High temperature pyrotechnology: A macro- and microarchaeology study of a late Byzantine-beginning of Early Islamic period (7th century CE) pottery kiln from Tel Qatra/Gedera, Israel

Steve Weiner; Alla Nagorsky; Itamar Taxel; Yotam Asscher; Rosa Maria Albert; Lior Regev; Xin Yan; Filipe Natalio; Elisabetta Boaretto

doi:10.1016/j.jasrep.2020.102263

High temperature pyrotechnology: A macro- and microarchaeology study of a late Byzantine-beginning of Early Islamic period (7th century CE) pottery kiln from Tel Qatra/Gedera, Israel

Steve Weiner, Alla Nagorsky, Itamar Taxel, Yotam Asscher, Rosa Maria Albert, Lior Regev, Xin Yan, Filipe Natalio, Elisabetta Boaretto

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Pottery kilns are usually recognizable in the archaeological record based on their prominent and characteristic architectural features, evidence of exposure to high temperatures and associated waste products. Here we describe how we identified a kiln that has no readily recognizable architectural features, but does have an upper chamber full of broken pottery, and a lower chamber full of ash. The typology of the pottery in the upper chamber and radiocarbon dating show that the kiln was constructed after around 600 CE and was used until the early 7th century. The confining structures around these two chambers are sediments, some of which were deliberately brought to the site. A detailed study of the section through the kiln using on-site and off-site microarchaeological techniques revealed much about the firing conditions. The ash is composed almost entirely of phytoliths with a small amount of calcite. Surprisingly the diversity of phytolith morphotypes identified was low, and many of the phytoliths are unusually large multicells. The phytolith analysis shows that the fuel was mainly the stalks/chaff of domesticated grasses, most probably wheat, and probably not animal dung. Many of the phytolith morphologies are distorted and charred due to exposure to high temperatures, and show birefringence. Infrared spectra show that the phytoliths have partially recrystallized into the high temperature silicate mineral cristobalite. Slags formed close to the inner surfaces of the confining sediments presumably from melted phytoliths, and some of the clay-rich sediment close to these surfaces is clearly heat altered. These observations show that the temperatures in the firing chamber ranged from around 700 to 900 °C. The calcite in this ash is extremely disordered at the atomic level, based on the grinding curve analysis. A partial reconstruction of the kiln structure shows that the pottery chamber is above the firing chamber, and there is no constructed partition that separates the two chambers. The identification and characterization of this unusual kiln depended significantly on the use of the microarchaeological approach.

Original language	English
Article number	102263
Journal	Journal of Archaeological Science: Reports
Volume	31
DOIs	https://doi.org/10.1016/j.jasrep.2020.102263
State	Published - Jun 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 Elsevier Ltd

Funding

We thank the reviewers for their very helpful comments. This research was in part funded by the Kimmel Center for Archaeological Science of the Weizmann Institute, and the Radiocarbon research was supported by the Exilarch Foundation for the Dangoor Research Accelerator Mass Spectrometer (D-REAMS) Laboratory. We thank to the Spanish Ministry of Economy and Competitivity to RMA (HAR2016-75216-P), for supporting part of the phytolith research, and special thanks to Arlene Rosen and Sophia Laparidou for the fruitful discussions on the phytoliths. The 3D scans of the pottery from the kiln were carried out by Avshalom Karasik (Israel Antiquities Authority Laboratory for Digital Documentation). E.B. is the incumbent of the Dangoor Professorial Chair of Archaeological Sciences at the Weizmann Institute of Science. We thank the reviewers for their very helpful comments. This research was in part funded by the Kimmel Center for Archaeological Science of the Weizmann Institute, and the Radiocarbon research was supported by the Exilarch Foundation for the Dangoor Research Accelerator Mass Spectrometer (D-REAMS) Laboratory. We thank to the Spanish Ministry of Economy and Competitivity to RMA (HAR2016-75216-P), for supporting part of the phytolith research, and special thanks to Arlene Rosen and Sophia Laparidou for the fruitful discussions on the phytoliths. The 3D scans of the pottery from the kiln were carried out by Avshalom Karasik (Israel Antiquities Authority Laboratory for Digital Documentation). E.B. is the incumbent of the Dangoor Professorial Chair of Archaeological Sciences at the Weizmann Institute of Science.

Funders	Funder number
D-REAMS
Exilarch Foundation for the Dangoor Research Accelerator Mass Spectrometer
Israel Antiquities Authority Laboratory for Digital Documentation
Kimmel Center for Archaeological Science
Spanish Ministry of Economy and Competitivity
Ministerio de Economía y Competitividad	HAR2016-75216-P

Keywords

Cristobalite
Fuel
Microarchaeology
Phytoliths
Pottery kilns
Slag

Access to Document

10.1016/j.jasrep.2020.102263

Cite this

Weiner, S., Nagorsky, A., Taxel, I., Asscher, Y., Albert, R. M., Regev, L., Yan, X., Natalio, F., & Boaretto, E. (2020). High temperature pyrotechnology: A macro- and microarchaeology study of a late Byzantine-beginning of Early Islamic period (7th century CE) pottery kiln from Tel Qatra/Gedera, Israel. Journal of Archaeological Science: Reports, 31, Article 102263. https://doi.org/10.1016/j.jasrep.2020.102263

@article{da53b8e0960c4bcbb761a58ab749bf2a,

title = "High temperature pyrotechnology: A macro- and microarchaeology study of a late Byzantine-beginning of Early Islamic period (7th century CE) pottery kiln from Tel Qatra/Gedera, Israel",

abstract = "Pottery kilns are usually recognizable in the archaeological record based on their prominent and characteristic architectural features, evidence of exposure to high temperatures and associated waste products. Here we describe how we identified a kiln that has no readily recognizable architectural features, but does have an upper chamber full of broken pottery, and a lower chamber full of ash. The typology of the pottery in the upper chamber and radiocarbon dating show that the kiln was constructed after around 600 CE and was used until the early 7th century. The confining structures around these two chambers are sediments, some of which were deliberately brought to the site. A detailed study of the section through the kiln using on-site and off-site microarchaeological techniques revealed much about the firing conditions. The ash is composed almost entirely of phytoliths with a small amount of calcite. Surprisingly the diversity of phytolith morphotypes identified was low, and many of the phytoliths are unusually large multicells. The phytolith analysis shows that the fuel was mainly the stalks/chaff of domesticated grasses, most probably wheat, and probably not animal dung. Many of the phytolith morphologies are distorted and charred due to exposure to high temperatures, and show birefringence. Infrared spectra show that the phytoliths have partially recrystallized into the high temperature silicate mineral cristobalite. Slags formed close to the inner surfaces of the confining sediments presumably from melted phytoliths, and some of the clay-rich sediment close to these surfaces is clearly heat altered. These observations show that the temperatures in the firing chamber ranged from around 700 to 900 °C. The calcite in this ash is extremely disordered at the atomic level, based on the grinding curve analysis. A partial reconstruction of the kiln structure shows that the pottery chamber is above the firing chamber, and there is no constructed partition that separates the two chambers. The identification and characterization of this unusual kiln depended significantly on the use of the microarchaeological approach.",

keywords = "Cristobalite, Fuel, Microarchaeology, Phytoliths, Pottery kilns, Slag",

author = "Steve Weiner and Alla Nagorsky and Itamar Taxel and Yotam Asscher and Albert, {Rosa Maria} and Lior Regev and Xin Yan and Filipe Natalio and Elisabetta Boaretto",

note = "Publisher Copyright: {\textcopyright} 2020 Elsevier Ltd",

year = "2020",

month = jun,

doi = "10.1016/j.jasrep.2020.102263",

language = "אנגלית",

volume = "31",

journal = "Journal of Archaeological Science: Reports",

issn = "2352-409X",

publisher = "Elsevier B.V.",

}

Weiner, S, Nagorsky, A, Taxel, I, Asscher, Y, Albert, RM, Regev, L, Yan, X, Natalio, F & Boaretto, E 2020, 'High temperature pyrotechnology: A macro- and microarchaeology study of a late Byzantine-beginning of Early Islamic period (7th century CE) pottery kiln from Tel Qatra/Gedera, Israel', Journal of Archaeological Science: Reports, vol. 31, 102263. https://doi.org/10.1016/j.jasrep.2020.102263

High temperature pyrotechnology: A macro- and microarchaeology study of a late Byzantine-beginning of Early Islamic period (7th century CE) pottery kiln from Tel Qatra/Gedera, Israel. / Weiner, Steve; Nagorsky, Alla; Taxel, Itamar et al.
In: Journal of Archaeological Science: Reports, Vol. 31, 102263, 06.2020.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - High temperature pyrotechnology

T2 - A macro- and microarchaeology study of a late Byzantine-beginning of Early Islamic period (7th century CE) pottery kiln from Tel Qatra/Gedera, Israel

AU - Weiner, Steve

AU - Nagorsky, Alla

AU - Taxel, Itamar

AU - Asscher, Yotam

AU - Albert, Rosa Maria

AU - Regev, Lior

AU - Yan, Xin

AU - Natalio, Filipe

AU - Boaretto, Elisabetta

PY - 2020/6

Y1 - 2020/6

N2 - Pottery kilns are usually recognizable in the archaeological record based on their prominent and characteristic architectural features, evidence of exposure to high temperatures and associated waste products. Here we describe how we identified a kiln that has no readily recognizable architectural features, but does have an upper chamber full of broken pottery, and a lower chamber full of ash. The typology of the pottery in the upper chamber and radiocarbon dating show that the kiln was constructed after around 600 CE and was used until the early 7th century. The confining structures around these two chambers are sediments, some of which were deliberately brought to the site. A detailed study of the section through the kiln using on-site and off-site microarchaeological techniques revealed much about the firing conditions. The ash is composed almost entirely of phytoliths with a small amount of calcite. Surprisingly the diversity of phytolith morphotypes identified was low, and many of the phytoliths are unusually large multicells. The phytolith analysis shows that the fuel was mainly the stalks/chaff of domesticated grasses, most probably wheat, and probably not animal dung. Many of the phytolith morphologies are distorted and charred due to exposure to high temperatures, and show birefringence. Infrared spectra show that the phytoliths have partially recrystallized into the high temperature silicate mineral cristobalite. Slags formed close to the inner surfaces of the confining sediments presumably from melted phytoliths, and some of the clay-rich sediment close to these surfaces is clearly heat altered. These observations show that the temperatures in the firing chamber ranged from around 700 to 900 °C. The calcite in this ash is extremely disordered at the atomic level, based on the grinding curve analysis. A partial reconstruction of the kiln structure shows that the pottery chamber is above the firing chamber, and there is no constructed partition that separates the two chambers. The identification and characterization of this unusual kiln depended significantly on the use of the microarchaeological approach.

AB - Pottery kilns are usually recognizable in the archaeological record based on their prominent and characteristic architectural features, evidence of exposure to high temperatures and associated waste products. Here we describe how we identified a kiln that has no readily recognizable architectural features, but does have an upper chamber full of broken pottery, and a lower chamber full of ash. The typology of the pottery in the upper chamber and radiocarbon dating show that the kiln was constructed after around 600 CE and was used until the early 7th century. The confining structures around these two chambers are sediments, some of which were deliberately brought to the site. A detailed study of the section through the kiln using on-site and off-site microarchaeological techniques revealed much about the firing conditions. The ash is composed almost entirely of phytoliths with a small amount of calcite. Surprisingly the diversity of phytolith morphotypes identified was low, and many of the phytoliths are unusually large multicells. The phytolith analysis shows that the fuel was mainly the stalks/chaff of domesticated grasses, most probably wheat, and probably not animal dung. Many of the phytolith morphologies are distorted and charred due to exposure to high temperatures, and show birefringence. Infrared spectra show that the phytoliths have partially recrystallized into the high temperature silicate mineral cristobalite. Slags formed close to the inner surfaces of the confining sediments presumably from melted phytoliths, and some of the clay-rich sediment close to these surfaces is clearly heat altered. These observations show that the temperatures in the firing chamber ranged from around 700 to 900 °C. The calcite in this ash is extremely disordered at the atomic level, based on the grinding curve analysis. A partial reconstruction of the kiln structure shows that the pottery chamber is above the firing chamber, and there is no constructed partition that separates the two chambers. The identification and characterization of this unusual kiln depended significantly on the use of the microarchaeological approach.

KW - Cristobalite

KW - Fuel

KW - Microarchaeology

KW - Phytoliths

KW - Pottery kilns

KW - Slag

UR - http://www.scopus.com/inward/record.url?scp=85082878200&partnerID=8YFLogxK

U2 - 10.1016/j.jasrep.2020.102263

DO - 10.1016/j.jasrep.2020.102263

M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???

AN - SCOPUS:85082878200

SN - 2352-409X

VL - 31

JO - Journal of Archaeological Science: Reports

JF - Journal of Archaeological Science: Reports

M1 - 102263

ER -

High temperature pyrotechnology: A macro- and microarchaeology study of a late Byzantine-beginning of Early Islamic period (7th century CE) pottery kiln from Tel Qatra/Gedera, Israel

Abstract

Bibliographical note

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Cite this