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Abstract This study explores the use of three isotopic systematics—Sr, Nd, and Pb— combined together for the first time to trace the origins of ancient pottery. This approach strengthens our ability to relate raw materials to the final products. The materials selected for the analysis are from a well‐documented data set, previously subjected to a thorough mineralogical–petrographic and chemical characterization. Seventeen ceramic specimens represented by black‐glazed pottery, Terra sigillata, and fine common ware as well as production indicators such as black‐glazed pottery wasters and spacers were examined via isotope analyses. These samples were discovered in the archaeological site of Cales, presently Calvi Risorta, in South Italy. CaO‐rich clay raw materials from the area of interest were also analyzed as comparative references for the investigated ceramics. The comparison of the archaeometric data of the ceramic samples with the clay raw materials showed an affinity between the ceramics studied and local clay raw materials belonging to Mio‐Pliocene marine sediments from the Campania Apennine Mountain area. This affinity was more accurately defined through the Sr, Nd, and Pb isotopes, which show coinciding signatures among ceramic samples, production indicators, and raw materials. The method yields promising outcomes that reinforce prior experimental investigations and amplify its reliability. The multi‐isotopic methodology highlights the significance of combining geochemical data to pinpoint the origins of raw materials used for ancient ceramic production. 

Abstract The emergence of Sardis as an urban centre in the early Iron Age coincided with local production of fine painted pottery in a distinctive regional idiom. Examples of Lydian-style pottery found across western Anatolia from the eighth century BC attest the city’s growing cultural and economic contacts as well as consistent materials and craft methods. Archaeo- metric study using neutron activation analysis (NAA) at the University of Missouri Research Reactor (MURR) examined representative specimens of Lydian-style ceramics from Sardis and compared their composition with later examples of red-gloss and red-slipped pottery, fine grey wares and transport jars commonly found at the site. The results confirm the sustained activity of local workshops from the early Iron Age into later historical periods, as Lydia became part of the Seleucid and Roman empires and Sardis a centre of regional innovation.