Release of lead from Renaissance lead-glazed ceramics from southern Denmark and northern Germany: implications from acetic acid etching experiments

Kaare Lund Rasmussen; George R. Milner; Thomas Delbey; Lisa Kathrine Ivalu Jensen; Frauke Witte; Thilo Rehren; Ulla Kjaer; Poul Grinder-Hansen

doi:10.1186/s40494-022-00703-8

Release of lead from Renaissance lead-glazed ceramics from southern Denmark and northern Germany: implications from acetic acid etching experiments

Kaare Lund Rasmussen^*
, George R. Milner
, Thomas Delbey
, Lisa Kathrine Ivalu Jensen
, Frauke Witte
, Thilo Rehren
, Ulla Kjaer
, Poul Grinder-Hansen

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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Abstract

Lead-glazed potsherds from archaeological excavations at six Renaissance (1536–1660 CE) sites in southern Denmark and northern Germany have been subjected to etching experiments using 4 wt% acetic acid. The extracts of 45 sherds were analysed by Inductively Coupled Plasma Mass Spectrometry. At one site, the ducal hunting castle of Grøngaard, Pb levels in acid extracts from glazed dishes were so high (up to 29,000 µg Pb cm⁻² day⁻¹) that acute toxic effects likely occurred if the dishes were used for serving food containing vinegar. More moderate acid-etching Pb levels were found in dishes from other sites, but they still exceed the WHO critical level if used daily. Acetic acid etching experiments performed on pipkins (three-legged cooking pots with a handle) yielded somewhat lower Pb extract values, averaging ca. 25 µg Pb cm⁻² day⁻¹. Taking into account the widespread use of pipkins for cooking, they might easily have led to a higher weekly Pb intake than the use of the moderate-level dishes. The question remains whether such high levels of Pb exposure during meals led to injurious Pb intake. Prior skeletal analyses have shown that medieval to early modern individuals from the area, especially in towns, were exposed to Pb. While exposure could have come from various sources other than lead-glazed ceramics, such as cosmetics, paint, antibacterial ointments, and lead water pipes, widely distributed lead-glazed ceramics had the potential of being a main source of Pb. How the pottery was actually used is uncertain, and it certainly was not evenly distributed across all segments of society, but the etching experiment results suggest that severe poisonous effects could have resulted from the use of lead-glazed Renaissance ceramics.

Originalsprog	Engelsk
Artikelnummer	63
Tidsskrift	Heritage Science
Vol/bind	10
Antal sider	18
ISSN	2050-7445
DOI	https://doi.org/10.1186/s40494-022-00703-8
Status	Udgivet - 18. maj 2022

Bibliografisk note

Funding Information:
We are indebted to the late Bi Skårup for help with an earlier version of this paper. We thank the Museum Sønderjylland and Svendborg Museum for access to ceramics from Sønderborg Slot, Haderslev, Grøngaard, Trøjborg, and Rødskebølle. Maria E. Rasmussen, Signe F. Mogensen, Jette Linaa, and Hans Joachim Kühn are gratefully acknowledged for their observations and valuable discussions that greatly improved this paper. Lilian Skytte and Pia Klingenberg Haussmann are thanked for technical help with the ICP-MS measurements. ThR’s contribution to this project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 811068 (Promised – Promoting Archaeological Science in the Eastern Mediterranean) and is a publication of the A.G. Leventis Chair in Archaeological Sciences at the Cyprus Institute.

Publisher Copyright:
© 2022, The Author(s).

Finansiering

We are indebted to the late Bi Skårup for help with an earlier version of this paper. We thank the Museum Sønderjylland and Svendborg Museum for access to ceramics from Sønderborg Slot, Haderslev, Grøngaard, Trøjborg, and Rødskebølle. Maria E. Rasmussen, Signe F. Mogensen, Jette Linaa, and Hans Joachim Kühn are gratefully acknowledged for their observations and valuable discussions that greatly improved this paper. Lilian Skytte and Pia Klingenberg Haussmann are thanked for technical help with the ICP-MS measurements. ThR’s contribution to this project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 811068 (Promised – Promoting Archaeological Science in the Eastern Mediterranean) and is a publication of the A.G. Leventis Chair in Archaeological Sciences at the Cyprus Institute.

Dokumenter og links

10.1186/s40494-022-00703-8Licens: CC BY

Open access versionForlagets udgivne version, 2,52 MBLicens: CC BY

SDU link

Tjek adgangen til materialet i Syddansk Universitetsbiblioteks søgemaskine

Citationsformater

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title = "Release of lead from Renaissance lead-glazed ceramics from southern Denmark and northern Germany: implications from acetic acid etching experiments",

abstract = "Lead-glazed potsherds from archaeological excavations at six Renaissance (1536–1660 CE) sites in southern Denmark and northern Germany have been subjected to etching experiments using 4 wt\% acetic acid. The extracts of 45 sherds were analysed by Inductively Coupled Plasma Mass Spectrometry. At one site, the ducal hunting castle of Gr{\o}ngaard, Pb levels in acid extracts from glazed dishes were so high (up to 29,000 µg Pb cm−2 day−1) that acute toxic effects likely occurred if the dishes were used for serving food containing vinegar. More moderate acid-etching Pb levels were found in dishes from other sites, but they still exceed the WHO critical level if used daily. Acetic acid etching experiments performed on pipkins (three-legged cooking pots with a handle) yielded somewhat lower Pb extract values, averaging ca. 25 µg Pb cm−2 day−1. Taking into account the widespread use of pipkins for cooking, they might easily have led to a higher weekly Pb intake than the use of the moderate-level dishes. The question remains whether such high levels of Pb exposure during meals led to injurious Pb intake. Prior skeletal analyses have shown that medieval to early modern individuals from the area, especially in towns, were exposed to Pb. While exposure could have come from various sources other than lead-glazed ceramics, such as cosmetics, paint, antibacterial ointments, and lead water pipes, widely distributed lead-glazed ceramics had the potential of being a main source of Pb. How the pottery was actually used is uncertain, and it certainly was not evenly distributed across all segments of society, but the etching experiment results suggest that severe poisonous effects could have resulted from the use of lead-glazed Renaissance ceramics.",

keywords = "Ceramics, Etching, Glazing, Lead, Northern Europe, Renaissance",

author = "Rasmussen, \{Kaare Lund\} and Milner, \{George R.\} and Thomas Delbey and Jensen, \{Lisa Kathrine Ivalu\} and Frauke Witte and Thilo Rehren and Ulla Kjaer and Poul Grinder-Hansen",

note = "Funding Information: We are indebted to the late Bi Sk{\aa}rup for help with an earlier version of this paper. We thank the Museum S{\o}nderjylland and Svendborg Museum for access to ceramics from S{\o}nderborg Slot, Haderslev, Gr{\o}ngaard, Tr{\o}jborg, and R{\o}dskeb{\o}lle. Maria E. Rasmussen, Signe F. Mogensen, Jette Linaa, and Hans Joachim K{\"u}hn are gratefully acknowledged for their observations and valuable discussions that greatly improved this paper. Lilian Skytte and Pia Klingenberg Haussmann are thanked for technical help with the ICP-MS measurements. ThR{\textquoteright}s contribution to this project has received funding from the European Union{\textquoteright}s Horizon 2020 research and innovation programme under grant agreement No 811068 (Promised – Promoting Archaeological Science in the Eastern Mediterranean) and is a publication of the A.G. Leventis Chair in Archaeological Sciences at the Cyprus Institute. Publisher Copyright: {\textcopyright} 2022, The Author(s).",

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doi = "10.1186/s40494-022-00703-8",

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TY - JOUR

T1 - Release of lead from Renaissance lead-glazed ceramics from southern Denmark and northern Germany

T2 - implications from acetic acid etching experiments

AU - Rasmussen, Kaare Lund

AU - Milner, George R.

AU - Delbey, Thomas

AU - Jensen, Lisa Kathrine Ivalu

AU - Witte, Frauke

AU - Rehren, Thilo

AU - Kjaer, Ulla

AU - Grinder-Hansen, Poul

N1 - Funding Information: We are indebted to the late Bi Skårup for help with an earlier version of this paper. We thank the Museum Sønderjylland and Svendborg Museum for access to ceramics from Sønderborg Slot, Haderslev, Grøngaard, Trøjborg, and Rødskebølle. Maria E. Rasmussen, Signe F. Mogensen, Jette Linaa, and Hans Joachim Kühn are gratefully acknowledged for their observations and valuable discussions that greatly improved this paper. Lilian Skytte and Pia Klingenberg Haussmann are thanked for technical help with the ICP-MS measurements. ThR’s contribution to this project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 811068 (Promised – Promoting Archaeological Science in the Eastern Mediterranean) and is a publication of the A.G. Leventis Chair in Archaeological Sciences at the Cyprus Institute. Publisher Copyright: © 2022, The Author(s).

PY - 2022/5/18

Y1 - 2022/5/18

N2 - Lead-glazed potsherds from archaeological excavations at six Renaissance (1536–1660 CE) sites in southern Denmark and northern Germany have been subjected to etching experiments using 4 wt% acetic acid. The extracts of 45 sherds were analysed by Inductively Coupled Plasma Mass Spectrometry. At one site, the ducal hunting castle of Grøngaard, Pb levels in acid extracts from glazed dishes were so high (up to 29,000 µg Pb cm−2 day−1) that acute toxic effects likely occurred if the dishes were used for serving food containing vinegar. More moderate acid-etching Pb levels were found in dishes from other sites, but they still exceed the WHO critical level if used daily. Acetic acid etching experiments performed on pipkins (three-legged cooking pots with a handle) yielded somewhat lower Pb extract values, averaging ca. 25 µg Pb cm−2 day−1. Taking into account the widespread use of pipkins for cooking, they might easily have led to a higher weekly Pb intake than the use of the moderate-level dishes. The question remains whether such high levels of Pb exposure during meals led to injurious Pb intake. Prior skeletal analyses have shown that medieval to early modern individuals from the area, especially in towns, were exposed to Pb. While exposure could have come from various sources other than lead-glazed ceramics, such as cosmetics, paint, antibacterial ointments, and lead water pipes, widely distributed lead-glazed ceramics had the potential of being a main source of Pb. How the pottery was actually used is uncertain, and it certainly was not evenly distributed across all segments of society, but the etching experiment results suggest that severe poisonous effects could have resulted from the use of lead-glazed Renaissance ceramics.

AB - Lead-glazed potsherds from archaeological excavations at six Renaissance (1536–1660 CE) sites in southern Denmark and northern Germany have been subjected to etching experiments using 4 wt% acetic acid. The extracts of 45 sherds were analysed by Inductively Coupled Plasma Mass Spectrometry. At one site, the ducal hunting castle of Grøngaard, Pb levels in acid extracts from glazed dishes were so high (up to 29,000 µg Pb cm−2 day−1) that acute toxic effects likely occurred if the dishes were used for serving food containing vinegar. More moderate acid-etching Pb levels were found in dishes from other sites, but they still exceed the WHO critical level if used daily. Acetic acid etching experiments performed on pipkins (three-legged cooking pots with a handle) yielded somewhat lower Pb extract values, averaging ca. 25 µg Pb cm−2 day−1. Taking into account the widespread use of pipkins for cooking, they might easily have led to a higher weekly Pb intake than the use of the moderate-level dishes. The question remains whether such high levels of Pb exposure during meals led to injurious Pb intake. Prior skeletal analyses have shown that medieval to early modern individuals from the area, especially in towns, were exposed to Pb. While exposure could have come from various sources other than lead-glazed ceramics, such as cosmetics, paint, antibacterial ointments, and lead water pipes, widely distributed lead-glazed ceramics had the potential of being a main source of Pb. How the pottery was actually used is uncertain, and it certainly was not evenly distributed across all segments of society, but the etching experiment results suggest that severe poisonous effects could have resulted from the use of lead-glazed Renaissance ceramics.

KW - Ceramics

KW - Etching

KW - Glazing

KW - Lead

KW - Northern Europe

KW - Renaissance

U2 - 10.1186/s40494-022-00703-8

DO - 10.1186/s40494-022-00703-8

M3 - Journal article

AN - SCOPUS:85130309531

SN - 2050-7445

VL - 10

JO - Heritage Science

JF - Heritage Science

M1 - 63

ER -

Release of lead from Renaissance lead-glazed ceramics from southern Denmark and northern Germany: implications from acetic acid etching experiments

Abstract

Bibliografisk note

Finansiering

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SDU link

Fingeraftryk

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