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A model for Iapetan rifting of Laurentia based on Neoproterozoic dikes and related rocks

William C. Burton and Scott Southworth
A model for Iapetan rifting of Laurentia based on Neoproterozoic dikes and related rocks (in From Rodinia to Pangea; the lithotectonic record of the Appalachian region, Richard P. Tollo (editor), Mervin J. Bartholomew (editor), James P. Hibbard (editor) and Paul M. Karabinos (editor))
Memoir - Geological Society of America (2010) 206: 455-476

Abstract

Geologic evidence of the Neoproterozoic rifting of Laurentia during breakup of Rodinia is recorded in basement massifs of the cratonic margin by dike swarms, volcanic and plutonic rocks, and rift-related clastic sedimentary sequences. The spatial and temporal distribution of these geologic features varies both within and between the massifs but preserves evidence concerning the timing and nature of rifting. The most salient features include: (1) a rift-related magmatic event recorded in the French Broad Massif and the southern and central Shenandoah Massif that is distinctly older than that recorded in the northern Shenandoah massif and northward; (2) felsic volcanic centers at the north ends of both French Broad and Shenandoah Massifs accompanied by dike swarms; (3) differences in volume between massifs of cover-sequence volcanic rocks and rift-related clastic rocks; and (4) WNW orientation of the Grenville dike swarm in contrast to the predominately NE orientation of other Neoproterozoic dikes. Previously proposed rifting mechanisms to explain these features include rift-transform and plume-triple-junction systems. The rift-transform system best explains features 1, 2, and 3, listed here, and we propose that it represents the dominant rifting mechanism for most of the Laurentian margin. To explain feature 4, as well as magmatic ages and geochemical trends in the Northern Appalachians, we propose that a plume-triple-junction system evolved into the rift-transform system. A ca. 600 Ma mantle plume centered east of the Sutton Mountains generated the radial dike swarm of the Adirondack Massif and the Grenville dike swarm, and a collocated triple junction generated the northern part of the rift-transform system. An eastern branch of this system produced the Long Range dike swarm in Newfoundland, and a subsequent western branch produced the ca. 554 Ma Tibbit Hill volcanics and the ca. 550 Ma rift-related magmatism of Newfoundland.


ISSN: 0072-1069
Coden: GSAMAQ
Serial Title: Memoir - Geological Society of America
Serial Volume: 206
Title: A model for Iapetan rifting of Laurentia based on Neoproterozoic dikes and related rocks
Title: From Rodinia to Pangea; the lithotectonic record of the Appalachian region
Author(s): Burton, William C.Southworth, Scott
Author(s): Tollo, Richard P.editor
Author(s): Bartholomew, Mervin J.editor
Author(s): Hibbard, James P.editor
Author(s): Karabinos, Paul M.editor
Affiliation: U. S. Geological Survey, Reston, VA, United States
Affiliation: George Washington University, Geological Sciences Program, Washington, DC, United States
Pages: 455-476
Published: 2010
Text Language: English
Publisher: Geological Society of America (GSA), Boulder, CO, United States
References: 131
Accession Number: 2011-102865
Categories: Solid-earth geophysicsIgneous and metamorphic petrology
Document Type: Serial
Bibliographic Level: Analytic
Illustration Description: illus. incl. sect., 1 table, geol. sketch maps
N33°00'00" - N53°00'00", W84°00'00" - W61°00'00"
Secondary Affiliation: University of Memphis, USA, United StatesNorth Carolina State University, USA, United StatesWilliams College, USA, United States
Country of Publication: United States
Secondary Affiliation: GeoRef, Copyright 2017, American Geosciences Institute. Reference includes data supplied by the Geological Society of America, Boulder, CO, United States
Update Code: 201152
Program Name: USGSOPNon-USGS publications with USGS authors
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