Hi all,
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Control vessel kept indoors |
In carrying out the tests on this blog I can dictate some of
the possibilities, sure, but overall the outcome is really about forming a
deeper understanding what happened and applying new appreciations.
In an uncontrolled experiment to appreciate
change in a single pottery vessel, I left a jar alone outside for the last
eight years.
I like to measure the movement of charcoal, uncover, map and refit my
early attempts at flintknapping, and set pottery out to die. By doing
these kinds of tests I am able to see continual to change over time and observe natural forces as they reshape the contexts that supply behavioral information to archaeologists.
As I often come in contact with materials older than 50
generations at least, I understand that the residual of my experiments will also
last much longer then my own skeleton. About
eight years ago a good friend of mine, Brad Thomson, and I spent a summer finding
and using wild clay as well as firing commercial clay vessels out in the piney
woods of East Texas. We had a great time that summer; I sent the biggest flake
I had made to that point into my ankle bone.
Thinking back on that blood-filled boot, it wasn’t a big flake at all,
and the issue was totally caused by user error.
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Summer of 2005 playing with pit and kiln firing |
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Fall 2013. Just look at how the trees have grown! |
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Vertical and horizontal cracks forming in situ. |
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Sit tight little guy |
Ceramic vessels do not break
into a series of sherds that follow a normal distribution of roundness. As shown in this test, a vessel initially breaks
apart into large angular pieces. From
there, trampling by wildlife, people, movement by water and abrasion by wind
move sherds towards a more rounded shape.
Also, Spalling due to fire or chemical precipitation can make sherds
smaller yet still angular.
So, if one recovers an assemblage of small rounded sherds,
the question must follow: were these intentionally rounded by prehistoric
peoples, or are they the result of abrasion by natural processes that have also
removed them from their original context.
Of course when items are out of context our job of interpreting
prehistoric human behavior gets a lot harder.
See, for instance, the difference in sherd roundness between two sites
that I study in Samoa. I produced
roundness measures using something called the Waddell Measure of Roundness
where you divide the mean radius taken from each corner by the maximum-sized radius that can be inscribed
within the sherd. This test shows that sherds
at the site of Vainu’u have seen minimal post depositional damage by water
while sherds at Aoa have been significantly affected by tumbling due to water
transport. The overall significance here is that because the sherd assemblage at Aoa has become restructured by water transport, we can't really say a whole lot about pottery production over time with any confidence. A visit to each site quickly shows differences in depositional history and erosion. Vainu’u is flat and covered in
vegetation while Aoa is on a slope and has a stream running through the area.
The shapes of pottery fragments from these two sites correlate well with the
visible difference in landscape topography.
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Most sherds from Aoa are rounded, while at Vainu'u they are sub angular |
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Intact hot rock cooking feature at Vainu'u. |
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This is at the base of the hill slope at Aoa |
Change over time, what a thing to watch.
Happy Hunting