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Taylor, Richard J.M., Johnson, Tim E., Clark, Chris, Harrison, Richard J. (2020) Persistence of melt-bearing Archean lower crust for >200 m.y.—An example from the Lewisian Complex, northwest Scotland. Geology, 48 (3) 221-225 doi:10.1130/g46834.1

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Reference TypeJournal (article/letter/editorial)
TitlePersistence of melt-bearing Archean lower crust for >200 m.y.—An example from the Lewisian Complex, northwest Scotland
JournalGeology
AuthorsTaylor, Richard J.M.Author
Johnson, Tim E.Author
Clark, ChrisAuthor
Harrison, Richard J.Author
Year2020 (March 1)Volume48
Issue3
PublisherGeological Society of America
DOIdoi:10.1130/g46834.1Search in ResearchGate
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Mindat Ref. ID144108Long-form Identifiermindat:1:5:144108:0
GUID0
Full ReferenceTaylor, Richard J.M., Johnson, Tim E., Clark, Chris, Harrison, Richard J. (2020) Persistence of melt-bearing Archean lower crust for >200 m.y.—An example from the Lewisian Complex, northwest Scotland. Geology, 48 (3) 221-225 doi:10.1130/g46834.1
Plain TextTaylor, Richard J.M., Johnson, Tim E., Clark, Chris, Harrison, Richard J. (2020) Persistence of melt-bearing Archean lower crust for >200 m.y.—An example from the Lewisian Complex, northwest Scotland. Geology, 48 (3) 221-225 doi:10.1130/g46834.1
In(2020, March) Geology Vol. 48 (3) Geological Society of America
Abstract/NotesAbstract
Geochronological data from zircon in Archean tonalite–trondhjemite–granodiorite (TTG) gneisses are commonly difficult to interpret. A notable example is the TTG gneisses from the Lewisian Gneiss Complex, northwest Scotland, which have metamorphic zircon ages that define a more-or-less continuous spread through the Neoarchean, with no clear relationship to zircon textures. These data are generally interpreted to record discrete high-grade events at ca. 2.7 Ga and ca. 2.5 Ga, with intermediate ages reflecting variable Pb loss. Although ancient diffusion of Pb is commonly invoked to explain such protracted age spreads, trace-element data in zircon may permit identification of otherwise cryptic magmatic and metamorphic episodes. Although zircons from the TTG gneiss analyzed here show a characteristic spread of Neoarchean ages, they exhibit subtle but key step changes in trace-element compositions that are difficult to ascribe to diffusive resetting, but that are consistent with emplacement of regionally extensive bodies of mafic magma. These data suggest suprasolidus metamorphic temperatures persisted for 200 m.y. or more during the Neoarchean. Such long-lived high-grade metamorphism is supported by data from zircon grains from a nearby monzogranite sheet. These preserve distinctive trace-element compositions consistent with derivation from a mafic source, and they define a well-constrained U-Pb zircon age of ca. 2.6 Ga that is intermediate between the two previously proposed discrete metamorphic episodes. The persistence of melt-bearing lower crust for hundreds of millions of years was probably the norm during the Archean.

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Feisel, Yves, White, Richard W., Palin, Richard M., Johnson, Tim E. (2018) New constraints on granulite facies metamorphism and melt production in the Lewisian Complex, northwest Scotland. Journal of Metamorphic Geology, 36 (6) 799-819 doi:10.1111/jmg.12311
Johnson, Tim E., Clark, Chris, Taylor, Richard J.M., Santosh, M., Collins, Alan S. (2015) Prograde and retrograde growth of monazite in migmatites: An example from the Nagercoil Block, southern India. Geoscience Frontiers, 6 (3) 373-387 doi:10.1016/j.gsf.2014.12.003
Johnson, Tim E., Brown, Michael, Goodenough, Kathryn M., Clark, Chris, Kinny, Peter D., White, Richard W. (2016) Subduction or sagduction? Ambiguity in constraining the origin of ultramafic–mafic bodies in the Archean crust of NW Scotland. Precambrian Research, 283. 89-105 doi:10.1016/j.precamres.2016.07.013
Clark, Chris, Healy, David, Johnson, Tim, Collins, Alan S., Taylor, Richard J., Santosh, M., Timms, Nicholas E. (2015) Hot orogens and supercontinent amalgamation: A Gondwanan example from southern India. Gondwana Research, 28 (4) 1310-1328 doi:10.1016/j.gr.2014.11.005
Blereau, Eleanore, Johnson, Tim E., Clark, Chris, Taylor, Richard J.M., Kinny, Peter D., Hand, Martin (2017) Reappraising the P–T evolution of the Rogaland–Vest Agder Sector, southwestern Norway. Geoscience Frontiers, 8 (1) 1-14 doi:10.1016/j.gsf.2016.07.003
Clark, Chris, Brown, Michael, Knight, Ben, Johnson, Tim E., Mitchell, Ruairidh J., Gupta, Saibal (2024) Ultraslow cooling of an ultrahot orogen. Geology, 52 (12). doi:10.1130/g52442.1
Clark, Chris, Taylor, Richard J. M., Johnson, Tim E., Harley, Simon L., Fitzsimons, Ian C. W., Oliver, Liam (2019) Testing the fidelity of thermometers at ultrahigh temperatures. Journal of Metamorphic Geology, 37 (7) 917-934 doi:10.1111/jmg.12486
Mitchell, Ruairidh J., Johnson, Tim E., Clark, Chris, Gupta, Saibal, Brown, Michael, Harley, Simon L., Taylor, Richard (2019) Neoproterozoic evolution and Cambrian reworking of ultrahigh temperature granulites in the Eastern Ghats Province, India. Journal of Metamorphic Geology, 37 (7) 977-1006 doi:10.1111/jmg.12451
Clark, Chris, Taylor, Richard J. M., Kylander-Clark, Andrew R. C., Hacker, Bradley R. (2018) Prolonged (>100 Ma) ultrahigh temperature metamorphism in the Napier Complex, East Antarctica: A petrochronological investigation of Earth's hottest crust. Journal of Metamorphic Geology, 36 (9) 1117-1139 doi:10.1111/jmg.12430
Johnson, Tim E., White, Richard W., Clark, Chris (2019) Into the melting pot: A celebration of the career of Michael Brown. Journal of Metamorphic Geology, 37 (7) 889-897 doi:10.1111/jmg.12505
Tucker, Naomi M., Payne, Justin L., Clark, Chris, Hand, Martin, Taylor, Richard J.M., Kylander-Clark, Andrew R.C., Martin, Laure (2017) Proterozoic reworking of Archean (Yilgarn) basement in the Bunger Hills, East Antarctica. Precambrian Research, 298. 16-38 doi:10.1016/j.precamres.2017.05.013
 
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