S. A. Kaplan scite author profile

A B S T R A C TLandscapes are thought to be youthful, particularly those of active orogenic belts. Unaweep Canyon in the Colorado Rocky Mountains, a large gorge drained by two opposite-flowing creeks, is an exception. Its origin has long been enigmatic, but new data indicate that it is an exhumed late Paleozoic landform. Its survival within a region of profound late Paleozoic orogenesis demands a reassessment of tectonic models for the Ancestral Rocky Mountains, and its form and genesis have significant implications for understanding late Paleozoic equatorial climate. This discovery highlights the utility of paleogeomorphology as a tectonic and climatic indicator.

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Geology of Unaweep Canyon and its role in the drainage evolution of the northern Colorado Plateau

Soreghan

Sweet

Thomson

et al. 2015

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Unaweep Canyon (Colorado, USA) is a large, Precambrian-cored gorge that bisects the Uncompahgre Plateau of the northeastern Colorado Plateau, but has no through-fl owing axial stream; it is drained by two underfi t creeks (East and WestCreek) that head at a divide within the canyon. The history of the canyon and its role in drainage evolution of the Colorado River system remain controversial. New mapping of both bedrock and Quaternary units as well as analyses of Quaternary deposits in and near the canyon shed light on its late Cenozoic history, and call into question whether the canyon was incised by a Cenozoic river, or merely exhumed by one. Gravels near the western mouth of Unaweep Canyon (Gateway, Colorado) exhibit a distinctive intermediate volcanic provenance recording the presence of an ancestral Gunnison River; the youngest gravels are dated to 1.46 ± 0.33 Ma. Previously documented coring within the canyon reveals a thick (locally >330 m) fi ll that includes a lacustrine succession (~140 m thick), dated to 1.4-1.3 Ma, overlain by stacked paleosols and a thick (~160 m) conglomeratic unit emplaced between 1.3 Ma and the present, in addition to a basal unit of possible late Paleozoic age. Lake formation refl ects catastrophic mass wasting in western Unaweep Canyon that blocked the ancestral Gunnison River, causing partial backfi lling of the canyon, and forcing the river to seek a lower elevation exit eastward by breaching the Mesozoic rim at the northeast end of Cactus Park (Mesa County, Colorado). Ultimately, the ancestral Gunnison River joined the lower elevation Colorado River near Grand Junction by 1.3 Ma, incising the East Creek of Unaweep Canyon during the overspilling event. Thermochronological data from Precambrian basement within Unaweep Canyon and Permian strata at the western mouth of the canyon indicate onset of incision in latest Miocene time (ca. 6-5 Ma), at a timeaveraged rate of ~210-275 m/m.y. Onset of canyon occupation and rapid incision by the ancestral Gunnison River coincided with the timing of integration of the lower Colorado River system to the Gulf of California. The synchroneity of this incision across the Colorado Plateau supports the inference of an ultimate tectonic or epeirorogenic driver for this widespread incision and ultimate drainage integration.Several aspects of this data set support the previously published hypothesis that the ancestral Gunnison River exhumed a paleovalley. New mapping at the western mouth of the canyon documents a paleovalley fi lled with Permian strata that leads into the modern Precambrian-hosted gorge of Unaweep Canyon. In addition, the ancestral Gunnison River paralleled the Uncompahgre Plateau before making a 90° turn to bisect the structural axis in a manner that opposes both the northwestward plunge of the uplift and the northeastward dip of its northern fl ank. The rate of incision of Unaweep Canyon exceeds regional time-averaged incision rates, consistent with removal of sedimentary fi ll rather than incision of crystalline basement. This hyp...

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An Exhumed Late Paleozoic Canyon in the Rocky Mountains: A Reply

Soreghan¹,

Sweet²,

Marra³

et al. 2009

The Journal of Geology

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Landscapes are thought to be youthful, particularly those of active orogenic belts. Unaweep Canyon in the Colorado Rocky Mountains, a large gorge drained by two opposite-flowing creeks, is an exception. Its origin has long been enigmatic, but new data indicate that it is an exhumed late Paleozoic landform. Its survival within a region of profound late Paleozoic orogenesis demands a reassessment of tectonic models for the Ancestral Rocky Mountains, and its form and genesis have significant implications for understanding late Paleozoic equatorial climate. This discovery highlights the utility of paleogeomorphology as a tectonic and climatic indicator.

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New data on the structure of the Kas Block in the basement of the West Siberian Plate

Хераскова

Kaplan

Bubnov³

et al. 2013

Geotecton.

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Structure of the Siberian platform and its western margin in the Riphean-Early Paleozoic

2009

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S. A. Kaplan

An Exhumed Late Paleozoic Canyon in the Rocky Mountains

Geology of Unaweep Canyon and its role in the drainage evolution of the northern Colorado Plateau

An Exhumed Late Paleozoic Canyon in the Rocky Mountains: A Reply

New data on the structure of the Kas Block in the basement of the West Siberian Plate

Structure of the Siberian platform and its western margin in the Riphean-Early Paleozoic

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