Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions
Granites crystallize from melts with a range of compositions and textures that provide important clues about the evolution of the continental crust. Rapakivi or A-type granites are usually inferred to be unrelated to active tectonic processes. Granites that fall into this category are widespread acr...
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sg-ntu-dr.10356-1071182020-09-26T21:36:31Z Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions Almeida, Rafael V. Cai, Yue Hemming, Sidney R. Christie-Blick, Nicholas Neiswanger, Lila S. Earth Observatory of Singapore Granites Science::Geology U-Pb Zircon Granites crystallize from melts with a range of compositions and textures that provide important clues about the evolution of the continental crust. Rapakivi or A-type granites are usually inferred to be unrelated to active tectonic processes. Granites that fall into this category are widespread across the interior of North America. They are generally considered to be 1450–1400 Ma and anorogenic. We report new and substantially older U-Pb zircon ages of 1683.2 ± 4.7, 1681.4 ± 5.1, and 1683.3 ± 6.1 Ma for rapakivi granites from the Davis Dam area, the Lucy Gray Range, and the Newberry Mountains of southern Nevada, respectively. These granites are thus associated with the Ivanpah orogeny. Rapakivi granites from Gold Butte, Nevada, also previously thought to be 1450–1400 Ma, yielded a younger U-Pb zircon age of 1373 ± 23 Ma. In addition to these new age constraints, new Nd and Pb isotope data allow us to refine previously mapped isotopic crustal boundaries. Nd and Pb isotopes from the ~1680 Ma granites indicate a brief residence in the crust prior to crystallization, whereas the source of the younger Gold Butte granite appears to have significant crustal heritage. The modified isotopic province boundaries are now more consistent with each other than in earlier interpretations, a result that reinforces the view that these boundaries reflect fundamental tectonic features related to Paleoproterozoic crustal accretion. Our data imply that the spatial distribution of the classic anorogenic granite suite in North America is more restricted than previously thought. They also draw attention to the need for more extensive dating and radiogenic isotope measurements to probe the midcontinent belt of granites more broadly. Although plutons look alike, it can no longer be assumed that they were intruded synchronously or formed from the same source. Published version 2019-10-01T02:24:33Z 2019-12-06T22:25:06Z 2019-10-01T02:24:33Z 2019-12-06T22:25:06Z 2016 Journal Article Almeida, R. V., Cai, Y., Hemming, S. R., Christie-Blick, N., & Neiswanger, L. S. (2016). Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions. The Journal of Geology, 124(3), 313-329. doi:10.1086/685766 0022-1376 https://hdl.handle.net/10356/107118 http://hdl.handle.net/10220/50051 10.1086/685766 en The Journal of Geology © 2016 The University of Chicago. All rights reserved. This paper was published in The Journal of Geology and is made available with permission of The University of Chicago. 17 p. application/pdf |
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Granites Science::Geology U-Pb Zircon Almeida, Rafael V. Cai, Yue Hemming, Sidney R. Christie-Blick, Nicholas Neiswanger, Lila S. Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions |
| description |
Granites crystallize from melts with a range of compositions and textures that provide important clues about the evolution of the continental crust. Rapakivi or A-type granites are usually inferred to be unrelated to active tectonic processes. Granites that fall into this category are widespread across the interior of North America. They are generally considered to be 1450–1400 Ma and anorogenic. We report new and substantially older U-Pb zircon ages of 1683.2 ± 4.7, 1681.4 ± 5.1, and 1683.3 ± 6.1 Ma for rapakivi granites from the Davis Dam area, the Lucy Gray Range, and the Newberry Mountains of southern Nevada, respectively. These granites are thus associated with the Ivanpah orogeny. Rapakivi granites from Gold Butte, Nevada, also previously thought to be 1450–1400 Ma, yielded a younger U-Pb zircon age of 1373 ± 23 Ma. In addition to these new age constraints, new Nd and Pb isotope data allow us to refine previously mapped isotopic crustal boundaries. Nd and Pb isotopes from the ~1680 Ma granites indicate a brief residence in the crust prior to crystallization, whereas the source of the younger Gold Butte granite appears to have significant crustal heritage. The modified isotopic province boundaries are now more consistent with each other than in earlier interpretations, a result that reinforces the view that these boundaries reflect fundamental tectonic features related to Paleoproterozoic crustal accretion. Our data imply that the spatial distribution of the classic anorogenic granite suite in North America is more restricted than previously thought. They also draw attention to the need for more extensive dating and radiogenic isotope measurements to probe the midcontinent belt of granites more broadly. Although plutons look alike, it can no longer be assumed that they were intruded synchronously or formed from the same source. |
| author2 |
Earth Observatory of Singapore |
| author_facet |
Earth Observatory of Singapore Almeida, Rafael V. Cai, Yue Hemming, Sidney R. Christie-Blick, Nicholas Neiswanger, Lila S. |
| format |
Article |
| author |
Almeida, Rafael V. Cai, Yue Hemming, Sidney R. Christie-Blick, Nicholas Neiswanger, Lila S. |
| author_sort |
Almeida, Rafael V. |
| title |
Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions |
| title_short |
Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions |
| title_full |
Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions |
| title_fullStr |
Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions |
| title_full_unstemmed |
Reexamination of the crustal boundary context of Mesoproterozoic granites in southern Nevada using U-Pb zircon chronology and Nd and Pb isotopic compositions |
| title_sort |
reexamination of the crustal boundary context of mesoproterozoic granites in southern nevada using u-pb zircon chronology and nd and pb isotopic compositions |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/107118 http://hdl.handle.net/10220/50051 |
| _version_ |
1681059095211147264 |