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Stratigraphy and U-Pb detrital zircon geochronology of Wrangel Island, Russia: Implications for Arctic paleogeography
Stockholm University, Faculty of Science, Department of Geological Sciences.
2010 (English)In: American Association of Petroleum Geologists Bulletin, ISSN 0149-1423, Vol. 94, no 5, 665-692 p.Article in journal (Refereed) Published
Abstract [en]

Wrangel Island represents a small but unique exposure of Neoproterozoic basement and its upper Paleozoic and Mesozoic cover within the mostly unexplored East Siberian Shelf. Its geology is critical for testing the continuity of stratigraphic units and structures across the Chukchi Sea from Alaska to Arctic Russia, for evaluating the hydrocarbon potential of this offshore region, and for constraining paleogeography and plate reconstructions of the Arctic. Upper Paleozoic platform carbonates and shales on Wrangel likely match those of the Chukchi Shelf and adjacent North Slope of Alaska (e.g., Sherwood et al., 2002), but Triassic basinal turbidites contrast with Alaska's thin shelfal units. Detrital zircon suites from upper Paleozoic strata on Wrangel reveal that local basement-derived detritus (similar to 500-800 Ma) decreases up section, replaced by 900-2000-Ma zircon populations compatible with a Baltic shield provenance. Cambrian-Ordovician-Silurian zircons (similar to 420-490 Ma) are present in lesser abundance in most samples and are inferred to have been derived from the Arctic part of the Caledonide belt. Triassic detrital zircon suites contrast with those from underlying strata: Precambrian zircons have less of an age range (1700-2000 Ma), and Devonian and younger (<400 Ma) zircons are much more abundant. This change reflects breakup of the carbonate platform during Permian-Triassic rifting, with zircon age populations in Triassic strata compatible with sediment sources in the Urals, Taimyr, and Siberia. Detrital zircon data suggest that Wrangel Island, Chukotka, and northern Alaska (the Arctic Alaska-Chukotka microplate) restore against the Lomonosov Ridge upon closure of the Amerasia Basin and to the edge of the Barents Shelf after closing the Eurasia Basin. The detrital zircon data thus suggest that the Barents Shelf lays close to the paleo-Pacific margin in the early Mesozoic and that subduction-driven tectonics may have been a greater factor in the evolution of the Amerasia Basin of the Arctic than previously suspected.

Place, publisher, year, edition, pages
2010. Vol. 94, no 5, 665-692 p.
National Category
Earth and Related Environmental Sciences
URN: urn:nbn:se:su:diva-50672DOI: 10.1306/10200909036ISI: 000277631100004OAI: diva2:382904
authorCount :4Available from: 2011-01-03 Created: 2010-12-30 Last updated: 2011-01-03Bibliographically approved

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