Detrital zircons and sediment dispersal in the Appalachian foreland

Thomas, William A.; Gehrels, George E.; Greb, Stephen F.; Nadon, Gregory C.; Satkoski, Aaron M.; Romero, Mariah C.

doi:10.1130/ges01525.1

Cited by 73 publications

(108 citation statements)

References 83 publications

(167 reference statements)

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“…The strong Grenville and Acadian‐Taconic age peaks observed in the zircon age spectra for the Chesterian IVF sandstones point to more distant or potentially recycled sources for sediments. Both the Grenville and Taconic‐Acadian orogenies occurred in the Appalachian region, and comparison of our data with data from the Alleghanian Appalachian Foreland Basin, a proxy for sediment sources and likely zircon age distributions derived from the orogen, shows a high degree of similarity (Thomas et al, and references therein). The almost mirror image in age spectra between sandstones from the Hugoton Embayment and Appalachian signature derived from synorogenic clastic wedge sediments (Thomas et al, ), shown in Figure c, strongly suggests that the Appalachian region was the primary source of sediments.…”

Section: Discussionsupporting

confidence: 56%

“…Both the Grenville and Taconic‐Acadian orogenies occurred in the Appalachian region, and comparison of our data with data from the Alleghanian Appalachian Foreland Basin, a proxy for sediment sources and likely zircon age distributions derived from the orogen, shows a high degree of similarity (Thomas et al, and references therein). The almost mirror image in age spectra between sandstones from the Hugoton Embayment and Appalachian signature derived from synorogenic clastic wedge sediments (Thomas et al, ), shown in Figure c, strongly suggests that the Appalachian region was the primary source of sediments. However, it is worth noting that the percentages of Yavapai‐Mazatzal grains (1,800–1,600 Ma; up to 10%) in some samples are higher than in Appalachian sources and may point to some limited contributions from local basement uplifts such as Nemaha Uplift (Xie, O'Connor, et al, ).…”

Section: Discussionsupporting

confidence: 56%

“…Diagrams were constructed using Isoplot (Ludwig, ). (c) Kernel density estimation plots comparing detrital zircon U‐Pb ages from Chesterian incised valley fill in the Hugoton Embayment (upper curve) with compiled detrital zircon ages from Late Paleozoic successions in the Appalachian Foreland (based on Thomas et al, and references therein).…”

Section: Resultsmentioning

confidence: 99%

“…It should be noted that there is some geographic variability in the age spectra for the St. Peter sandstone, particularly for zircons <2,000 Ma and most notably for the Grenville age group (Figures c–g). Comparison of these age spectra with the compiled age distribution for the Taconic synorgenic wedge (Gray & Zeitler, ; Cawood & Nemchin, ; McLennan et al, ; Eriksson et al, ; Park et al, ; Thomas et al, ) suggests that the Appalachian area was an important source of sediments and Grenville‐age zircons during the Early to Middle Ordovician; however, its influence and contributions were not uniform.…”

Section: Discussionmentioning

confidence: 99%

“…An increasing number of studies have focused their efforts on testing various aspects of the Gehrels et al () model (e.g., Finzel, ; Benyon et al, ; Lawton et al, ; Xie, O'Connor, et al, ; Xie, Cains, et al, ; Xie, Buratowski, et al, , Xie, Anthony, & Busbey, ; Xu et al, ; Thomas et al, ; Alsalem et al, ; Kissock et al, ). However, most of these published investigations have focused on Pennsylvanian and younger strata.…”

Section: Introductionmentioning

confidence: 99%

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Detrital Zircon Geochronologic Constraints on Patterns and Drivers of Continental‐Scale Sediment Dispersal in the Late Mississippian

Wei

Bidgoli

2019

Geochem Geophys Geosyst

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The Late Mississippian was a critical time interval in Laurentia's history, marking the transition from carbonate deposition on a stable platform, during the Early to Middle Mississippian, to extensive clastic deposition in the Pennsylvanian to Permian associated with the Laurentia‐Gondwana collision. In the U.S. midcontinent, Chesterian incised valley fill (IVF) systems that developed within a carbonate‐dominated platform provide new insights on the patterns and drivers of continental‐scale sediment dispersal during this transitional period. Here we report 1,037 new concordant detrital zircon U‐Pb ages from nine samples of Uppper Mississippian sandstone collected from cores in southwestern Kansas and from outcrops in northwestern Arkansas. The sandstones are characterized by major age clusters corresponding to the Grenville (900–1,300 Ma) and Taconic‐Acadian (350–500 Ma) orogenies and minor older age groups, suggesting derivation from the Appalachian region. A compilation of published detrital zircon ages from Early Paleozoic sandstones as well as from temporally equivalent units across North America, including from the Appalachian Foreland Basin, Illinois Basin, Arkoma Shelf, Ozark Dome, Black Warrior Basin, and Grand Canyon, suggests Chesterian sandstone age distributions are distinct from those of older sandstones and are consistent with a change to a dominantly Appalachian age signature that was roughly synchronous across the continent. Together, the new and compiled ages support development of a generally E‐W transcontinental sediment dispersal system in the Late Mississippian that was likely controlled by orogenesis on the eastern Laurentian margin, while local variations in the age signatures appear to be controlled by N‐S drainage networks, influenced by glacioeustatic fluctuations and local structures.

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Section: Discussionsupporting

confidence: 56%

Section: Discussionsupporting

confidence: 56%

Section: Resultsmentioning

confidence: 99%