Reconstructing source-to-sink systems from detrital zircon core and rim ages

Grenville-age (1.3-0.9 Ga) zircons represent one of the most ubiquitous detrital zircon (DZ) age modes on Earth. In North America, given the widespread occurrence of Grenville basement, Grenville DZs are commonly viewed as nondiagnostic with regard to source region in provenance studies. Systematic...

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Bibliographic Details
Published in:Geology (Boulder) 2022-06, Vol.50 (6), p.691-696
Main Authors: Liu, Li, Stockli, Daniel F, Lawton, Timothy F, Xu, Jie, Stockli, Lisa D, Fan, Majie, Nadon, Gregory C
Format: Article
Language:English
Subjects:
absolute age
Acadian
Age
Appalachian Phase
Appalachians
Basements
basins
Black Warrior Basin
Cambrian
Core making
crystal growth
crystal zoning
depth
detrital zircon
foreland basins
forelands
Fort Worth Basin
Genetic relationship
geochronology
Geochronometry
Geology
Grains
Grenvillian Orogeny
ICP mass spectra
Isotopes
laser ablation
laser methods
mass spectra
nesosilicates
North America
Orogeny
orthosilicates
Ouachita Orogeny
Paleozoic
Permian
Precambrian
provenance
Radiometric dating
reaction rims
sed rocks, sediments
sediment budget
sediment supply
sediment transport
Sedimentary petrology
sedimentation
sedimentation rates
silicates
sinks
source rocks
spectra
stream transport
syntectonic processes
Texas
transport
U/Pb
United States
Zircon
zircon group
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Summary:Grenville-age (1.3-0.9 Ga) zircons represent one of the most ubiquitous detrital zircon (DZ) age modes on Earth. In North America, given the widespread occurrence of Grenville basement, Grenville DZs are commonly viewed as nondiagnostic with regard to source region in provenance studies. Systematic recovery of DZ core-rim U-Pb ages makes it possible to identify and differentiate previously indistinguishable basement source terranes by leveraging their multistage tectono-magmatic evolution. Our analysis demonstrates that Grenville DZs exhibit distinct rim ages in different parts of the North American Paleozoic Appalachian-Ouachita-Marathon foreland. Whereas Grenville DZ grains in the eastern foreland, sourced from the southern Appalachian orogen in the eastern United States, exhibit Taconian and Acadian (490-350 Ma) rims, grains in the western foreland, derived from Mexico, mainly show Neoproterozoic (750-500 Ma) rim ages. This difference permits differentiation of nondiagnostic core ages by their distinctive rim ages. Furthermore, core-rim paired ages can illuminate potential genetic relationships among coexisting age components in DZ spectra, thereby indicating whether the DZs are derived from separate sources or from a single source with multistage tectono-magmatic histories. Thus, DZ rim-core ages can provide critical insights into reconstructing global source-to-sink systems and elucidating genetic linkages within multistage orogenic systems.
ISSN:0091-7613
1943-2682
DOI:10.1130/G49904.1