I have been
prepared to accept the fine art of stone fitting as an effective solution, but the major examples
are certainly over the top. Better yet,
these known examples do look as if they were at least partially shaped in
liquid form. In that case, the core
logistic problem simply disappears.
You break your
chosen rock down to a convenient haulage size for transportation. On building you simply apply your paste to
the surfaces and apply layers of the broken rock and the paste to build up the
block itself. Upon fully resetting the
stone returns to continuity. Nice idea.
It is however
easily investigated with coring which should uncover boundaries.
Otherwise it
remains a tough problem that begs explanation.
I cannot see anyone building a canal to float this block twenty
miles. That would be impossible on a flat
desert mostly let alone a mountain or two.
Could
Ancient Peruvians Soften Stone?
If you take a look at
some of the masonry in South America’s megalithic structures and walls, such as
the 12-sided stone at Cuzco, Peru, you’ll notice immediately that things are
lining up awfully well—and extremely tightly.
Our standard history
texts say the Incans, who occupied Peru at the time the Spanish conquistadores
arrived, were responsible for all the structures found in the area.
But how could the Incans
have managed to construct, with extreme precision, structures like Saksaywaman,
with stones as heavy as 150 tons nesting and dovetailing neatly together, with
no evidence of the needed technology?
The “standard”
explanation is that the Incans somehow managed to use a “guess and check”
method of chipping at the stone with their stone tools, then setting the stone
in place, seeing how it fit, then lifting it up and chipping further, then
checking again, and so on.
This method appears very
likely to have been used in the 16th and 17th centuries, when conquistadores
and missionaries observed the Incans at work. But what they were building at
the time involved much smaller stones, and not the kind of precision in
creating blocks with 12 angles. Shaping such complex blocks, and with such a
tight fit, only using round stone hammers seems exceptionally unlikely.
Especially when dealing with 100-ton blocks!
Even those offering
explanations such as these, like archeologist Jean-Pierre Protzen, still
acknowledge other problems, primarily how the Incans could have transported
(and lifted up and down repeatedly) these large stones. Some of the quarries
were as far as 20 miles from the building sites, and in mountainous regions, no
less.
Moving big stones isn’t
always mysterious—if the quarry is higher than the final site or without much
elevation difference, and there’s lots of space for lots of men to drag, then
even enormous stones can be moved. Take, for instance, the Thunder Stone that
is the seat of the Bronze Horseman statue in St. Petersburg, Russia. Weighing
in at a truly massive 1,500 tons, the Thunder Stone was moved in 1768, using
only manpower and some engineering ingenuity.
But for a society with
only primitive tools available, and no advanced engineering, how are 100-ton
stones moved through 20 miles of mountains?
At the very least, it
probably means whoever built them were more advanced than we’re currently
giving them credit. But what the Spaniards said at the time indicate that the
Incans didn’t possess the needed engineering skills.
So it might mean that it
was someone else who built the structures.
In fact, the Incans
themselves acknowledged to the conquistadores that these structures were there
long before them, built by a different people. A favorite topic of speculation
among the Incans was apparently trying to figure out how the ancients actually
built the walls, fitting the stones in so tightly.
Saksaywaman, in the
history books, is said to have been completed in 1508, but those living just a
few decades later, like Garcilaso de la Vega, born in 1539 and raised in the
area of Saksaywaman, professed to having no idea of how the walls were
constructed. And no one else seemed to, either.
Is it possible that the
Incans built on top of the previously existing structures and Spanish
chroniclers made the mistake of thinking they had built the entire structure?
If the builders were
even more ancient, then wouldn’t our textbook understanding of history suggest
that it’s even less likely previous civilizations would have the knowledge and
ability to build such structures.
Ancient Civilization
So we’re faced with the
possibility of a civilization much more advanced than the Incans, but of which
we know almost nothing about—except that they could create structures like
Saksaywaman.
How the stones were
moved still proves a mystery, as it does for other megalithic sites, such as
the Great Pyramid of Giza. While we are capable today of transporting such
stones, and lifting them up, our conception of the technological advancement of
ancient peoples doesn’t always square with the achievements we have clear
evidence of in these structures.
There are, however, a
few theories about how the stones were shaped. Several local legends are
about a liquid known to the ancients, derived from plants, which can turn rocks
soft.
Explorers, such as the
legendary Percy Fawcett, also brought back tales of such a substance, as did
Hiram Bingham, who (re)discovered Machu Picchu. Furthermore, Jorge A. Lira, a
Catholic priest, in 1983 said he was able to recreate this stone softening,
but was unable to figure out how to make the stones hard again.
Curiously, marks on some
of the stones at Saksaywaman look remarkably like stray marks on our modern
concrete—indicative of being molded or scraped into shape.
While this remains
speculative, we can be sure that stone hammers and repeated lifting up and down
aren’t responsible for the precision and power needed to create Saksaywaman.
Structures like this invite us to learn more about our past, and realize that
the ancients might have been far more advanced than we give them credit.
2 comments:
Usually when things are molded into shape, the shapes are uniform since they have all come from the same mold. The stones in these walls come in thousands of shapes and sizes... it would have required a heck of a lot of molds to accomplish this task!
It wouldn't be 'molded' in the manner of which you speak-- that is, all of the stones coming from the same mold, or different molds. Alternatively, it would be possible for them to soften a stone, and set it upon a harder stone, or several harder stones, allowing the soft stone to 'fit' itself into place. So, the stones that were already hardened would act as the mold, allowing softened stones to fit in around them.
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