Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization

Nanospheres of lead (Pb) have recently been identified in zircon (ZrSiO4) with the potential to compromise the veracity of U-Pb age determinations. The key assumption that the determined age is robust against the effects of Pb mobility, as long as Pb is not lost from the zircon during subsequent geo...

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Published in:	Scientific Reports
Main Authors:	Lyon, Ian, Kusak, Monika A., Wirth, Richard, Whitehouse, Martin J., Dunkley, Daniel J., Wilde, Simon A., Schaumlöffel, Dirk, Malherbe, Julien, Moore, Katie
Format:	Article in Journal/Newspaper
Language:	English
Published:	2019
Subjects:	ResearchInstitutes_Networks_Beacons/photon_science_institute Photon Science Institute Antarc* Antarctica East Antarctica Enderby Land
Online Access:	https://research.manchester.ac.uk/en/publications/752925ec-1093-4b6e-9ba0-470d80c20d37 https://doi.org/10.1038/s41598-019-49882-8

id	ftumanchesterpub:oai:pure.atira.dk:publications/752925ec-1093-4b6e-9ba0-470d80c20d37
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spelling	ftumanchesterpub:oai:pure.atira.dk:publications/752925ec-1093-4b6e-9ba0-470d80c20d37 2023-11-12T04:06:04+01:00 Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization Lyon, Ian Kusak, Monika A. Wirth, Richard Whitehouse, Martin J. Dunkley, Daniel J. Wilde, Simon A. Schaumlöffel, Dirk Malherbe, Julien Moore, Katie 2019-09-23 https://research.manchester.ac.uk/en/publications/752925ec-1093-4b6e-9ba0-470d80c20d37 https://doi.org/10.1038/s41598-019-49882-8 eng eng info:eu-repo/semantics/openAccess Lyon , I , Kusak , M A , Wirth , R , Whitehouse , M J , Dunkley , D J , Wilde , S A , Schaumlöffel , D , Malherbe , J & Moore , K 2019 , ' Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization ' , Scientific Reports . https://doi.org/10.1038/s41598-019-49882-8 ResearchInstitutes_Networks_Beacons/photon_science_institute Photon Science Institute article 2019 ftumanchesterpub https://doi.org/10.1038/s41598-019-49882-8 2023-10-30T09:18:33Z Nanospheres of lead (Pb) have recently been identified in zircon (ZrSiO4) with the potential to compromise the veracity of U-Pb age determinations. The key assumption that the determined age is robust against the effects of Pb mobility, as long as Pb is not lost from the zircon during subsequent geological events, is now in question. To determine the effect of nanosphere formation on age determination, and whether analysis of nanospheres can yield additional information about the timing of both zircon growth and nanosphere formation, zircons from the Napier Complex in Enderby Land, east Antarctica, were investigated by high-spatial resolution NanoSIMS (Secondary Ion Mass Spectrometry) mapping. Conventional SIMS analyses with >µm resolution potentially mixes Pb from multiple nanospheres with the zircon host, yielding variable average values and therefore unreliable ages. NanoSIMS analyses were obtained of 207Pb/206Pb in nanospheres a few nanometres in diameter that were resolved from 207Pb/206Pb measurements in the zircon host. We demonstrate that analysis of 207Pb/206Pb in multiple individual Pb nanospheres, along with separate analysis of 207Pb/206Pb in the zircon host, can not only accurately yield the age of zircon crystallization, but also the time of nanosphere formation resulting from Pb mobilization during metamorphism. Model ages for both events can be derived that are correlated due to the limited range of possible solutions that can be satisfied by the measured 207Pb/206Pb ratios of nanospheres and zircon host. For the Napier Complex zircons, this yields a model age of ca 3110 Ma for zircon formation and a late Archean model age of 2610 Ma for the metamorphism that produced the nanospheres. The nanosphere model age (NMA) method constrains both the crystallization age and age of the metamorphism to ~ ±135 Ma, a significant improvement on errors derived from counting statistics. Article in Journal/Newspaper Antarc* Antarctica East Antarctica Enderby Land The University of Manchester: Research Explorer Scientific Reports 9 1
institution	Open Polar
collection	The University of Manchester: Research Explorer
op_collection_id	ftumanchesterpub
language	English
topic	ResearchInstitutes_Networks_Beacons/photon_science_institute Photon Science Institute
spellingShingle	ResearchInstitutes_Networks_Beacons/photon_science_institute Photon Science Institute Lyon, Ian Kusak, Monika A. Wirth, Richard Whitehouse, Martin J. Dunkley, Daniel J. Wilde, Simon A. Schaumlöffel, Dirk Malherbe, Julien Moore, Katie Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization
topic_facet	ResearchInstitutes_Networks_Beacons/photon_science_institute Photon Science Institute
description	Nanospheres of lead (Pb) have recently been identified in zircon (ZrSiO4) with the potential to compromise the veracity of U-Pb age determinations. The key assumption that the determined age is robust against the effects of Pb mobility, as long as Pb is not lost from the zircon during subsequent geological events, is now in question. To determine the effect of nanosphere formation on age determination, and whether analysis of nanospheres can yield additional information about the timing of both zircon growth and nanosphere formation, zircons from the Napier Complex in Enderby Land, east Antarctica, were investigated by high-spatial resolution NanoSIMS (Secondary Ion Mass Spectrometry) mapping. Conventional SIMS analyses with >µm resolution potentially mixes Pb from multiple nanospheres with the zircon host, yielding variable average values and therefore unreliable ages. NanoSIMS analyses were obtained of 207Pb/206Pb in nanospheres a few nanometres in diameter that were resolved from 207Pb/206Pb measurements in the zircon host. We demonstrate that analysis of 207Pb/206Pb in multiple individual Pb nanospheres, along with separate analysis of 207Pb/206Pb in the zircon host, can not only accurately yield the age of zircon crystallization, but also the time of nanosphere formation resulting from Pb mobilization during metamorphism. Model ages for both events can be derived that are correlated due to the limited range of possible solutions that can be satisfied by the measured 207Pb/206Pb ratios of nanospheres and zircon host. For the Napier Complex zircons, this yields a model age of ca 3110 Ma for zircon formation and a late Archean model age of 2610 Ma for the metamorphism that produced the nanospheres. The nanosphere model age (NMA) method constrains both the crystallization age and age of the metamorphism to ~ ±135 Ma, a significant improvement on errors derived from counting statistics.
format	Article in Journal/Newspaper
author	Lyon, Ian Kusak, Monika A. Wirth, Richard Whitehouse, Martin J. Dunkley, Daniel J. Wilde, Simon A. Schaumlöffel, Dirk Malherbe, Julien Moore, Katie
author_facet	Lyon, Ian Kusak, Monika A. Wirth, Richard Whitehouse, Martin J. Dunkley, Daniel J. Wilde, Simon A. Schaumlöffel, Dirk Malherbe, Julien Moore, Katie
author_sort	Lyon, Ian
title	Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization
title_short	Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization
title_full	Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization
title_fullStr	Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization
title_full_unstemmed	Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization
title_sort	pb nanospheres in ancient zircon yield model ages for zircon formation and pb mobilization
publishDate	2019
url	https://research.manchester.ac.uk/en/publications/752925ec-1093-4b6e-9ba0-470d80c20d37 https://doi.org/10.1038/s41598-019-49882-8
genre	Antarc* Antarctica East Antarctica Enderby Land
genre_facet	Antarc* Antarctica East Antarctica Enderby Land
op_source	Lyon , I , Kusak , M A , Wirth , R , Whitehouse , M J , Dunkley , D J , Wilde , S A , Schaumlöffel , D , Malherbe , J & Moore , K 2019 , ' Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization ' , Scientific Reports . https://doi.org/10.1038/s41598-019-49882-8
op_rights	info:eu-repo/semantics/openAccess
op_doi	https://doi.org/10.1038/s41598-019-49882-8
container_title	Scientific Reports
container_volume	9
container_issue	1
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Pb nanospheres in ancient zircon yield model ages for zircon formation and Pb mobilization

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