Rome’s urban history inferred from Pb-contaminated waters trapped in its ancient harbor basins

 ENS de Lyon  

 		15 parvis René Descartes - BP 7000

ENS de Lyon 15 parvis René Descartes - BP 7000

Location of ancient Rome’s harbor basins in the Tiber delta with the position of cores PO2 analyzed in this work. Photo S. Keay
Heavy metals from urban runoff preserved in sedimentary deposits record long-term economic and industrial development via the expansion and contraction of a city’s infrastructure. Lead concentrations and isotopic compositions measured in the sediments of the harbor of Ostia - Rome’s first harbor - show that lead pipes used in the water supply networks of Rome and Ostia were the only source of radiogenic Pb, which, in geologically young central Italy, is the hallmark of urban pollution.
High-resolution geochemical, isotopic, and 14C analyses of a sedimentary core from Ostia harbor have allowed us to date the commissioning of Rome’s lead pipe water distribution system to around the second century BC, considerably later than Rome’s first aqueduct built in the late fourth century BC. Even more significantly, the isotopic record of Pb pollution proves to be an unparalleled proxy for tracking the urban development of ancient Rome over more than a millennium, providing a semiquantitative record of the water system’s initial expansion, its later neglect, probably during the civil wars of the first century BC, and its peaking in extent during the relative stability of the early high Imperial period. This core record fills the gap in the system’s history before the appearance of more detailed literary and inscriptional evidence from the late first century BC onward. It also preserves evidence of the changes in the dynamics of the Tiber River that accompanied the construction of Rome’s artificial port, Portus, during the first and second centuries AD.
Références : Rome’s urban history inferred from Pb-contaminated waters trapped in its ancient harbor basins , Hugo Delile, Duncan Keenan-Jones, Janne Blichert-Toft, Jean-Philippe Goiran, Florent Arnaud-Godet, Francis Albarède. PNAS, 28 août 2017.