Eocene paleo-physiography and drainage directions, southern Interior Plateau, British Columbia

Tribe, Selina

doi:10.1139/e04-062

Cited by 37 publications

(16 citation statements)

References 40 publications

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“…This decrease is a result of changes in rainout and decreasing temperature with latitude. Since the bulk of the study area has been at nearly the same latitude for the Cenozoic (Smith and others, 1981) (Kent-Corson and others, 2006;Carroll and others, 2008;Smith and others, 2008;Davis, 2009aDavis, , 2009bDoebbert and others, 2010 (Smith and others, 1993;Wang and others, 1993;Mack and others, 1994;Fox and Koch, 2004;Horton and others, 2004;Kent-Corson and others, 2006;Horton and Chamberlain, 2006;Fan and others, 2011; this study), paleolake sediments (Rogers and others, 1992;Poulson and John, 2003;Davis and others, 2008Davis and others, , 2009aDavis and others, , 2009b; this study) and fossil bivalves (Fan and Dettman, 2009); squares represent smectite from weathered ashes (Poage and Chamberlain, 2002;Takeuchi and Larson, 2005;Sjostrom and others, 2006); diamonds represent hydrated glasses from volcanic ashes (Mulch and others, 2008;Cassel and others, 2009b); triangles represent kaolinite from weathered stream deposits (Mulch and others, 2006); and pentagons are muscovite from shear zones others, 2004, 2007 documented for southern British Columbia (Mulch and others, 2004;Greenwood and others, 2005;Tribe, 2005;Mulch and others, 2007 18 O values of surface waters east of the Washington Cascades were higher than they are today. Third, the isotopic rain shadow on the east side of the Sierra Nevada had been established by the mid-Miocene and the isotopic values there were similar to modern values.…”

mentioning

confidence: 99%

The Cenozoic climatic and topographic evolution of the western North American Cordillera

Chamberlain¹,

Mix²,

Mulch³

et al. 2012

American Journal of Science

171

195

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ABSTRACT. Herein we present oxygen isotope records from Cretaceous to Recent terrestrial sediments in the western North American Cordillera. The purpose of this analysis is to use oxygen isotope records to understand the coupled surface elevation and climate histories of this region through the Cenozoic. To do this we constructed ␦ 18O maps of surface waters for time intervals that trace the development of topography of western North America. These maps are based on 4861 oxygen isotope analyses from both published (4478) and new (383) data. We determined the ␦ 18O values of surface waters using paleotemperatures derived previously from floral assemblages and the appropriate isotope fractionation factors. These data suggest that in the late Cretaceous to early Eocene the Sevier hinterland formed a plateau of unknown height. Around 50 Ma, a topographic wave developed in British Columbia and eastern Washington that swept southward reaching northeastern Nevada at ϳ40 to 38 Ma, and southern Nevada ϳ23 Ma. This southward encroachment of an Eocene Plateau (SWEEP) caused reorganization of drainage patterns such that the intraforeland basins of Wyoming and Utah drainages extended deep within the Sevier hinterland as the wave swept southward. The landscape within the Sevier hinterland developed into a rugged and high mountain range with the hypsometric mean elevation of ϳ4 km and relief of ϳ1.5 km. This Eocene highland was bordered on the west by a high Sierra Nevada ramp and on the east by the intraforeland basins that captured water draining these growing highlands. The spatial and temporal evolution of this highland correlates with the timing of volcanism and extension. These observations support tectonic models that call for north to south removal of the Farallon slab or piecemeal removal of mantle lithosphere.The isotopic data show that prior to growth of this highland the North American Monsoon (NAM) penetrated much farther north in the Paleocene/Eocene than today. The combined effects of global cooling, increasing latitudinal temperature gradients, and the generation of the orographic barrier created by the growing north to south highland produced a southward migration of the NAM front. By the Oligocene the hydrologic regime that we observe today was in place. It has been modified since then as a result of Basin and Range extension and collapse of the highlands in the mid-Miocene. This collapse allowed the NAM to penetrate farther north into the Great Basin of Nevada and Utah.

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mentioning

confidence: 99%

The Cenozoic climatic and topographic evolution of the western North American Cordillera

Chamberlain¹,

Mix²,

Mulch³

et al. 2012

American Journal of Science

171

195

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“…5) could be Devonian-age sediments and metasediments as mapped on the eastern side of the valley, or Eocene-age sediments as mapped on the western side of the valley (Thompson and Unterschultz 2004;Okulitch 2013). The elevation of these materials in section 5 is below the Eocene base level of 350-400 masl noted in Tribe (2005) for the Okanagan, but consistent with mapping of Eocene-age sediments at elevation of ϳ0 masl and higher in the area of Enderby Cliffs (Breitsprecher et al 2000).…”

Section: Bedrockmentioning

confidence: 61%

“…Eocene-age sediments comprising basal conglomerates, with siltstones and sandstones, are present in the bedrock ridge between Sleepy Hollow and Enderby. The Enderby Cliffs located 3 km north of Enderby, British Columbia, include further Eocene deposits, with basal sedimentary units that contain coal, which are overlain by mixed volcanic and sedimentary rocks (Breitsprecher et al 2000;Breitsprecher 2002;Tribe 2005).…”

Section: Prior Workmentioning

confidence: 99%

Quaternary stratigraphy and evidence for multiple glacial episodes in the north Okanagan Valley, British Columbia

et al. 2015

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This study investigates the Quaternary stratigraphy of the north Okanagan Valley to inform hydrogeological studies. The north Okanagan Valley extends from the north end of Okanagan Lake to Enderby in the southern interior of British Columbia, Canada. Prior surficial geology mapping, provincial and private borehole data, historical seismic profiling, and a new 5 km high-resolution seismic reflection profile were examined to characterize up to 580 m thickness of unconsolidated sediments. A mixture of glacial and interglacial sediments of uncertain Pleistocene age infills bedrock lows that extend below sea level. These are unconformably overlain by a sand and gravel unit of at least Early Wisconsin age (>65 000 years BP). It is in turn unconformably onlapped by nonglacial, organic-rich, lacustrine and alluvial deposits of Middle Wisconsin age (65 000 -23 000 years BP). This unit was eroded and overlain by a fine sand to silty sand unit deposited immediately prior to, or during, the Fraser Glaciation advance (>23 000 years BP). Diamict and glacial deposits including valley-side kame overlie these sands at some of the valley margins. Glaciolacustrine sediments of the end of the Fraser Glaciation have no appreciable organic matter and overlie the fine sands in the main Okanagan Valley; these form the majority of the surface outcrop. Recessional glaciodeltaic sediments overlie, and in some places may interfinger with, these glaciolacustrine sediments, which indicates an open proglacial lake environment during late glacial stages. These materials and fan-shaped periglacial debris flow deposits are incised by late Holocene fluvial downcutting. The north Okanagan Valley stratigraphy preserves the record of several glacial and interglacial periods, which suggests that overdeepening of the bedrock surface of the Okanagan Valley may be older than previously suggested.Résumé : La présente étude analyse la stratigraphie du Quaternaire du nord de la vallée de l'Okanagan dans le but d'obtenir des données pour des études hydrogéologiques. Le nord de la vallée de l'Okanagan s'étend de l'extrémité nord du lac Okanagan jusqu'à Enderby dans le sud intérieur de la Colombie-Britannique, Canada. Une cartographie antérieure de la géologie de surface, des données provinciales et privées de de forages, des profils sismiques historiques et un nouveau profil sismique réflexion à haute résolution, d'une longueur de 5 km, ont été examinés dans le but de caractériser des sédiments non consolidés atteignant une épaisseur de 580 m. Un mélange de sédiments glaciaires et interglaciaires, d'âge Pléistocène incertain, remplit des creux du socle qui s'étendent sous le niveau de la mer. Une unité de sable et de gravier, d'âge au moins Wisconsin précoce (>65 000 années avant le présent), repose de façon discordante sur ces sédiments. Des dépôts lacustres et alluviaux, riches en matière organique, datant du Wisconsin moyen (65 000 -23 000 années avant le présent), recouvrent à leur tour et de manière discordante transgressive l'unité de sable. Cette derni...

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“…Peak regional tectonic uplift during Okanagan Highlands times resulted in a mountainous topography comparable to the modern British Columbian Coast and Selkirk ranges (34,35). Floral proxies indicate a considerably warmer climate in coeval nearby coastal lowland formations, with a substantial elevational MAT gradient upslope to the cooler Okanagan Highlands (16,17,19,(36)(37)(38)(39).…”

Section: Discussionmentioning

confidence: 99%

Fossil palm beetles refine upland winter temperatures in the Early Eocene Climatic Optimum

Archibald

Morse

Greenwood

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Eocene climate and associated biotic patterns provide an analog system to understand their modern interactions. The relationship between mean annual temperatures and winter temperaturestemperature seasonality-may be an important factor in this dynamic. Fossils of frost-intolerant palms imply low Eocene temperature seasonality into high latitudes, constraining average winter temperatures there to >8°C. However, their presence in a paleocommunity may be obscured by taphonomic and identification factors for macrofossils and pollen. We circumvented these problems by establishing the presence of obligate palm-feeding beetles (Chrysomelidae: Pachymerina) at three localities (a fourth, tentatively) in microthermal to lower mesothermal Early Eocene upland communities in Washington and British Columbia. This provides support for warmer winter Eocene climates extending northward into cooler Canadian uplands.palm bruchines | paleoclimate | Okanagan Highlands | palm pollen

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Eocene paleo-physiography and drainage directions, southern Interior Plateau, British Columbia

Cited by 37 publications

References 40 publications

The Cenozoic climatic and topographic evolution of the western North American Cordillera

The Cenozoic climatic and topographic evolution of the western North American Cordillera

Quaternary stratigraphy and evidence for multiple glacial episodes in the north Okanagan Valley, British Columbia

Fossil palm beetles refine upland winter temperatures in the Early Eocene Climatic Optimum

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