New U-Pb-Hf zircon isotope data for the Paleoproterozoic Ubendian belt in the Chimala area, SW Tanzania

New U-Pb-Hf zircon isotope data for the Paleoproterozoic Ubendian belt in the Chimala area, SW Tanzania

We present new U-Pb and Hf zircon isotope data on a suite of granitoids from a hitherto unstudied area of the Palaeoproterozoic Lupa terrane of the Ubendian belt in SW Tanzania. The major part of the area comprises a sequence of upper amphibolite grade paragneisses and migmatites. Subsequently, the...

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Veröffentlicht in:Di xue qian yuan. 2019-11, Vol.10 (6), p.1993-2006
Hauptverfasser: Thomas, Robert J., Jacobs, Joachim, Elburg, Marlina A., Mruma, Abdul, Kamihanda, Godson, Kankila, Anthony, Masanja, Alex, Saidi, Hamisi
Format: Artikel
Sprache:eng
Schlagworte:
Diorite
Geochronology
Geological time
Granite
Igneous rocks
Isotopes
Mapping
Mesoproterozoic
Orogeny
Palaeoproterozoic
Radiometric dating
Sedimentary rocks
Tanzania
Tectonics
Ubendian
Zircon
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container_end_page 2006
container_issue 6
container_start_page 1993
container_title Di xue qian yuan.
container_volume 10
creator Thomas, Robert J.
Jacobs, Joachim
Elburg, Marlina A.
Mruma, Abdul
Kamihanda, Godson
Kankila, Anthony
Masanja, Alex
Saidi, Hamisi
description We present new U-Pb and Hf zircon isotope data on a suite of granitoids from a hitherto unstudied area of the Palaeoproterozoic Lupa terrane of the Ubendian belt in SW Tanzania. The major part of the area comprises a sequence of upper amphibolite grade paragneisses and migmatites. Subsequently, the field relations show a complex history of granitoid emplacement from early pre-tectonic strongly foliated diorite-tonalite-granodiorite orthogneiss to late tectonic, weakly deformed ellipsoidal granitoid plutons. These were followed by emplacement of undeformed K-feldspar rich porphyritic alkali granite. U-Pb zircon data on the granitoids show their emplacement ages span the period ∼1925 Ma to 1890 Ma and constrain the culmination of the Ubendian orogeny in the Lupa terrane to about 1900 Ma. The undeformed K-feldspar rich Chimala granite, previously considered to be unconformably overlain by the Buanji Group volcano-sedimentary rocks (recently shown to be ∼1675 Ma, not Neoproterozoic as originally thought) was dated at ∼1407 Ma showing that it must intrude the sedimentary rocks, although the age relationships are not exposed in the mapping area. This is the first record of early Irumide/Kibaran-aged post-tectonic granites in this part of East Africa. Hf isotope data from the zircons show that the granitoids have a long crustal pre-history stretching back to as far as ∼3.9 Ga, and showing that the Lupa terrane may form part of the “metacratonic” margin of an originally much more extensive Tanzania Craton. [Display omitted] •Mapping in Lupa terrane (Ubendian belt) described.•Granitoids analysed for U-Pb-Hf isotopes.•Ubendian granitoids dated between ∼1925 and 1890 Ma.•∼1400 Ma granite recognised.•Implications for evolution of Tanzania metacraton discussed.
doi_str_mv 10.1016/j.gsf.2018.05.010
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The major part of the area comprises a sequence of upper amphibolite grade paragneisses and migmatites. Subsequently, the field relations show a complex history of granitoid emplacement from early pre-tectonic strongly foliated diorite-tonalite-granodiorite orthogneiss to late tectonic, weakly deformed ellipsoidal granitoid plutons. These were followed by emplacement of undeformed K-feldspar rich porphyritic alkali granite. U-Pb zircon data on the granitoids show their emplacement ages span the period ∼1925 Ma to 1890 Ma and constrain the culmination of the Ubendian orogeny in the Lupa terrane to about 1900 Ma. The undeformed K-feldspar rich Chimala granite, previously considered to be unconformably overlain by the Buanji Group volcano-sedimentary rocks (recently shown to be ∼1675 Ma, not Neoproterozoic as originally thought) was dated at ∼1407 Ma showing that it must intrude the sedimentary rocks, although the age relationships are not exposed in the mapping area. This is the first record of early Irumide/Kibaran-aged post-tectonic granites in this part of East Africa. Hf isotope data from the zircons show that the granitoids have a long crustal pre-history stretching back to as far as ∼3.9 Ga, and showing that the Lupa terrane may form part of the “metacratonic” margin of an originally much more extensive Tanzania Craton. [Display omitted] •Mapping in Lupa terrane (Ubendian belt) described.•Granitoids analysed for U-Pb-Hf isotopes.•Ubendian granitoids dated between ∼1925 and 1890 Ma.•∼1400 Ma granite recognised.•Implications for evolution of Tanzania metacraton discussed.</abstract><cop>Oxford</cop><pub>Elsevier B.V</pub><doi>10.1016/j.gsf.2018.05.010</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0001-7154-1910</orcidid><oa>free_for_read</oa></addata></record>
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ispartof Di xue qian yuan., 2019-11, Vol.10 (6), p.1993-2006
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2588-9192
language eng
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subjects Diorite
Geochronology
Geological time
Granite
Igneous rocks
Isotopes
Mapping
Mesoproterozoic
Orogeny
Palaeoproterozoic
Radiometric dating
Sedimentary rocks
Tanzania
Tectonics
Ubendian
Zircon
title New U-Pb-Hf zircon isotope data for the Paleoproterozoic Ubendian belt in the Chimala area, SW Tanzania
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