Discovering sources of Roman silver coinage from the Iberian Peninsula
Boulder, Colo., USA: Despite its prior status as a luxury commodity, silver
became widely used for coinage in the Roman world from the 7th century BCE
onward and provided a standardized monetary system for ancient
Mediterranean civilizations. However, the sources of silver used to produce
Roman coinage have largely been used up, making it difficult to determine
which deposits Roman miners exploited.
A new study published in the journal Geology yesterday evaluated
silver sources from different mining provinces in the Iberian Peninsula to
determine which locations may have been mined for silver to produce Roman
coinage.
“The control of silver sources was a major geopolitical issue, and the
identification of Roman silver sources may help archaeologists to
reconstruct ancient fluxes of precious metals and to answer important
historical questions,” said Jean Milot, the lead author of this study.
The Iberian Peninsula, which includes modern Spain and Portugal, is host to
world-class silver deposits, especially in the southern region. These
deposits contain galena, which is the main ore of lead and an important
source of silver. To extract silver, the galena ore is smelted and
purified, with refined silver for coin minting able to reach a purity of
over 95%.
To track the source of Roman silver, the team of researchers analyzed the
silver and lead compositions of galena samples from ore deposits across the
Iberian Peninsula and compared the results to the chemical signatures of
silver Roman coins.
They identified two different types of galena deposits based on the silver
elemental composition of the samples: silver-rich galena that would have
been a likely source for Roman coinage, and silver-poor galena that would
have been exploited for lead only and would have been of lower economic
importance.
However, few of the ore samples had a composition that fit the silver
elemental composition of the Roman silver coins. Silver-bearing ores
spanned a wide range in compositional variability, but Roman coins notably
have a very narrow elemental composition range.
Based on the lead elemental signatures of the galena samples, the ore
deposits from southeastern Spain best fit the composition of Roman coins,
suggesting that these deposits were a major source of Roman silver. Both
silver-rich and silver-poor galena deposits were likely exploited here,
with the extracted lead from silver-poor galena able to be mixed with other
ores to extract silver.
These results based on chemical analyses are also consistent with
archaeological evidence for ancient mining exploitation in the region.
This combined analytical toolkit provides a way to distinguish between
silver-rich deposits and deposits barren of silver ore, which is critical
in understanding the dynamics of silver supply in Roman times.
“This work needs to be extended to the silver-rich region in which coinage
was actually invented in the 6th century BCE, Greece and Asia Minor (modern
Turkey),” said Milot. “The method we describe here will allow us to
recognize the lost ore fields which supplied silver to the Eastern
Mediterranean empires from the Bronze Age to the collapse of Hellenistic
kingdoms.”
FEATURED ARTICLE
Silver isotope and volatile trace element systematics in galena samples
from the Iberian Peninsula and the quest for silver sources of Roman
coinage
by Jean Milot, Janne Blichert-Toft, Mariano Ayarzagüena Sanz, Chloé
Malod-Dognin, Philippe Télouk, and Francis Albarède
Author contact: jean.milot@ens-lyon.fr
https://pubs.geoscienceworld.org/gsa/geology/article/doi/10.1130/G49690.1/610233/Silver-isotope-and-volatile-trace-element
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