富有机页岩/泥岩争论中的浅水与深水地层几何形状

Q1 Earth and Planetary Sciences GSA Today Pub Date : 2022-05-11 DOI:10.1130/abs/2021am-364729
D. Petty
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引用次数: 1

摘要

在美国威利斯顿盆地中部,Bakken组和其上的Lodgepole组下部都具有细粒、富有机质的地层单元,沉积学上认为这些地层单元代表了低能量、远海环境下的深水沉积;然而,这些地层显示出截然不同的地层几何形状,这对传统的沉积学解释提出了挑战。巴肯组横跨泥盆系-石炭系界线,包括黑色富有机质(总有机碳[TOC] 2%-26%)页岩单元。地层特征强烈支持所有巴肯沉积物在浅水沉积,这表明:(1)巴肯地层位置位于一个主要的陆上不整合面之上;(2)巴肯地层局限于盆地地区;(3)缺乏与页岩相当的陆向矿床;(4)所有巴肯单元的层饼状、上覆、陆向减薄地层几何形状;(5)由页岩内部上覆和地层变薄造成的逐渐向陆地的页岩尖突,而不是侵蚀截断;(6)巴肯中部极浅水沉积的明确证据;(7)缺乏巴肯内部海平面大变化的证据。威利斯顿盆地下Lodgepole地层以显著的s形斜形为特征。在下Virden斜状岩中,泥质泥岩、层状微晶白云岩、微生物-似球-碎屑内泥质岩和骨架-鲕粒灰岩形成陆棚相,向海过渡为厚(最大80 m)、骨架-似球泥岩到包岩斜坡相,向海过渡为向海变薄(10 m ~ 1 m)、黑色、富有机质(1% ~ 8% TOC)的盆地底相碳酸盐泥岩。
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SHALLOW-WATER VS. DEEP-WATER STRATIGRAPHIC GEOMETRIES IN THE ORGANIC-RICH SHALE/MUDSTONE DEBATE
In the central Williston basin, USA, the Bakken Formation and overlying lower Lodgepole Formation both have fine-grained, organic-rich stratigraphic units that have been interpreted sedimentologically to represent deep-water deposition in a low-energy, distal-marine environment; how-ever, these formations display vastly different stratigraphic geometries that challenge the conventional sedimentology interpretations. The Bakken Formation spans the Devonian-Carboniferous boundary and includes black, organic-rich (2%–26% total organic carbon [TOC]) shale units. Stratigraphic characteristics strongly support deposition of all Bakken sediments in shallow water, as indicated by (1) the Bakken stratigraphic position overlying a major subaerial unconformity; (2) the restriction of Bakken strata to basinal areas; (3) the absence of shale-equivalent landward deposits; (4) a layer-cake, onlap, landward-thinning stratigraphic geometry for all Bakken units; (5) gradual landward shale pinchouts that occur by intra-shale onlap and stratal thinning, not erosional truncation; (6) unequivocal evidence for very shallow-water middle Bakken deposition; and (7) the absence of evidence for large intra-Bakken sea-level changes. Lower Lodgepole strata in the Williston basin are characterized by prominent sigmoidal clinoforms. In the lower Virden clinoform, argillaceous mudstone, laminated microcrystalline dolostone, microbial-peloidal-intraclastic packstone, and skeletal-oolitic limestone form a shelf facies that transitions seaward into a thick (maximum 80 m), skeletal-peloidal mudstone to packstone slope facies, which transitions seaward into seaward-thinning (10 m to 1 m), black, organic-rich (1%–8% TOC) carbonate mudstone in a basin-floor facies,
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GSA Today
GSA Today Earth and Planetary Sciences-Geology
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20
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