scholarly journals Upper cretaceous radiolarian assemblages and paleoenvironments of the Sverdrup Basin, Ellef Ringnes Island, Nunavut, Canada

2012 ◽  
Author(s):  
Adam Pugh
Keyword(s):  
Upper Cretaceous ◽  
Sverdrup Basin ◽  
Ellef Ringnes Island ◽  
Radiolarian Assemblages

Late Cretaceous radiolarians from a bentonite-rich interval at the base of the Niobrara Formation, southwestern Saskatchewan, Canada: biostratigraphic and paleoenvironmental implications

2018 ◽  
Vol 55 (3) ◽  
pp. 321-329
Author(s):  
Juan F. Diaz ◽  
Maria I. Velez
Keyword(s):  
North America ◽  
Upper Cretaceous ◽  
Niobrara Formation ◽  
Radiolarian Assemblage ◽  
Volcanic Events ◽  
Before And After ◽  
Western Interior Basin ◽  
Sverdrup Basin ◽  
High Silica ◽  
Radiolarian Assemblages

A radiolarian assemblage containing 11 species of both nasellarians and spumellarians was recovered from the Upper Cretaceous Niobrara Formation in southwestern Saskatchewan, Canada. This assemblage represents the first report of Coniacian radiolarians in the entire Western Interior Basin and one of the few reports for the Upper Cretaceous in North America. The presence of radiolarians and the partial disappearance of foraminifera in the only bentonitic interval in this formation suggest that high silica concentrations supplied by volcanic events favored ecological conditions for radiolarians to thrive and or enhanced their preservation before and after deposition. Correlation of this assemblage with other Upper Cretaceous radiolarian assemblages in North America shows a close affinity with the microfauna recovered in the Sverdrup Basin (Canadian Arctic).

Mixed local and ultra-distal volcanic ash deposition within the Upper Cretaceous Kanguk Formation, Sverdrup Basin, Canadian Arctic Islands

2019 ◽  
Vol 156 (12) ◽  
pp. 2067-2084 ◽  
Author(s):  
Michael A Pointon ◽  
Michael J Flowerdew ◽  
Peter Hülse ◽  
Simon Schneider ◽  
Martin J Whitehouse
Keyword(s):  
Upper Cretaceous ◽  
Volcanic Ash ◽  
Tectonic Setting ◽  
Active Continental Margin ◽  
Far East ◽  
Canadian Arctic ◽  
Volcanic Belt ◽  
Geochemical Data ◽  
Sverdrup Basin ◽  
Chukotka Volcanic Belt

AbstractThe Upper Cretaceous Kanguk Formation of the Sverdrup Basin, Canadian Arctic Islands, contains numerous diagenetically altered volcanic ash layers (bentonites). Eleven bentonites were sampled from an outcrop section on Ellesmere Island for U–Pb zircon secondary ion mass spectrometry dating and whole-rock geochemical analysis. Two distinct types of bentonite are identified from the geochemical data. Relatively thick (0.1 to 5 m) peralkaline rhyolitic to trachytic bentonites erupted in an intraplate tectonic setting. These occur throughout the upper Turonian to lower Campanian (c. 92–83 Ma) outcrop section and are likely associated with the alkaline phase of the High Arctic Large Igneous Province. Two thinner (<5 cm) subalkaline dacitic to rhyolitic bentonites of late Turonian to early Coniacian age (c. 90–88 Ma) are also identified. The geochemistry of these bentonites is consistent with derivation from volcanoes within an active continental margin tectonic setting. The lack of nearby potential sources of subalkaline magmatism, together with the thinner bed thickness of the subalkaline bentonites and the small size of zircon phenocrysts therein (typically 50–80 μm in length) are consistent with a more distal source area. The zircon U–Pb age and whole-rock geochemistry of these two subalkaline bentonites correlate with an interval of intense volcanism in the Okhotsk–Chukotka Volcanic Belt, Russia. It is proposed that during late Turonian to early Coniacian times intense volcanism within the Okhotsk–Chukotka Volcanic Belt resulted in widespread volcanic ash dispersal across Arctic Alaska and Canada, reaching as far east as the Sverdrup Basin, more than 3000 km away.

Integrated biostratigraphy and carbon isotope stratigraphy for the Upper Cretaceous Kanguk Formation of the High Arctic Sverdrup Basin, Canada

2018 ◽  
Vol 130 (9-10) ◽  
pp. 1540-1561 ◽  
Author(s):  
Marissa A. Davies ◽  
Claudia J. Schröder-Adams ◽  
Jens O. Herrle ◽  
Peter Hülse ◽  
Simon Schneider ◽  
...  
Keyword(s):  
Carbon Isotope ◽  
Upper Cretaceous ◽  
High Arctic ◽  
Carbon Isotope Stratigraphy ◽  
Sverdrup Basin ◽  
Isotope Stratigraphy

Paleogeographic significance of Scaphites depressus in the Kanguk Formation (Upper Cretaceous), Axel Heiberg Island, Canadian Arctic

1994 ◽  
Vol 31 (4) ◽  
pp. 733-736 ◽  
Author(s):  
L. V. Hills ◽  
W. F. Braunberger ◽  
L. K. Núñez-Betelu ◽  
R. L. Hall
Keyword(s):  
Upper Cretaceous ◽  
Canadian Arctic ◽  
Western Interior Seaway ◽  
Sverdrup Basin ◽  
Axel Heiberg Island ◽  
First Time

The late Coniacian Scaphites depressus Reeside has been found at Glacier Fiord, Axel Heiberg Island, in the Kanguk Formation for the first time. This ammonite find confirms and modifies earlier postulated connections between the Western Interior Seaway and the Sverdrup Basin during the late Coniacian.

A late Coniacian ceratioid dinoflagellate cyst, Odontochitina octopus sp.nov., from the Kanguk Formation, Canadian Arctic

1998 ◽  
Vol 35 (8) ◽  
pp. 923-930 ◽  
Author(s):  
K Núñez-Betelu ◽  
L V Hills
Keyword(s):  
New Species ◽  
Environmental Conditions ◽  
Upper Cretaceous ◽  
Canadian Arctic ◽  
Marine Species ◽  
Previous Description ◽  
Dinoflagellate Cyst ◽  
The Family ◽  
Sverdrup Basin

Anew species of dinoflagellate cyst, Odontochitina octopus sp.nov., is described from the Upper Cretaceous Kanguk Formation of the Sverdrup Basin, Canadian Arctic Islands. The features that support the proposal of this new species also necessitate the emendation of the genus. Odontochitina octopus is a large, cornucavate, and ceratioid cyst with four finger-like terminations on the apical horns and two terminations on both the postcingular and antapical horns. These finger-like terminations are unique to this new species and are formed by the detachment of the paraplates at mid-length of each horn. All other features of O. octopus conform with the previous description of the genus. In the Family Ceratiaceae four plates form the apical horn, whereas two plates are involved in both the postcingular and antapical horns. In O. octopus the mid-length detachment of the horn-forming paraplates seems to have developed the finger-like terminations. Since the nature and amount of pores and perforations in other species of Odontochitina are variable and possibly linked to changes in the environment, the presence of the multiple-fingered O. octopus in a single widespread horizon might also be indicative of short-lived unusual environmental conditions. At this horizon, which has been dated as late Coniacian by the ammonite Scaphites depressus Reeside, the palynomorph assemblage is highly dominated by marine species.

U–Pb geochronology of bentonites from the Upper Cretaceous Kanguk Formation, Sverdrup Basin, Arctic Canada: constraints on sedimentation rates, biostratigraphic correlations and the late magmatic history of the High Arctic Large Igneous Province

2016 ◽  
Vol 154 (4) ◽  
pp. 757-776 ◽  
Author(s):  
WILLIAM J. DAVIS ◽  
CLAUDIA J. SCHRÖDER-ADAMS ◽  
JENNIFER M. GALLOWAY ◽  
JENS O. HERRLE ◽  
ADAM T. PUGH
Keyword(s):  
Upper Cretaceous ◽  
High Arctic ◽  
Large Igneous Province ◽  
Lower Latitude ◽  
Sedimentation Rates ◽  
Oceanic Anoxic Event ◽  
Igneous Province ◽  
Sverdrup Basin ◽  
History Of ◽  
Magmatic History

AbstractU–Pb ages of zircon from bentonites within the upper Cretaceous Bastion Ridge and Kanguk formations, Sverdrup Basin, provide constraints on sedimentation rates, biostratigraphic correlations, timing of Oceanic Anoxic Event 2 (OAE2) in the High Arctic, and the late magmatic history of the High Arctic Large Igneous Province (HALIP). A late Cenomanian to early Turonian age for the base of the Kanguk Formation is confirmed that supports correlations of the global OAE2 in the High Arctic. Sedimentation rates varied from 19 m Ma−1between 93 and 91 Ma to 26 m Ma−1between 91 and 83 Ma at Axel Heiberg Island. At Ellef Ringnes Island, the lower Kanguk Formation records high rates of ~70 m Ma−1between 94 and 93 Ma, which decrease to rates comparable to those of the upper Axel Heiberg section. Differences in sedimentation rates may reflect differences in setting prior to the major transgression in the latest Cenomanian to early Turonian. The timing of Arctic occurrences of theScaphites nigricollensisandScaphites depressusammonite zones is shown to be broadly comparable to that of lower-latitude occurrences within the Western Interior Seaway. An eruption frequency of 0.5–2.5 Ma characterizes the late alkaline phase of HALIP magmatism. Volcanic bed thicknesses of 10–50 cm suggest ash transport distances of less than 1000 km. Long-lived volcanic centres, in the area of the Alpha Ridge, northern Ellesmere Island or northern Greenland, were the likely source of volcanic ash over a period of 10–15 Ma.

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