The early Paleogene stratigraphic evolution of the Huerfano Basin, Colorado

Q3 Earth and Planetary Sciences

Rocky Mountain Geology Pub Date : 2020-07-01 DOI:10.24872/rmgjournal.55.1.1

Dirk M. Rasmussen, B. Foreman, H. Fricke, K. Snell, Lindsey A. Gipson, B. Housen

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引用次数: 1

Abstract

Sedimentary basins throughout the North American Western Interior contain a record of Late Cretaceous through Eocene deposition related to the Laramide orogeny. The typical stratigraphic progression includes an uppermost Cretaceous fluvio-deltaic geologic formation that is unconformably overlain by an alluvial or paludal Paleocene geologic formation. The Paleocene unit is usually characterized by drab overbank facies, and overlain by an interval of amalgamated fluvial sand bodies. The overlying Eocene geologic units are characterized by red bed overbank facies. These major stratigraphic changes have been variably linked to long-wavelength dynamic subsidence, local uplift, and climatic shifts. Herein, we evaluate the depositional history of the Huerfano Basin of south-central Colorado in this overarching context. Our study presents a detailed lithofacies analysis of the Poison Canyon, Cuchara, and Huerfano Formations integrated with a new bulk (1) organic carbon isotope record, n = 299 measurements (Data Supplement 1A); and (2) magnetic record, n = 247 measurements (Data Supplement 1B). We interpret that the Paleocene Poison Canyon Formation was deposited by a braided or coarse-grained meandering river system with relatively poorly drained floodplains. The Eocene Huerfano Formation was likely deposited by a coarse-grained meandering river system with a comparatively well-drained floodplain. This pattern mirrors other Laramide basins, and is likely related to a regional drying pattern linked to long-term warming during the early Paleogene. Age of the intervening Cuchara Formation is poorly resolved, but is an anomalously thick and coarse-grained fluvial unit, with evidence for extensive reworking of floodplain deposits and a moderate coarsening-upward pattern. The Cuchara Formation is associated with magnetic trends that suggest greater oxidation and weathering, and greater variability in rainfall patterns, as well as a subtle negative shift in carbon isotope values. This pattern indicates a period of widespread progradation within the basin, potentially related to a major Laramide uplift event that affected Colorado’s Wet Mountains, Front Range, and Sangre de Cristo Mountains.

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科罗拉多州韦尔法诺盆地早古近纪地层演化

整个北美西部内陆的沉积盆地包含晚白垩世到始新世的沉积记录，与拉腊米造山运动有关。典型的地层进阶包括最上层的白垩纪河流三角洲地质构造，该构造被冲积或古新世古滩地质构造不整合覆盖。古新世单元通常以灰褐色的上岸相为特征，上覆一段合并的河流砂体。上覆始新世地质单元以红层上岸相为特征。这些主要的地层变化与长波动态沉降、局部隆起和气候变化有不同的联系。在这里，我们在这个总体背景下评估了科罗拉多州中南部韦尔法诺盆地的沉积历史。本研究对Poison Canyon、Cuchara和Huerfano组进行了详细的岩相分析，并结合了新的体(1)有机碳同位素记录，n = 299测量值(数据补充1A);(2)磁记录，n = 247次测量(数据补充1B)。我们认为，古新世毒峡谷组是由辫状或粗粒度的曲流水系沉积而成，其洪泛平原排水相对较差。始新世韦尔法诺组可能是由一种粗粒度的曲流河体系沉积而成，具有相对良好的排水洪泛平原。这种模式反映了其他拉腊胺盆地，并且可能与古近纪早期长期变暖的区域干燥模式有关。其间的库恰拉组的年龄不太清楚，但它是一个异常厚而粗粒度的河流单元，有证据表明洪泛平原沉积物被广泛改造，并有中度的粗化向上模式。古恰拉组与磁场趋势有关，表明更大的氧化和风化，更大的降雨模式变化，以及碳同位素值的微妙负移。这种模式表明盆地内有一段广泛的递进期，可能与影响科罗拉多州湿山、Front Range和Sangre de Cristo山脉的主要Laramide隆起事件有关。

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来源期刊

Rocky Mountain Geology Earth and Planetary Sciences-Geology

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Rocky Mountain Geology (formerly Contributions to Geology) is published twice yearly by the Department of Geology and Geophysics at the University of Wyoming. The focus of the journal is regional geology and paleontology of the Rocky Mountains and adjacent areas of western North America. This high-impact, scholarly journal, is an important resource for professional earth scientists. The high-quality, refereed articles report original research by top specialists in all aspects of geology and paleontology in the greater Rocky Mountain region.