Add to ORKGThe timing and mechanism of Colorado River integration from the Grand Canyon to the Gulf of California have long been debated. Early research proposed river integration developed “bottom-up” due to Pliocene marine incursion and regional uplift. However, mapping, stratigraphy, and geochemical analyses of early Colorado River deposits instead support a “top-down” integration by progressive filling of lake basins connected by the Colorado River. Key to this debate are interpretations of the depositional environment of the Pliocene Bouse Formation. Here we present a new dataset of detrital zircon (U-Th)/Pb geochronology (n = 1774 single-grain ages) to explore the sedimentary provenance of sand horizons in the Bouse Formation. Our results span ...
The Hualapai Limestone, at the western edge of the Colorado Plateau, provides the best sedimentary r...
[1] The incision and aggradation of the Colorado River in eastern Grand Canyon through middle to lat...
Detrital-zircon age-spectra effectively define provenance in Holocene and Neogene fluvial sands from...
The ~5.6-4.8 Ma Bouse Formation, exposed along the lower Colorado River, contains a well exposed but...
The Colorado River has flowed across the dextral strike-slip plate boundary between the North Americ...
Neogene deposits of the lower Colorado River valley, especially the Miocene(?) and early Pliocene Bo...
The Miocene to Pliocene southern Bouse Formation preserves a record of depositional environments imm...
The Bouse Formation in the lower Colorado River trough holds an important record of the onset of the...
The Late Jurassic Morrison Formation through the Aptian to Cenomanian Dakota Group is a succession o...
The cause of Cenozoic uplift of the Colorado Plateau is one of the largest remaining problems of Cor...
The Colorado River in the SW of the USA is one of Earth’s few continental-scale rivers with an activ...
Detrital zircon age data gives great insight into the origins of large sandstone bodies and silicicl...
The Pliocene Bouse Formation in the lower Colorado River trough locally contains laminated marl and ...
The rock record of fluvial systems provides important information about provenance, sediment transpo...
Recently published thermochronological and paleoelevation studies in the Grand Canyon region, combin...
The Hualapai Limestone, at the western edge of the Colorado Plateau, provides the best sedimentary r...
[1] The incision and aggradation of the Colorado River in eastern Grand Canyon through middle to lat...
Detrital-zircon age-spectra effectively define provenance in Holocene and Neogene fluvial sands from...
The ~5.6-4.8 Ma Bouse Formation, exposed along the lower Colorado River, contains a well exposed but...
The Colorado River has flowed across the dextral strike-slip plate boundary between the North Americ...
Neogene deposits of the lower Colorado River valley, especially the Miocene(?) and early Pliocene Bo...
The Miocene to Pliocene southern Bouse Formation preserves a record of depositional environments imm...
The Bouse Formation in the lower Colorado River trough holds an important record of the onset of the...
The Late Jurassic Morrison Formation through the Aptian to Cenomanian Dakota Group is a succession o...
The cause of Cenozoic uplift of the Colorado Plateau is one of the largest remaining problems of Cor...
The Colorado River in the SW of the USA is one of Earth’s few continental-scale rivers with an activ...
Detrital zircon age data gives great insight into the origins of large sandstone bodies and silicicl...
The Pliocene Bouse Formation in the lower Colorado River trough locally contains laminated marl and ...
The rock record of fluvial systems provides important information about provenance, sediment transpo...
Recently published thermochronological and paleoelevation studies in the Grand Canyon region, combin...
The Hualapai Limestone, at the western edge of the Colorado Plateau, provides the best sedimentary r...
[1] The incision and aggradation of the Colorado River in eastern Grand Canyon through middle to lat...
Detrital-zircon age-spectra effectively define provenance in Holocene and Neogene fluvial sands from...