A match made in Megiddo

How the chemistry between archaeology and physics researchers led to groundbreaking discoveries about biblical history

Sometimes when you’ve stopped looking for a solution is exactly when it pops up. Israel Finkelstein, Jacob M. Alkow Professor of the Archaeology of Israel in the Bronze and Iron Ages, Sonia and Marco Nadler Institute of Archaeology, discovered a very interesting finding in 1998, at the archaeological excavation of Megiddo. He noticed a dig participant who did not quite fit the profile of a typical university undergraduate. 

“I sniffed around and learned that this particular student was actually a TAU professor flying under the radar. He turned out to be a very important ‘find,’” smiles Finkelstein. That student, incumbent of the Wolfson Chair in Experimental Physics Eli Piasetzky, Raymond and Beverly Sackler Faculty of Exact Sciences, was pursuing a degree in archaeology. Prof. Finkelstein pulled him aside to talk, and so began a research partnership that is still active two decades later.  

When were early Biblical texts written?

The archaeological issue of the day was mapping the chronology of the Iron Age in ancient Israel. Finkelstein challenged Piasetzky to improve the dating of remains from biblical times by using the radiocarbon method. The findings, published in professional and lay publications worldwide, rendered a new timeline of ancient Israel with lasting ramifications for biblical studies.

“Until then, the dating of texts was based on Biblical considerations,” explains Prof. Finkelstein, adding, “You can say that Biblical history was the path of the researchers, and archeology was used as a tool to prove the Bible stories were true.” He said. His article caused an uproar among researchers around the world, and he realized that he needed a more accurate dating tool and a talented mathematician to help him. Prof. Finkelstein presented his friend with a challenge – to accurately date the findings discovered in the excavations and to prove his claims.

Using the radiocarbon dating method on hundreds of items collected and tested, Prof. Piasetzky and Prof. Finkelstein presented a new and more accurate timeline in the history of ancient Israel, which was published in the New York Times, and had long-term implications for the study of the Biblical period since then.

 

The excavation site at Tel Megiddo, where it all began

Algorithms for reading ancient inscriptions

Prof. Piasetzky and Prof. Finkelstein continue their quest to reconstruct ancient history. As reported by The New York Times, they are conducting analyses to help better decipher ink inscriptions on potsherds, known as ostraca that were unearthed at an ancient fortress in the deep desert of Arad in southern Israel.

“The citadel of Arad stands like a time capsule: Active about 2,600 years ago, it was a relatively short-lived, godforsaken outpost, a five-day journey from Jerusalem, populated by maybe 30 soldiers,” describes Finkelstein. “Who inscribed the potsherds found there? Who read them? The ostraca teach us about government and about literacy in ancient Judah. If we determine when writing became a tool used by a wide swathe of society, we can shed light on when early Biblical texts were written.”

A shopping list from thousands of years ago

Prof. Piasetzky and Prof. Finkelstein have put together a team of archaeologists, historians, physicists, mathematicians, and computer scientists to analyze handwriting and determine just how many hands penned the Arad ostraca.

To do so, they employ physics techniques of multispectral imaging to reveal inscriptions and improve readability. Next, they compare handwriting by using algorithms specially developed by the team. What they found there was surprising: the new lines discovered were a letter requesting the issuance of wine and food from the warehouses of the Tel Arad fortress to one of the military units in the area. The recipient of the letter was the warehouse clerk, while the address was an officer from Beersheba.

Beyond the information about what people used to eat and drink during that time, the researchers revealed that even quartermasters knew how to read and write, and also learned a few new words that don’t appear in the Bible. “From the content of the letters we learn that literacy permeated even the low ranks of the military administration of the kingdom. If we extrapolate this data to other areas of Judea, and assume that this was the case in the civil administration and among the clergy, the level of literacy is considerable. This level of literacy is a reasonable background for the composition of Biblical texts,” explains Prof. Finkelstein.

Facing the future

After studying the past, Prof. Finkelstein and Prof. Piasetzky explain what can be done with these special technologies in the 2000s. “One may ask why a student of mathematics would be interested in developing tools for handwriting analysis of ancient inscriptions,” Prof. Piasetzky says. “But this type of analysis is also acutely needed today by, say, lawyers, banks, and the police. Furthermore, we’re finding solutions for the challenges of deciphering ink inscriptions found on uneven clay surfaces with faded markings and missing pieces. If our algorithms can analyze decayed inscriptions, think what they can do with modern-day handwriting on flat clean paper surfaces.”

Prof. Finkelstein adds: “With handwriting we face a problem of subjectivity. Scholars – all of us – come with preconceptions. We can convince ourselves that we see this or that particular letter. The computer does not have preconceptions. It measures length of strokes and angles, making numerical comparisons. Our next step is to integrate multispectral imaging at digs. This could dramatically improve excavation methodologies by determining on site if a potsherd is treasure or junk. One inscription can change the way we understand history.”

Featured image: Prof. Eli Piasetzky and Prof. Israel Finkelstein talk about how it all started

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