Dye-Tracing Archaeology
Toxic chemicals leaking from an old wastewater treatment plant in Alabama have unexpectedly led to the discovery of a 1,700-year old "pre-historic village" buried in the ground nearby. Chemicals "have seeped into the ground surrounding the old plant," according to a local news station, so "the soil needs to be removed and taken to a toxic waste facility."
However, a survey of the contaminated site soon revealed that the ground also contained extremely well-preserved artifacts "from a village that once thrived" there. "Lo and behold," the head excavator remarked to the news show: "we found a massive late-middle Woodland period village."
It's not hard to imagine someone another 1,700 years from now accidentally discovering the forgotten city of, say, New York—or Chicago, or Bangkok, swallowed by mud—after a chemical leak at a nearby factory: radioactive liquids drain down through the topsoil, flowing around buried walls and ruins, forming iridescent pools on floors in basements—slow and toxic streams tracing the shapes of old stairways, lighting a path for future excavation and descent. Like giving the earth a radiopharmaceutical, you fire up a ground-scanning machine, trace the pollution underground, and, lo and behold, the dark outlines of buried cities start to glow.
[Images: Dye-tracing cave systems; note that the chemical used is supposedly non-toxic].
In fact, I'm reminded of dye-tracing techniques used for mapping otherwise impenetrable or overly complex cave systems. In James Tabor's wildly uneven 2010 book Blind Descent, for instance, we read about legendary caver Alexander Klimchouk, who set about dye-tracing caves on the Arabika Massif, including Krubera Cave, currently the deepest known cave in the world.
"In 1984 and 1985," Tabor explains, "[Klimchouk] poured fluorescein dye into several caves, including Krubera, high on the Arabika. Traces of that dye later flowed out of springs on the shore of the Black Sea far below. More traces tinged the water 400 feet beneath the surface of the Black Sea, miles offshore," indicating genuinely—in fact, record-breakingly—huge dimensions for the overall system of caves.
[Images: Dye-tracing caves].
But even the most remote, fictional possibility that future spelunking archaeologists might someday map lost cities—London, Moscow, Beijing, Rome—by using dye-tracing packs to illuminate that underground world of collapsed halls and buried rooms is extraordinary. Cartographers in mountaineering gear and helmet-mounted floodlights descend into the New York subway system in 5,161 A.D., following luminescent trails of fluorescein dye, crawling, walking, rappelling into the underworld on the trail of shining rivers as subterranean ruins begin to shine.
(Alabama story found via @ArchaeologyTime).
However, a survey of the contaminated site soon revealed that the ground also contained extremely well-preserved artifacts "from a village that once thrived" there. "Lo and behold," the head excavator remarked to the news show: "we found a massive late-middle Woodland period village."
It's not hard to imagine someone another 1,700 years from now accidentally discovering the forgotten city of, say, New York—or Chicago, or Bangkok, swallowed by mud—after a chemical leak at a nearby factory: radioactive liquids drain down through the topsoil, flowing around buried walls and ruins, forming iridescent pools on floors in basements—slow and toxic streams tracing the shapes of old stairways, lighting a path for future excavation and descent. Like giving the earth a radiopharmaceutical, you fire up a ground-scanning machine, trace the pollution underground, and, lo and behold, the dark outlines of buried cities start to glow.
[Images: Dye-tracing cave systems; note that the chemical used is supposedly non-toxic].
In fact, I'm reminded of dye-tracing techniques used for mapping otherwise impenetrable or overly complex cave systems. In James Tabor's wildly uneven 2010 book Blind Descent, for instance, we read about legendary caver Alexander Klimchouk, who set about dye-tracing caves on the Arabika Massif, including Krubera Cave, currently the deepest known cave in the world.
"In 1984 and 1985," Tabor explains, "[Klimchouk] poured fluorescein dye into several caves, including Krubera, high on the Arabika. Traces of that dye later flowed out of springs on the shore of the Black Sea far below. More traces tinged the water 400 feet beneath the surface of the Black Sea, miles offshore," indicating genuinely—in fact, record-breakingly—huge dimensions for the overall system of caves.
[Images: Dye-tracing caves].
But even the most remote, fictional possibility that future spelunking archaeologists might someday map lost cities—London, Moscow, Beijing, Rome—by using dye-tracing packs to illuminate that underground world of collapsed halls and buried rooms is extraordinary. Cartographers in mountaineering gear and helmet-mounted floodlights descend into the New York subway system in 5,161 A.D., following luminescent trails of fluorescein dye, crawling, walking, rappelling into the underworld on the trail of shining rivers as subterranean ruins begin to shine.
(Alabama story found via @ArchaeologyTime).
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They'll have the added advantage of google maps and streetview to see exactly how things were at a particular point in time.
I don't often make time to read this blog, but when I do, I am always amazed, entertained and enlightend. I appreciate the breadth and width of your interests, though much of the content is over my head. What I do understand, I enjoy. Thank you for
your time and trouble; please continue.
Thanks, anon - glad you've found things that interest you here.
I currently live/work in Bangladesh where most of available water is contaminated despite the large volume of its sources. I think that this dye-tracing can be used for researching/educating the locals to see where their daily used water ends up everyday and how important to know about their water resources.
Thanks for sharing.
this is pretty amazing- I heard about dye-tracing a while ago used to track water through aquifers, but never thought about its myriad potential uses. What about using it in an urban setting to see where our water actually goes?
You know - that green dye makes it looks like Chicago - on March 17th at least...
To add, the dye they use in the Chicago river for St. Patrick's day is vegetable-based (and orange before its poured into water.) It is probably the same or a close variant to what is being used here. According to the urban legend, this dye was being used by Streets & Sans (Sanitation) to track where pollution was being poured into the river (so they could be fined) and one of the guys had the bright idea to use it in "celebration" o' the Irish.
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