Your search keyword '"Crowley, James L."' showing total 5 results

1. Age and significance of the Fire Bay assemblage: an Ordovician arc fragment within the Clements Markham belt, northwestern Ellesmere Island, Canada.

Author

Koch, Megan M., Faehnrich, Karol, McClelland, William C., Crowley, James L., Melchin, Michael J., Beranek, Luke P., and Strauss, Justin V.

Subjects

CLASTIC rocks, VOLCANIC ash, tuff, etc., AGE, ISLANDS, GRAPTOLITES, ORDOVICIAN Period

Abstract

Copyright of Canadian Journal of Earth Sciences is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

2. U-Pb geochronologic constraints on Paleoproterozoic tectonism in the Monashee complex, Canadian...

Author

Crowley, James L.

Subjects

*GEOLOGICAL time scales, *MORPHOTECTONICS

Abstract

Presents a study which uses isotopic data and field relationships to outline the Paleoproterozoic geologic history of the Monashee complex in the Canadian Cordillera. Preservation of the effects of Paleoproterozoic tectonism in deep structural levels of the complex; Obstacle to the determination of precise crystallization ages; Process of interpreting metamorphism.

Published

1999

3. Calibrating the Cryogenian.

Author

Macdonald, Francis A., Schmitz, Mark D., Crowley, James L, Roots, Charles F., Jones, David S., Maloof, Adam C., Strauss, Justin V., Cohen, Phoebe A., Johnston, David T., and Schrag, Daniel P.

Subjects

*URANIUM-lead dating, *CARBON cycle, *GLACIERS, *PALEOMAGNETISM, PROTEROZOIC paleoecology, LAURENTIA (Continent)

Abstract

The Neoproterozoic was an era of great environmental and biological change, but a paucity of direct and precise age constraints on strata from this time has prevented the complete integration of these records. We present four high-precision U-Pb ages for Neoproterozoic rocks in northwestern Canada that constrain large perturbations in the carbon cycle, a major diversification and depletion in the microfossil record, and the onset of the Sturtian glaciation. A volcanic tuff interbedded with Sturtian glacial deposits, dated at 716.5 million years ago, is synchronous with the age of the Franklin large igneous province and paleomagnetic poles that pin Laurentia to an equatorial position. Ice was therefore grounded below sea level at very low paleolatitudes, which implies that the Sturtian glaciation was global in extent. [ABSTRACT FROM AUTHOR]

Published

2010

4. Late Paleoproterozoic terrane accretion in northwestern Canada and the case for circum-Columbian orogenesis

Author

Furlanetto, Francesca, Thorkelson, Derek J., Daniel Gibson, H., Marshall, Daniel D., Rainbird, Robert H., Davis, William J., Crowley, James L., and Vervoort, Jeffrey D.

Subjects

*PROTEROZOIC Era, *OROGENY, *PLATE tectonics, *CRATONS, *URANIUM-lead dating, LAURENTIA (Continent)

Abstract

Abstract: The reconstruction of the paleocontinental configuration involving ancestral North America (Laurentia) at the Paleoproterozoic–Mesoproterozoic boundary has been developed in the last 30 years with different scenarios being proposed and different combinations of landmasses assembled together. However, the lack of information for the northwestern side of the North American craton has so far been an obstacle for the complete paleocontinental reconstruction and its tectonic history. Here we provide new age determinations on rocks of the Wernecke Supergroup and of the Wernecke Breccia of the Wernecke Mountains in Yukon to provide a more complete picture of the entire North American craton and its possible conterminous at 1600Ma. The six youngest U–Pb ages of the detrital zircon from quartz sandstones of the Wernecke Supergroup suggest that the sedimentary succession is as old as 1640Ma. Lu–Hf garnet ages on garnet bearing schists of the Fairchild Lake Group (lower Wernecke Supergroup) give a bimodal population of ages of approximately 1600Ma and 1370Ma: the first age is related to the Racklan Orogeny, and the younger event is likely attributable to a reheating episode (Hart River Sills emplacement). The younger age of the Wernecke Supergroup puts into question the previous model concerning the emplacement of the Bonnet Plume River Intrusions, and requires the development of a new tectonic model for the northwestern margin of Laurentia. This new model involves obduction of an exotic terrane on top of the Wernecke Supergroup during the latest phases of the Racklan Orogeny (ca. 1600Ma). This exotic terrane, herein called Bonnetia, contains rocks of the Bonnet Plume River intrusions and of the Slab volcanics. During the hydrothermal event that led to the emplacement of the Wernecke Breccia, clasts and megaclasts of the overlying Bonnetia foundered down to the breccia pipes to the level of the Wernecke Supergroup, and this dynamic explains the existence of older rocks engulfed within a younger sedimentary succession. The Racklan Orogeny is now interpreted as a northwestern expression of the Mazatzal Orogeny of southwestern United States, and of the Labradorian Orogeny of eastern Canada which was in turn connected with the Gothian Orogeny of Scandinavia. The connection among these orogenic events makes plausible the hypothesis of a circum-Laurentian orogenic belt with possible extensions in other landmasses (Australia, Antarctica, Siberia, or China) where coeval deformation belts are present. [Copyright &y& Elsevier]

Published

2013

5. Provenance, stratigraphic and precise depositional age constraints for an outlier of the 1.9 to 1.8 Ga Nonacho Group, Rae craton, Northwest Territories, Canada.

Author

Neil, Benjamin J.C., Gibson, H. Daniel, Pehrsson, Sally J., Martel, Edith, Thiessen, Eric J., and Crowley, James L.

Subjects

*PROVENANCE (Geology), *LASER ablation inductively coupled plasma mass spectrometry

Abstract

• Detrital zircon geochronology of an upper Nonacho Group outlier, Rae craton, Canada. • A CA-TIMS maximum depositional age of 1901.0 ± 0.9 Ma for the upper Nonacho Group. • The upper Nonacho Group was derived from topography of the Taltson-Thelon orogens. • Evidence for felsic volcanism at ca. 2.38 Ga during the Arrowsmith orogeny. The Nonacho Group comprises six formations of continental clastic rocks that were deposited between 1.91 and 1.83 Ga. The Nonacho Group is part of a broader assemblage of conglomerate and sandstone that was deposited atop the Rae craton in response to the amalgamation of Laurentia and supercontinent Nuna , but the details of its tectonic setting are contentious. This paper documents an outlier of Nonacho Group rocks ∼50 km east of the main Nonacho basin. Field observations and LA-ICPMS (laser ablation inductively coupled plasma mass spectrometry) U-Pb detrital zircon geochronology are integrated with previous studies of the main basin to better understand the group's depositional history, provenance and tectonic setting. The lithology and detrital zircon age spectra of the outlier allow for its correlation to the upper two formations of the Nonacho Group. CA-ID-TIMS (chemical abrasion isotope dilution thermal ionization mass spectrometry) analyses of two fragments of the youngest detrital zircon provide a maximum depositional age of 1901.0 ± 0.9 Ma. A felsic volcanic cobble dated at ca. 2.38 Ga provides evidence of volcanism during the Arrowsmith orogeny. Detrital zircon dates recovered from the outlier (ca. 3.4–3.0, 2.7, 2.5–2.3 and 2.0–1.9 Ga) are consistent with derivation from topography of the Taltson and/or Thelon orogens on the western margin of the Rae craton. Taltson-Thelon (2.0 to 1.9 Ga) aged detritus is only abundant in the upper two formations of the Nonacho Group, marking a change in provenance from the lower formations. This change in provenance may have coincided with a period of renewed uplift and the unroofing of Taltson-Thelon plutons. The detrital zircon provenance and depositional age of the Nonacho Group is consistent with models that link its deposition to the Taltson and/or Thelon orogens. However, tectonism associated with the 1.9 to 1.8 Ga Snowbird and Trans-Hudson orogens to the east could also have affected basin formation or the change in provenance from the lower to upper Nonacho Group. This study highlights the importance of CA-ID-TIMS in establishing accurate and precise maximum depositional ages for sedimentary successions. [ABSTRACT FROM AUTHOR]

Published

2021