Depositional Environment and Diagenesis of the Teapot Sandstone, Southern Powder River Basin, Wyoming

Mountain Geologist Pub Date : 1984-07-01 DOI:10.31582/rmag.mg.21.3.91

P. Coughlan, J. Steidtmann

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Abstract

The Teapot Sandstone is interpreted as a regressive, wave/fluvial dominated deltaic sequence, which prograded eastward into the Cretaceous Seaway. Marine lithofacies coarsen upward from bioturbated offshore siltstone to nearshore sandstone with large, pellet-lined Ophiomorpha. The overlying well-sorted, horizontally-laminated, foreshore sandstone exhibits ridge and runnel topography. Marine foreshore sandstone is overlain by complexly interbedded sandstone and carbonaceous shale in stacked, lining-upward sequences of the delta plain. Rootlets and contorted beds are common. Fining-upward units are interpreted as abandoned channels. Coarsening-upward sequences are interpreted as interdistributary bay or lagoonal deposits. Capping the sequence is a thick, crossbedded, fluvial section consisting of levee, point bar, and channel sand deposits. Slumped beds, intraformational basal conglomerates, and minor eolian ripple laminations are present in fluvial sandstone. The Teapot Sandstone has a complex diagenetic history. Siderite and framboidal pyrite formed early in the diagenetic sequence at shallow depths of burial under anaerobic conditions. Pore-filling kaolinite, chlorite, and quartz overgrowths formed coevally following dissolution of relatively unstable framework grains. Poikilotopic calcite is locally abundant and extensively replaces framework grains. Depositional facies exert strong control of diagenetic patterns. Kaolinite occurs predominantly in fluvial sandstone. Chlorite is restricted to marine facies and calcite is further restricted to well-sorted foreshore marine sandstone. Quartz overgrowths occur only in relatively well-sorted sandstone, whereas pyrite and siderite are common in shaly sandstone and siltstone. Nearshore marine and fluvial sandstones are potential hydrocarbon reservoirs, although authigenic clays have significantly reduced permeability. Reservoir potential of we/I-sorted foreshore marine sandstone was destroyed by pore-filling calcite cement. Delta plain deposits are too thin, discontinuous, and poorly-sorted to form significant reservoirs.

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怀俄明州Powder River盆地南部Teapot砂岩沉积环境与成岩作用

茶壶砂岩被解释为一个后退的，波浪/河流为主的三角洲层序，向东推进到白垩纪海道。海相岩相从生物扰动的近海粉砂岩向上粗化到具有大型颗粒衬里蛇苔质的近岸砂岩。上覆分选良好、水平层状的前滨砂岩呈脊状和流状地形。海相前滨砂岩上覆复杂互层砂岩和碳质页岩，呈叠置向上排列的三角洲平原层序。小根和扭曲的床是常见的。向上细化的单位被解释为废弃的通道。向上粗化层序被解释为分流间海湾或泻湖沉积。覆盖层序的是一层厚的、交错层状的河流剖面，由堤防、点坝和河道砂沉积组成。在河流砂岩中存在着塌陷层、地层内基底砾岩和较小的风成纹层。茶壶砂岩具有复杂的成岩历史。菱铁矿和草莓状黄铁矿在厌氧条件下浅埋成岩序列中形成较早。充填孔隙的高岭石、绿泥石和石英过度生长体在相对不稳定的骨架颗粒溶解后形成共卵状。偏千元方解石局部丰富，广泛替代骨架颗粒。沉积相对成岩模式具有很强的控制作用。高岭石主要产于河流砂岩中。绿泥石仅限于海相，方解石进一步局限于分选良好的前滨海相砂岩。石英过度生长只发生在分选相对较好的砂岩中，而黄铁矿和菱铁矿则常见于泥质砂岩和粉砂岩中。近岸海相砂岩和河流砂岩是潜在的油气储集层，尽管自生粘土的渗透率明显降低。孔隙充填方解石胶结破坏了i / i分选前滨海相砂岩的储集潜力。三角洲平原沉积物太薄，不连续，分选差，无法形成重要的储层。

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Mountain Geologist

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