Development of ceramic production in the Kur River Basin (Fars, Iran) during the Neolithic. A compositional and technological approach using X-ray fluorescence spectroscopy and thin section petrography

Pincé, Possum; Braekmans, Dennis; Abdali, Negar; Pauw, Ella De; Amelirad, Sheler; Vandenabeele, Peter

doi:10.1007/s12520-018-0598-6

Cited by 10 publications

(10 citation statements)

References 19 publications

(26 reference statements)

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“…More detailed information about these clay samples and the hXRF results have recently been published in Pincé et al . (). Here, the compositions of the clay samples are compared with the compositions of the ceramics to detect if similarities in the elemental compositions of the ceramics and clays from different parts of the region are present that might assist in provenance determinations or at least identify generally used clay types.…”

Section: Resultsmentioning

confidence: 97%

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Ceramic Production in the Kur River Basin (Fars, Iran) During the Middle to Late Second Millennium bce: A Geochemical and Technological Characterization

et al. 2019

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A total of 119 middle to late second millennium bce pottery samples from six sites in the Kur River Basin (Fars, Iran) were examined to characterize these ceramics and reconstruct their manufacturing technology and the origin of the primary materials. For this, a combined study of handheld XRF and thin‐section petrography was performed. The geochemical signatures of these ceramics were defined and interpreted in their archaeological and geological framework, resulting in the determination of different production processes and clay types used for four ceramic wares (Middle Elamite, Qaleh, Shogha and Taimuran) and the identification of possible outcrops used for Shogha–Taimuran production.

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Section: Resultsmentioning

confidence: 97%

“…Some Shogha and Taimuran pottery have compositions similar to those of the colluvial clays, but most Shogha–Taimuran ceramics show no match, with the analysed clay samples opposed to the ceramics from the Neolithic period in this region (Pincé et al . ).…”

Section: Resultsmentioning

confidence: 97%

Ceramic Production in the Kur River Basin (Fars, Iran) During the Middle to Late Second Millennium bce: A Geochemical and Technological Characterization

et al. 2019

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“…The portable and non-destructive nature of the instrumentation is a major advantage for further field studies with a suitable reference framework in place, however, data analysis needs to be carefully controlled and cautiously interpreted because p-XRF provides semi-quantitative data and it has been the scope of numerous research efforts to ensure reliable data [27,28,29,30,31,32]. In this research, chemical analysis was carried out by p-XRF, which has been used as an explorative and especially non-destructive technique for provenance studies [27].…”

Section: Chemical and Petrographic Analysismentioning

confidence: 99%

Ceramic comales at the Barillas site (cal 1255–1390 CE), central Nicaragua: Defining a local technical tradition of griddle manufacture

Donner

Casale

Braekmans

et al. 2019

Journal of Archaeological Science: Reports

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This research characterizes and reconstructs clay procurement and production practices through the integration of insitu portable XRF and petrographic analysis on ancient ceramics and clay materials recovered from the Mayales river subbasin (central Nicaragua). A particular choice for this study was the largest and arguably most significant archaeological site in the area, Aguas Buenas (cal 400-1250 CE), a pre-Hispanic indigenous agglomeration consisting of 371 human-made mounds of various shapes arranged in geometric patterns. Microanalytical approaches were applied to reconstruct the use of raw mineral resources in the production of ubiquitous pottery materials found at this site and in its immediate surroundings. The resulting compositional analysis produced geochemical and mineralogical data allowing for the characterisation of distinct, geologically-based compositional groups throughout the valley, improving on the limited geological data resolution previously available. The integrated microscopic and compositional analysis (through p-XRF) of archaeological pottery materials and raw clay samples, generates a number of hypotheses and insights about the nature of the Aguas Buenas site, and its role as a shared space among groups living in the Mayales river subbasin. Additionally, this study provides a solid research framework of investigation that can be employed for more detailed and extensive future studies on pre-Hispanic human occupation in this research area or elsewhere.

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“…As a second step, it was intended to define to what extent archaeological periods overlapped with geochemical clusters for further classification studies. Few previous archaeometrical studies on ceramic in the region were carried out either on archaeological periods across different sites (Blackman 1988;Pincé et al 2016Pincé et al , 2018Pincé et al , 2019 or on individual periods at one or more sites (Alden and Minc 2016;Blackman 1981). In this study, pottery samples from several archaeological periods collected at the site of Tol-e Kamin are studied, in order to provide a better understanding of the diachronic dynamics of geochemical change in ceramics from the Kur River Basin (hereafter KRB).…”

Section: Introductionmentioning

confidence: 99%

Geochemical analyses result of prehistoric pottery from the site of Tol-e Kamin (Fars, Iran) by pXRF

Eslami

Wicke

Nowrooz

2020

STAR: Science & Technology of Archaeological Research

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A series of pottery samples from the Iranian site Tol-e Kamin, ranging from pre-historical period to the New Elamite, were analyzed in order to study the geochemical variability of the pottery assemblage. A total amount of 168 measurements were obtained using a portable XRF device and were statistically handled. The results could successfully distinguish the geochemical composition of potteries from the chalcolithic to the New Elamite periods in the Kur River Basin. A major shift in the use of different clay sources could be detected since the Proto Elamite period and afterward, in which the carbonated and marl content clays represented by Ca, Ba and Sr shifted to clay sources with a tendency to non-carbonate silty clay Al, Ti, and Fe from a different geological background. The results stress the importance of further provenance studies to address issues of trade and exchange possibilities in southwestern Iran.

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Development of ceramic production in the Kur River Basin (Fars, Iran) during the Neolithic. A compositional and technological approach using X-ray fluorescence spectroscopy and thin section petrography

Cited by 10 publications

References 19 publications

Ceramic Production in the Kur River Basin (Fars, Iran) During the Middle to Late Second Millennium bce: A Geochemical and Technological Characterization

Ceramic Production in the Kur River Basin (Fars, Iran) During the Middle to Late Second Millennium bce: A Geochemical and Technological Characterization

Ceramic comales at the Barillas site (cal 1255–1390 CE), central Nicaragua: Defining a local technical tradition of griddle manufacture

Geochemical analyses result of prehistoric pottery from the site of Tol-e Kamin (Fars, Iran) by pXRF

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Development of ceramic production in the Kur River Basin (Fars, Iran) during the Neolithic. A compositional and technological approach using X-ray fluorescence spectroscopy and thin section petrography

Cited by 10 publications

References 19 publications

Ceramic Production in the Kur River Basin (Fars, Iran) During the Middle to Late Second Millennium bce: A Geochemical and Technological Characterization

Ceramic Production in the Kur River Basin (Fars, Iran) During the Middle to Late Second Millennium bce: A Geochemical and Technological Characterization

Ceramic comales at the Barillas site (cal 1255–1390 CE), central Nicaragua: Defining a local technical tradition of griddle manufacture

Geochemical analyses result of prehistoric pottery from the site of Tol-e Kamin (Fars, Iran) by pXRF

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Ceramic comales at the Barillas site (cal 1255–1390 CE), central Nicaragua: Defining a local technical tradition of griddle manufacture