Coupled basin-detachment systems as paleoaltimetry archives of the western North American Cordillera

Stable isotope paleoaltimetry data from the Snake Range metamorphic core complex (MCC) and Sacramento Pass Basin (NV, USA) document that extensional mylonite zones and kinematically linked syntectonic basins reliably record paleotopography in the continental interior of western North America when co...

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Published in:Earth and planetary science letters 2012-06, Vol.335-336, p.36-47
Main Authors: Gébelin, Aude, Mulch, Andreas, Teyssier, Christian, Page Chamberlain, C., Heizler, Matthew
Format: Article
Language:English
Subjects:
Basin
Basins
Complement
detachment
Elevation
Freshwater
Geochronology
Isotopes
Marine
Mountains
North American Cordillera
paleoaltimetry
Sea level
Snake Range
Snakes
stable isotope
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cited_by cdi_FETCH-LOGICAL-a389t-4fc3225d17e118dcf1cf7582c243b002d40fa78a423c512ea3163ff8badb7a623
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container_end_page 47
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container_start_page 36
container_title Earth and planetary science letters
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creator Gébelin, Aude
Mulch, Andreas
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Page Chamberlain, C.
Heizler, Matthew
description Stable isotope paleoaltimetry data from the Snake Range metamorphic core complex (MCC) and Sacramento Pass Basin (NV, USA) document that extensional mylonite zones and kinematically linked syntectonic basins reliably record paleotopography in the continental interior of western North America when compared to a sea-level reference. Here we show that this basin–MCC pair tracks meteoric fluid flow at different levels of actively extending crust in a high-topography region during Oligo-Miocene extension of the Basin and Range Province. For paleoaltimetry purposes we compare multi-proxy oxygen (δ18O) and hydrogen (δD) isotope data as well as geochronological information from the Snake Range MCC to a time-equivalent (ca. 20Ma) stable isotopic proxy record from the Buckskin Mountains MCC (AZ, USA), which developed next to the Pacific Coast near Miocene sea level. We complement this paleoaltimetry study by comparing the Buckskin Mountains MCC data with older (∼35Ma) lacustrine stable isotope and paleofloral records from the nearby House Range (UT, USA), whose paleoelevation has been determined independently through paleobotanical analysis. Each of the investigated compartments of the paleohydrologic system within the Snake Range MCC depicts a coherent scenario of low Oligo-Miocene δ18O and δD values of meteoric water that reflect precipitation sourced at high elevation. A 77‰ difference in δDwater between the Snake Range (δDwater∼−113‰) and the Buckskin Mountains (δDwater∼−36‰) is consistent with minimum mean paleoelevation of the Snake Range of about 3850±650m above Miocene sea level. Additional support for such elevations comes from a comparison between the Buckskin Mountains MCC and the Eocene House Range basin (UT, USA) where differences in δ18Owater values are consistent with 2300±500m minimum paleoelevation of the House Range. Based on the presence of brecciated rock-avalanche deposits within the Sacramento Pass Basin, we conclude that the Snake Range was a topographic high and locus of significant relief during regional scale extension within the Cordilleran hinterland. ► Combined upstream and intracontinental records improve stable isotope paleoaltimetry. ► Coupled stable isotope records provide evidence for high U.S. Cordilleran mountains in the Miocene. ► Core complex–basin pairs represent robust archives for (paleo-)meteoric fluid flow.
doi_str_mv 10.1016/j.epsl.2012.04.029
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ispartof Earth and planetary science letters, 2012-06, Vol.335-336, p.36-47
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source Elsevier:Jisc Collections:Elsevier Read and Publish Agreement 2022-2024:Freedom Collection (Reading list)
subjects Basin
Basins
Complement
detachment
Elevation
Freshwater
Geochronology
Isotopes
Marine
Mountains
North American Cordillera
paleoaltimetry
Sea level
Snake Range
Snakes
stable isotope
title Coupled basin-detachment systems as paleoaltimetry archives of the western North American Cordillera
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