estimates about 
the cost, both financial and human, were very off.
Just months after starting work on the canal, 
the first case of yellow fever was recorded,  
coinciding with the start of 
the wet season. Fortunately,  
with the huge scale of the Panama Canal 
project came a huge influx of money– and  
that money went straight towards a hospital. But 
even with plenty of hospital beds and nurses,  
mosquitos were wreaking havoc on 
workers. To add fire to the flames,  
these hospitals willingly surrounded themselves 
with little channels of water. These were made to  
discourage ants from attacking their vegetable 
gardens, but ultimately, they became hot spots  
for mosquito colonies. As insects of all 
kinds became a larger and larger problem,  
hospital staff implemented every tactic they could 
think of to address the problem. For some reason,  
they thought that placing water pans under bed 
posts would keep insects away. They were wrong.
Yellow fever, malaria and other pathogenic 
illnesses became known as Tropic Fever. And  
Tropic Fever became known for wiping out 
thousands of workers on the Panama Canal.  
People would vomit black fluids from bleeding 
stomachs and turn yellow with jaundice. Whether  
on-site on this Isthmus or reading news of 
the conditions thousands of miles aways,  
everyone started to realize the dangers of 
working in the tropics. Contractors who feared for  
their own lives kept dropping out of the project 
to the frustration of Ferdinand de Lesseps. But  
even with regular leadership turnover, excavation 
projects continued. At its peak employment levels,  
the French employed more than 19,000 people, 
bringing in workers from Caribbean islands,  
primarily Jamaica. More and more 
people were being brought in,  
which meant that disease-carrying mosquitoes 
had more and more bodies to feed on.
On top of that, a civil war broke out 
in the city of Colon. In early 1885,  
revolts broke out in responses to the newly 
elected president. Revolutionaries opposed  
to the new government briefly took over Colon, 
a key port city for the shipping of materials  
to build the canal. Rebels attempted to take 
over a shipment of American weapons, and kept  
the men who refused to hand over the weapons as 
hostages. A battle broke out between the rebels,  
Panamanian troops and U.S. seamen fought 
to protect their own interests. Eventually,  
tensions settled, but not before a 
massive fire swept through the city,  
decimating infrastructure and leaving 
thousands of workers homeless.
As years rolled on and the death toll 
rose, progress plateaued. As of July 1885,  
only about one-tenth of the estimated 
total de Lesseps projected had been  
excavated. The French team were 
over budget, underperforming,  
and responsible for what is estimated to be the 
deaths of nearly 20,000 people. As logistical,  
natural, and architectural difficulties 
challenged the progress of de Lesseps design,  
he refused to adjust his vision for a sea-level 
canal. So, more cohorts of workers would roll in,  
and less and less would return home. De Lesseps 
wanted the canal entirely at sea level, like  
what he had done with the Suez. But his ambition 
exceeded the ability of the technology he had and  
the labor force he was working with. Unless his 
dynamite could explode ten times more forcibly  
or his workers developed a sudden immunity to 
tropic fever, the Panama Canal seemed doomed.
In May of 1889, all activity on 
the Isthmus ceased. The French  
had to abandon the project that was 
supposed to be a home run for them.
Tropic fever, inadequate medicine, and a 
poor understanding of science are in some  
ways responsible for the steep death toll of the 
Panama Canal. But other factors relating to the  
intense nature of the construction project led 
to many accidents that would claim more lives.  
Even after control of the project switched hands 
to American engineers who implemented mosquito  
control measures, the Panama Canal would 
still go on to claim thousands more lives.
When the US took over the project in 1904, local 
Panamanian residents avoided participating in  
the building of the canal. They had witnessed the 
death that accompanied the first attempt to build  
the canal and wanted nothing to do with it. As a 
result, American and British contractors decided  
to import labor once again, primarily from the 
Antilles. Housing facilities were inadequate  
and food was sparse. At its busiest, up to 
40,000 people were working on the canal at a  
given time. Generally, workers were contracted 
to two-year stays. They would work for 4,500  
hours over the course of their two years, at a 
fixed rate of 10 cents per hour. A combination of  
language barriers, cultural difference, and racial 
animosity created social rifts between Americans,  
Panamanians, and Caribbean workers. When a crisis 
struck, be it an outbreak of disease or a tragic  
accident, these tensions only contributed 
to a deeper sense of unrest and frustration.
But, one notable shift that occurred after 
the Americans took over was the death toll  
linked to mosquito-borne diseases. When they 
took over the project, some people at the time  
jokingly considered yellow fever to be “the first 
mountain to be removed”. This made light in some  
ways of the fact that the canal’s mission was to 
decimate a mountain, but acknowledged that getting  
a handle on the insect problem was paramount 
to connecting the Atlantic and Pacific Ocean.
US authorities created the Isthmian 
Canal Commission to control the outbreak  
of yellow fever and malaria. By 
the time the 1900’s came about,  
scientists were quite certain about the link 
between mosquito bites and the transmission  
of disease. They set up a clear protocol for 
how to implement mosquito control. All pools  
in close proximity to houses and villages 
were drained. Brush and grass was cut to  
be less than a foot high. Buildings added 
insect screens to their windows and drains  
to stop mosquitoes from getting in. Quality of 
life improved as health standards soared. But  
while deaths by disease went down, the nature of 
the project itself grew increasingly difficult.
In 1909, accidents overtook disease as the leading 
cause of death. In some ways this was an exciting  
milestone that was testament to the power of 
mosquito control and advances in science. At  
the same time, it highlighted just how deadly it 
was to be a part of building the Panama Canal.
In the course of moving hundreds of thousands 
of pounds of dirt, landslides and mudslides  
were frequent. Workers chipping away at the 
side of a mountain could be buried alive in a  
moment when a cascade of rocks tumbled down. 
When the United States took over the Panama  
Canal’s construction in 1904, they could build 
off the partially excavated ditch the French  
had chipped away at. But they needed a new plan 
if they wanted to have anything more than dirt.  
240 million cubic yards of rock and dirt were 
excavated under the American’s command. With  
that many rocks to move, many people were 
injured, buried and killed. Of the 56,000  
workers employed between 1904 and 1913, the US 
recorded that 5,855 canal workers were killed.
The most deadly section of the Panama Canal’s 
construction was the Culebra Cut. Spanning the  
continental divide, the Culebra Cut was the 
tallest land mass workers had to cut though.  
It was such a monumental task that those working 
on the project referred to it as Hell’s Gorge.  
The section of mountainous land workers 
would need to excavate was almost nine  
miles long. At its highest point, 
the mountain that workers needed to  
cut through was 333.5 feet above sea 
level. This wasn’t going to be easy.
Crews blasted the mountain with explosives. 
They used steam shovels to load loosened dirt  
into railroad cars which would carry it 
away. New machines like dirt-spreaders,  
unloaders and railroad track-shifters 
helped the crew manage huge loads and find  
spaces to redeposit dirt from the canal’s 
excavation. These machines could do the  
work of hundreds of men in just a few hours, 
but efficiency didn’t necessarily mean things  
were safer. Using this heavy equipment 
high up on the canal’s wall left workers  
in compromised positions. Unstable ground 
would regularly give way and people would  
be crushed or fall to their deaths. When heavy 
rains brought sudden flood waters or mudslides,  
works on the floor of the canal could be buried. 
Some died of electrocution. Others drowned. Once,  
an excavating machine accidentally set off 
some explosives and 23 men died as a result.  
Every construction accident that you can imagine 
happened while trying to create the Culebra Cut.
Work in the canal was loud and hot. 
Workers were exhausted and eager to  
finish the project. As one of the mosquito 
control measures, workers were encouraged to  
drink quinine as an anti-malaria measure. But, 
quinine treatment tended to cause high-tone  
hearing loss. And for workers navigating crowded 
construction sites, with loud machinery echoing  
through the tunnel-like walls of the canal, 
it was easy to miss a message about where to  
stand and when to duck. The chaotic environment at 
the bottom of the canal lent itself to accidents. 
But work went on. With the final goal of creating 
a pass that was 300 feet wide and 45 feet deep,  
crews had to move a lot of dirt. It’s estimated 
that over 60 million pounds of dynamite were  
used to make the Culebra Cut alone. Even with 
temperatures soaring over 100 degrees, workers  
managed to lower the floor of the excavation 
site to within 40 feet of sea level.
There’s more to the Panama Canal than just its 
excavation. Construction of the Gatun Dam was  
essential for the Panama Canal’s updated design. 
This earthen dam was a make-or-break feature of  
the canal. If it worked it would create a man-made 
lake that would let boats pass the continental  
divide without having to level it to sea level. 
The plan was to dam the Gatun Lake at a height  
of 85 feet above sea level. To get boats up to the 
lake and lowered back down to sea level, engineers  
planned to use a series of locks to raise and 
lower ships. This way, they could use water  
control to push boats up higher rather than having 
to cut deeper into the unforgiving landscape.
Construction of the locks began in 1909 
and would wrap up in 1913 when work on the  
Culebra Cut and Gatun Dam also finished. 
A total of 46 gates keep sections of the  
canal at the proper height. To move a 
ship from one end of the canal to another,  
52 million gallons of water are used. The exchange 
of water from one lock to the other takes a much  
smaller toll than the casualties that would 
have inevitably come about from trying to  
make the canal at sea level. Having control over 
the flow of water by using locks has proven to be  
useful for managing traffic through the canal. 
It also lessened the possibility that flooding  
in the wet season or a dry spell might leave 
the canal drained or impassible with rapids.
The Canal’s construction not only changed 
the geography of the Isthmus of Panama,  
but also changed trade routes, 
balances of power between nations,  
and how humans approached nature. Over the 
course of the thirty years that it was built,  
machinery improved, engineering advanced, 
and we learned how to control previously  
unknown diseases. Once it was constructed, 
the Panama Canal was seen as considered  
a triumph of the tropics. But it came at 
quite a high price of 25,000 human lives.
Now for more stories of 
doomed construction projects,  
check out “the Real Reason Why Italy’s 
Plan to Build a Bridge to Sicily Won’t  
Work” or “the Real Reason There Is 
No Bridge Between Russia and Alaska”

The Panama Canal is one of the most significant construction projects in the modern era. While it’s completion represented a landmark achievement that changed the course of world trade, it wasn’t without major cost. Thousands of workers died as technology and medical research failed to catch up to the obstacles faced by crews. It wasn’t until the Americans took over the failed French project, that things finally came to be. Today we’ll explore the history of the Panama Canal, and better understand why something like this could have only happened when it happened.