爱达荷州蛇河平原西部以北 Payette 地层和爱达荷组的 U-Pb 锆石年龄、绘图和生物地层学：对油气系统相关性的影响

Q3 Earth and Planetary Sciences

Rocky Mountain Geology Pub Date : 2023-11-01 DOI:10.24872/rmgjournal.58.2.83

Renee L. Love, Reed S. Lewis, Spencer H. Wood, Dennis M. Feeney, Mark D. Schmitz

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引用次数: 0

摘要

蛇河平原西部以北的沉积矿床拥有爱达荷州第一个也是唯一一个在产油气田。它们由中新世下至中新世的帕耶特地层、中新世中至上新世的毒溪地层和白垩山地层以及上新世至下更新世的格伦斯渡口地层组成。利用新的地质年代学、古动物生物地层学和地质绘图，我们将上升地表特征与地下石油开采要素联系起来。帕耶特地层可能是碳氢化合物的主要来源，也是未命名盆地的储层之一。在此，我们将帕耶特地层重新定义为 0 至 ~3,500 英尺（0 至 ~1,000 米）的泥岩，上覆少量砂岩，并与哥伦比亚河玄武岩组和韦泽火山岩田互层。中新世中期最佳气候期间和紧随其后出现在爱达荷州的包括枫香树和紫檀树在内的索引古植物以及 16.39 和 15.88 Ma 的新 U-Pb 年龄有助于确定该地层的厚度和范围。这是首次为油气井确定这些生物地层标记。毒溪地层是夹有泥岩的砂岩，厚度约为 800-1,800 英尺（250-550 米）。Chalk Hills 地层是凝灰质粉砂岩、粘土岩和砂岩，厚度约为 4,200 英尺（1,280 米）。毒溪河地层新的铀-铅年代为 10.1、9.04 和 9.00，毒溪河地层四个样本的最大沉积年代为 10.7 至 9.9 Ma。Chalk Hills地层中的浮石低位确定了一个7.78 Ma的U-Pb年龄。与帕耶特地层一样，毒溪河地层也可以是一个储层，而白垩山地层则是一个密封泥岩层。格伦斯渡口地层的上覆砂岩、粉砂岩和砾岩是地下石油系统的覆盖层，对埋藏和碳氢化合物的成熟非常重要。格伦斯渡口地层在研究区域的厚度可达 500 英尺（150 米），但大部分已被侵蚀。帕耶特地层和毒溪河地层沉积于中新世中期气候最适宜时期的火山流之间和火山流之上，而白垩山地层和格伦斯渡口地层则沉积于中新世中期气候最适宜时期之后整体干旱和冷却加剧时期的古爱达荷湖内。

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U–Pb zircon ages, mapping, and biostratigraphy of the Payette Formation and Idaho Group north of the western Snake River Plain, Idaho: Implications for hydrocarbon system correlation

Sedimentary deposits north of the western Snake River Plain host Idaho’s first and only producing oil and gas field. They consist of the lower to middle Miocene Payette Formation, the middle to upper Miocene Poison Creek and Chalk Hills Formations, and the Pliocene to lower Pleistocene Glenns Ferry Formation. Using new geochronology, palynomorph biostratigraphy, and geologic mapping, we connect updip surface features to subsurface petroleum play elements. The Payette Formation is a likely main source of the hydrocarbons, and acts as one of the reservoirs in the unnamed basin. Here, we redefine the Payette Formation as 0 to ~3,500 ft (0 to ~1,000 m) of mudstone, with lesser amounts of sandstone overlying and interbedded with the Columbia River Basalt Group and Weiser volcanic field. Index palynomorphs, including Liquidambar and Pterocarya, present in Idaho during and immediately after the middle Miocene climatic optimum, and new U–Pb ages of 16.39 and 15.88 Ma, help establish the thickness and extent of the formation. For the first time, these biostratigraphic markers have been defined for the oil and gas wells. The Poison Creek Formation is sandstone interbedded with mudstone that is ~800–1,800 ft (250–550 m) thick. The Chalk Hills Formation is a tuffaceous siltstone, claystone, and sandstone that is as much as ~4,200 ft (1,280 m) thick. New U–Pb ages are 10.1, 9.04, and 9.00 for the Poison Creek Formation, along with maximum depositional ages of 10.7 to 9.9 Ma for four samples from the Poison Creek Formation. A single U–Pb age of 7.78 Ma was determined from pumice low in the Chalk Hills Formation. Like the Payette Formation, the Poison Creek Formation can be a reservoir, whereas the Chalk Hills Formation acts as a sealing mudstone facies. The overlying sandstone, siltstone, and conglomerate of the Glenns Ferry Formation act as the overburden to the petroleum system in the subsurface, and were important for burial and hydrocarbon maturation. The Glenns Ferry Formation is up to 500 ft (150 m) thick in the study area, as much has been eroded. Whereas the Payette and Poison Creek Formations were deposited during the mid-Miocene climatic optimum amongst and above volcanic flows, the Chalk Hills and Glenns Ferry Formations were deposited within ancient Lake Idaho during an overall increase in aridity and cooling after the mid-Miocene climatic optimum.

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来源期刊

Rocky Mountain Geology Earth and Planetary Sciences-Geology

CiteScore

1.10

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0.00%

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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.