Provenance study of the white marbles of the 'Baths of Elagabalus' at the Palatine Hill in Rome

Autor:	M. Brilli, M. C. Savin
Rok vydání:	2019
Předmět:	010506 paleontology Archeology Provenance White (horse) 060102 archaeology Palatine Hill in Rome Cathodoluminescence Temporal context 06 humanities and the arts 01 natural sciences Archaeology Marble Petrography Anthropology 0601 history and archaeology Geology Stable isotopes 0105 earth and related environmental sciences
Zdroj:	Archaeological and anthropological sciences 11 (2019): 5539–5551. doi:10.1007/s12520-019-00895-4 info:cnr-pdr/source/autori:Brilli M.; Savin M.C./titolo:Provenance study of the white marbles of the "Baths of Elagabalus" at the Palatine Hill in Rome/doi:10.1007%2Fs12520-019-00895-4/rivista:Archaeological and anthropological sciences (Print)/anno:2019/pagina_da:5539/pagina_a:5551/intervallo_pagine:5539–5551/volume:11
ISSN:	1866-9565 1866-9557
DOI:	10.1007/s12520-019-00895-4
Popis:	The provenance of marbles, mainly used for sculptural material and recently unearthed from the foundations of a building dating back to the Late Antiquity at the Palatine Hill (Rome), has been determined using a well-established multimethod approach that includes petrographic, isotopic, cathodoluminescence and trace element analytical techniques. Almost the totality of this material was supposedly relevant to a building complex developed in the Severan age, thus allowing investigation about the use and distribution of sculptural marbles in such a temporal context. A large fraction of the marbles tested are shown to be from Asia Minor, originating mostly from the recently discovered site of Göktepe near Aphrodisias, whereas non-Asiatic marbles include Paros-lychnitic and non-lychnitic, and Pentelicon provenances. Carrara seems to play a subordinate role, related mainly to architectural elements. Petrography was the starting point for assignment elaboration. This study confirms the importance of strontium concentration and the contribution of cathodoluminescence to distinguish Göktepe from Carrara marble as previous studies have already shown. Carbon and oxygen isotopes were crucial for the identification of Paros-lychnite and Penteli marbles, respectively. The multimethod, however, remains the most reliable approach for assigning the provenance of white ancient marbles.
Databáze:	OpenAIRE
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