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dc.contributor.authorEllis, B. S.
dc.contributor.authorMark, D. F.
dc.contributor.authorTroch, J.
dc.contributor.authorBachmann, O.
dc.contributor.authorGuillong, M.
dc.contributor.authorKent, A. J. R.
dc.contributor.authorvon Quadt, A.
dc.identifier.citationEllis , B S , Mark , D F , Troch , J , Bachmann , O , Guillong , M , Kent , A J R & von Quadt , A 2017 , ' Split-grain 40 Ar/ 39 Ar dating : integrating temporal and geochemical data from crystal cargoes ' , Chemical Geology , vol. 457 , pp. 15-23 .
dc.identifier.otherPURE: 249307272
dc.identifier.otherPURE UUID: 4642c3d6-bc68-47c2-9e46-d7611de26af0
dc.identifier.otherRIS: urn:01BA2BF7E02714ACF526D948B34287A6
dc.identifier.otherScopus: 85015977119
dc.identifier.otherWOS: 000403516900002
dc.descriptionNERC is acknowledged for continued funding of AIF at SUERC, East Kilbride. This work was supported by an ETH research grant (ETH-05 13-2) and funds from Swiss National Science Foundation research grants (SNSF 200021-146268 and SNSF 200021-155923/1) and US National Science Grant 1425491.en
dc.description.abstractLarge sanidine crystals from the Mesa Falls Tuff (MFT), Yellowstone volcanic field, have been split and individually dated via high-precision 40Ar/39Ar geochronology with the undated portions further analysed for major elements, trace elements, Pb and Sr isotopes in the sanidine and trace elements in the melt inclusions. This allows the geochemical and geochronological identity of an individual sanidine to be combined. Our MFT sanidines return a preferred eruption age of 1.3011 ± 0.0015/0.0016 Ma (2-sigma, n = 56, MSWD 0.8, analytical/full external) with a significant component of subtly older (up to ~ 2 Ma) crystals. Combined with recent results (Rivera et al., 2016, Journal of Petrology 57, 9, 1677–1704) our data define a global mean sanidine 40Ar/39Ar age for the MFT of 1.3022 ± 0.0006/0.0008 Ma (2 sigma, analytical/full external) relative to Alder Creek sanidine at 1.1891 Ma and total λ40Ar 5.5305e-10, which gives RACsMFT: 1.09542 ± 0.00050. The ability to couple geochemistry and geochronology from a single grain allows us, for the first time, to evaluate the origin of the subtly older sanidines present in the same pumices as juvenile sanidines. Melt inclusions from all Mesa Falls sanidines represent extremely fractionated melts with low Sr contents (max. 12 ppm, n = 39), and rare earth element patterns which require that they be formed from an A-type magma rather than the preceding subduction-related Eocene volcanism as previously suggested. 87Sr/86Sr from juvenile and subtly older sanidines shows the same range of 0.7073 to 0.7096, illustrating the susceptibility of such low-Sr melts to slight degrees of assimilation. Pb isotopic compositions are more restricted and identical between the juvenile and subtly older sanidines in the Mesa Falls Tuff (207Pb/206Pb 0.900–0.903, 208Pb/206Pb 2.217–2.226, n = 83) and these compositions rule out the underlying Huckleberry Ridge Tuff member B as a potential source for the subtly older sanidine. LA-ICPMS 206Pb/238U dating of Mesa Falls zircons supports no role for the Huckleberry Ridge Tuff. Rather, these subtly older sanidines are interpreted as containing excess mantle-derived Ar. The ability to couple the geochemical and geochronological records within individual sanidine crystals that we demonstrate here has potential to provide new insights for a variety of petrological studies such as diffusional modelling.
dc.relation.ispartofChemical Geologyen
dc.rights© 2017 Elsevier Ltd. All rights reserved. This work has been made available online in accordance with the publisher’s policies. This is the author created, accepted version manuscript following peer review and may differ slightly from the final published version. The final published version of this work is available at
dc.subjectAr/Ar geochronologyen
dc.subjectSplit grainen
dc.subjectRadiogenic isotopesen
dc.subjectCrystal cargoen
dc.subjectGE Environmental Sciencesen
dc.subjectQD Chemistryen
dc.titleSplit-grain 40Ar/39Ar dating : integrating temporal and geochemical data from crystal cargoesen
dc.typeJournal articleen
dc.contributor.institutionUniversity of St Andrews.School of Geography and Geosciencesen
dc.description.statusPeer revieweden

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