TY - JOUR
T1 - U-Pb and Hf isotope analysis of detrital zircons from Paleozoic strata of the southern Alexander terrane (Southeast Alaska)
AU - White, Chelsi
AU - Gehrels, George E.
AU - Pecha, Mark
AU - Giesler, Dominique
AU - Yokelson, Intan
AU - McClelland, William C.
AU - Butler, Robert F.
N1 - Funding Information:
This work was funded by National Science Foundation EAR- 0947094 and EAR-0948359 (for support of the field and analytical work) and EAR-1338583 (for support of the Arizona LaserChron Center). Ken Kanipe, Chen Li, Clayton Loehn, and Gayland Simpson provided invaluable assistance with sample preparation, imaging, and analysis. Thanks go to Don Willson and James Gehrels for logistical support in the field. This paper was reviewed by Maurice Colpron and Brian Mahoney.
Publisher Copyright:
© 2015 Geological Society of America.
PY - 2016
Y1 - 2016
N2 - The Alexander terrane is an unusual tectonic fragment in the North American Cordillera in that it contains a long and very complete stratigraphic record, including sedimentary or volcanic rocks representing every period and nearly every epoch between Neoproterozoic and Late Triassic time. The terrane is also unusual in that the southern portion of the terrane experienced arc-type magmatism during Neoproterozoic-early Paleozoic time, whereas the northern portion of the terrane consists mainly of Paleozoic shelf-facies strata. This long and diverse history provides opportunities to reconstruct the evolution and displacement history of the terrane, and specifically test the prevailing interpretation that the terrane formed in the paleo-Arctic realm. This study presents U-Pb geochronologic data and Hf isotopic information for detrital zircons from arc-type rocks in the southern portion of the terrane. Information has been generated from seven samples of Ordovician through Devonian age, complementing the information available from previous studies of Ordovician through Triassic strata. Together, these data sets yield a robust record of the magmatic history of the southern Alexander terrane, with dominant age groups of 640-550 Ma, 490-400 Ma, 380-340 Ma, and 310-275 Ma (dominant ages of 579, 441, 361, and 293 Ma). There are few pre-640 Ma grains in any of the samples. Hf isotope compositions of the detrital zircons are exceptionally juvenile, with most epsilon Hf(t) values between +15 and +5. Collectively, the available geologic, U-Pb geochronologic, and Hf isotopic evidence suggests that the southern Alexander terrane formed within a juvenile Neoproterozoic-early Paleozoic arc system, with little continental influence, whereas the northern portion of the terrane formed in proximity to a continental landmass that experienced similar Neoproterozoic-early Paleozoic ages of continental-affinity magmatism. Our data are consistent with previous suggestions that the Alexander terrane resided in the paleo-Arctic realm during early Paleozoic time, with the northern portion of the terrane adjacent to Baltica and the Caledonides, and the southern portion of the terrane forming further offshore as a juvenile north-facing oceanic arc.
AB - The Alexander terrane is an unusual tectonic fragment in the North American Cordillera in that it contains a long and very complete stratigraphic record, including sedimentary or volcanic rocks representing every period and nearly every epoch between Neoproterozoic and Late Triassic time. The terrane is also unusual in that the southern portion of the terrane experienced arc-type magmatism during Neoproterozoic-early Paleozoic time, whereas the northern portion of the terrane consists mainly of Paleozoic shelf-facies strata. This long and diverse history provides opportunities to reconstruct the evolution and displacement history of the terrane, and specifically test the prevailing interpretation that the terrane formed in the paleo-Arctic realm. This study presents U-Pb geochronologic data and Hf isotopic information for detrital zircons from arc-type rocks in the southern portion of the terrane. Information has been generated from seven samples of Ordovician through Devonian age, complementing the information available from previous studies of Ordovician through Triassic strata. Together, these data sets yield a robust record of the magmatic history of the southern Alexander terrane, with dominant age groups of 640-550 Ma, 490-400 Ma, 380-340 Ma, and 310-275 Ma (dominant ages of 579, 441, 361, and 293 Ma). There are few pre-640 Ma grains in any of the samples. Hf isotope compositions of the detrital zircons are exceptionally juvenile, with most epsilon Hf(t) values between +15 and +5. Collectively, the available geologic, U-Pb geochronologic, and Hf isotopic evidence suggests that the southern Alexander terrane formed within a juvenile Neoproterozoic-early Paleozoic arc system, with little continental influence, whereas the northern portion of the terrane formed in proximity to a continental landmass that experienced similar Neoproterozoic-early Paleozoic ages of continental-affinity magmatism. Our data are consistent with previous suggestions that the Alexander terrane resided in the paleo-Arctic realm during early Paleozoic time, with the northern portion of the terrane adjacent to Baltica and the Caledonides, and the southern portion of the terrane forming further offshore as a juvenile north-facing oceanic arc.
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U2 - 10.1130/L475.1
DO - 10.1130/L475.1
M3 - Article
AN - SCOPUS:84958231861
SN - 1941-8264
VL - 8
SP - 83
EP - 96
JO - Lithosphere
JF - Lithosphere
IS - 1
ER -