美国中大西洋海岸平原马格西组晚白垩世(Turonian-Coniacian)层序地层、海平面和三角洲相

Pub Date : 2021-03-31 DOI:10.29041/STRAT.18.1.01
P. Sugarman, K. Miller, J. Browning, P. Mclaughlin, D. Kulhanek
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引用次数: 0

摘要

摘要/ ABSTRACT摘要:在美国中大西洋沿岸平原,Turonian-Coniacian (93-87 Ma)的高峰“温室”期是由raitan /Bass River组、Magothy组和Cheesequake组组成的混合波、潮、河三角洲沉积在被动大陆边缘。利用连续岩心、露头和地球物理测井资料,我们将层序地层学与生物地层学相结合,识别和绘制了新泽西州的两个主要层序边界,将rariitan /Bass River、Magothy和Cheesequake组和4至5个(Mg1、mgg2、Mg3、Mg4、Mg5) Magothy层序分开。我们利用测井曲线将相关性扩展到纽约和特拉华州。玛格西层序不整合覆于年代较好的下Turonian—Cenomanian海相Raritan/Bass河层序上,并被横跨Coniacian/ sanantonian边界的海相Cheesequake组不整合覆于其上。与这次大断裂相关的“中turonian”断裂期(约93-90 Ma)是一个全球层序边界(K-Tu4),反映了海平面下降约25 m。根据NJ和俄罗斯平台的反剥离记录,这表明这是一次全球平均海平面(GMSL)的大下降。覆盖Mg1-Mg5的高阶(~1 Myr尺度)层序边界明显与全球层序相关,但仅与低幅度(<25 m)海平面下降有关。magthy组内的层序图显示了2到3个中等大小的河流源的影响,东北方向向纽约长岛方向变厚,西南方向向特拉华州方向变薄。北部厚沉积中心与之前的波多马克组(巴雷米亚-早塞诺曼尼亚期)形成对比,南部厚沉积中心。这种在100-300 km和2-10+ Myr尺度上的盆地跷跷板是由于可能由地幔动力地形变化引起的构造作用。maguthy层序和相的广泛分布表明,该三角洲沉积体系在~ 4Myr期间具有稳定性,尽管海平面变化幅度较小(小于25m)。广泛的相对比提供了与复杂三角洲相海平面变化有关的可预测的含水层砂和围合单元粘土的分布。
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Late Cretaceous (Turonian-Coniacian) sequence stratigraphy, sea level, and deltaic facies, Magothy Formation, U. S. Middle Atlantic Coastal Plain
ABSTRACT: The peak "hothouse" interval of the Turonian-Coniacian (93-87 Ma) is represented on the U.S. middle Atlantic Coastal Plain by sequences of the Raritan/Bass River, Magothy, and Cheesequake Formations deposited on a passive continental margin as mixed wave-, tide-, and river dominated deltas. We apply sequence stratigraphy integrated with biostratigraphy to identify and map two major sequence boundaries separating the Raritan/Bass River, Magothy, and Cheesequake Formations and four to five (Mg1, Mg2, Mg3, ?Mg4, Mg5) Magothy sequences using continuous cores, outcrops, and geophysical logs in New Jersey. We extend correlations into New York and Delaware using well logs. The Magothy sequences disconformably overlie the well-dated (>93 Ma) lower Turonian to Cenomanian marine Raritan/Bass River sequences and are disconformably overlain by the marine Cheesequake Formation, which straddles the Coniacian/Santonian boundary. A "mid-Turonian" hiatus (ca. 93-90 Ma) associated with this major disconformity is a global sequence boundary (K-Tu4) reflecting a ~ 25 m sea-level lowering based on published NJ and Russian Platform backstripping records that indicate this was a major lowering of Global Mean Sea Level (GMSL).Higher-order (~1 Myr scale) sequence boundaries bracketing Mg1-Mg5 apparently correlate with global sequences but are only associated with low-amplitude (<25 m) sea-level falls.Mapping of sequences within the Magothy Formation shows the influence of 2 to 3 moderate-sized river sources, with thickening northeastward toward Long Island, New York, and thinning southwestward toward Delaware. Thick northern depocenters contrast with the preceding Potomac Formation (Barremian-early Cenomanian) with thick southern depocenters. This seesawing of basins on the 100-300 km and 2-10+ Myr scales is due to tectonism likely from changes inmantle dynamic topography. The remarkably widespread distribution of Magothy sequences and facies indicates stability of this deltaic depositional system over ~ 4Myr despite low-amplitude (less than 25m) sea-level variations.Widespread facies correlation provides a predictable distribution of aquifer sands and confining-unit clays tied to sea-level changes on complex deltaic facies.
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