UCLA/Getty Conservation Program

A graduate conservation training program focusing on the conservation of archaeological and ethnographic materials


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UCLA/Getty Program Welcomes Visiting Scholar Dr. Pujun Jin

The UCLA/Getty Conservation Program welcomes visiting scholar Dr. Pujun Jin, who will be with us through November 2016.  During his time here, he will be working Dr. David Scott examining ancient Chinese bronzes. Dr. Jin joins us from the School of Materials Science and Engineering, Shaanxi Normal University, China.  He received his Ph.D. in Scientific History and Archaeometry from the University of Science and Technology of China. His current research focuses on the metallurgical examination of artifacts excavated from the site of Sanxidui dating to the Shang Dynasty.  He is also studying the lost-wax technique used to cast a bronze mou (cooking vessel) from the Ba Culture and the corrosion and conservation of ancient Chinese plated bronzes.

Pujun Jin

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Project News: The sampling of archaeological metals for Pb isotope analysis using EDTA

This poster was presented at the American Institute for Conservation’s 37th Annual Meeting held in Los Angeles, CA, May 19-22, 2009.

An alternative sampling method was investigated using ethylenediaminetetraacetic acid (EDTA) to extract lead (Pb) directly from an object for Pb isotope analysis to source archaeological metal artifacts. In order to perform the extraction, a group of objects from the sites of Kerkenes Dağ (Turkey) and Lofkënd (Albania) was soaked in a solution of EDTA and the Pb rich solution was then analyzed using time of flight inductively coupled mass spectrometry (TOF-ICP-MS) to determine the isotopic ratios present. In the archaeological literature success has been reported using this technique for the sourcing of majolica in the American Southwest and lead and silver objects in Pakistan. The authors in these cases reported no macroscopic alteration to the artifacts after soaking in the EDTA solution. However, no study has been undertaken to determine whether the extraction technique alters the surface of the object when examined under magnification.

Preliminary work was conducted by the authors in order to determine 1) whether or not this sampling technique could effectively be used for sourcing archaeological bronzes, in addition to silver and lead artifacts, from Anatolia and Albania and 2) whether soaking archaeological metals in EDTA causes any alteration to the surface of the objects.

Initial results of the Pb isotope analysis from the Turkish material indicated that EDTA solubilizes representatively for its accurate analysis. Examination of the objects in the field after extraction showed no observable change to the surfaces up to 45x magnification. Further work still needs to be undertaken to determine what surface changes or alterations to the object may be occurring during the extraction, since it is clear that material in addition to lead is being extracted out of the metallic artifacts. Based on these initial findings, however, EDTA extraction shows some promise as an alternative method of sampling metallic artifacts to the standard sampling methods used.

Poster-Sampling archaeological metals for Pb isotope analysis using EDTA

Poster-Sampling archaeological metals for Pb isotope analysis using EDTA