Depositional Interplay Between the Ancestral Rocky Mountains and Ouachita–Marathon–Sonora Orogenies: Insights From Provenance Records in the Late Palaeozoic Marfa Basin, West Texas, USA

IF 2.6 2区地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY

Basin Research Pub Date : 2026-03-16 DOI:10.1111/bre.70098

Sandra Juárez-Zúñiga, Daniel F. Stockli, Benjamin Johnson, Timothy F. Lawton

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Abstract

The Marfa Basin in West Texas is a late Palaeozoic synorogenic depocenter associated with regional deformation linked to the Ancestral Rocky Mountains (ARM) and Ouachita–Marathon–Sonora (OMS) orogenies in southwestern Laurentia. Basin strata range in age from Middle Pennsylvanian to the middle Permian and include the Cieneguita, Alta, Pinto Canyon, Rose Mine and Mina Grande Formations. Sandstone petrography and detrital zircon (DZ) U–Pb and (U–Th)/He double dating data from these strata reveal three tectonically driven sedimentation stages: syntectonic ARM deposition, progressive OMS foredeep deposition and an orogenic transition. The Cieneguita and lower part of the Alta Formations exhibit a Mesoproterozoic DZ age signature (~1318 and ~1076 Ma age peaks) and quartzo-feldspathic sandstone compositions sourced from the adjacent ARM-related Diablo Platform basement uplift in the Middle Pennsylvanian to earliest Permian. In contrast, the upper part of the Alta Formation, as well as the Pinto Canyon and Rose Mine Formations, have peri-Gondwanan DZ age signatures, with Mesoproterozoic (~1069–1036 Ma age peaks), Neoproterozoic–Cambrian (~700–490 Ma) and Palaeozoic (~490–300 Ma) age modes and litho-quartzose sandstone compositions derived from the OMS fold-and-thrust belt and orogenic hinterland during the early to middle Permian. The lower to middle parts of the Alta Formation have alternating DZ age signatures and sandstone compositions from both ARM and OMS sources, revealing that the transition in the sediment supply occurred during the middle Wolfcampian. This transition was not characterised by source mixing, but rather by sediment interfingering alternately sourced from the Diablo Platform uplift and the advancing OMS belt. These observations are confirmed by the DZ He ages, which reveal distinct cooling histories for both source terranes. These results document a switch from ARM- to OMS-related syntectonic deposition in southwestern Laurentia during the early Permian, demonstrating that ARM-driven deformation largely preceded the continental collision along the Marathon segment of the OMS orogen.

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古落基山脉与瓦奇塔-马拉松-索诺拉造山带的沉积相互作用：来自美国西德克萨斯晚古生代马尔法盆地物源记录的启示

西德克萨斯Marfa盆地是一个晚古生代同造陆沉积中心，其区域变形与洛伦提亚西南部的祖先落基山脉（ARM）和瓦奇塔-马拉松-索诺拉造山（OMS）造山运动有关。盆地地层年龄从中宾夕法尼亚到中二叠世，包括Cieneguita组、Alta组、Pinto Canyon组、Rose Mine组和Mina Grande组。砂岩岩相学和碎屑锆石（DZ） U-Pb和(U-Th)/He双测年资料揭示了同构造ARM沉积、进动OMS前深沉积和造山带过渡三个构造驱动的沉积阶段。Cieneguita组和Alta组下部具有中元古代DZ年龄特征（~1318和~1076 Ma年龄峰值），石英长石砂岩成分来自与ARM相关的中宾夕法尼亚至早二叠世的Diablo台地基底隆起。阿尔塔组上部以及平托峡谷和玫瑰矿组具有近冈瓦南DZ时代特征，具有中元古代（~1069 ~ 1036 Ma）、新元古代—寒武系（~700 ~490 Ma）和古生代（~490 ~ 300 Ma）时代模式和早-中二叠世源自OMS褶皱冲断带和造山带的岩石岩砂岩组成。阿尔塔组下部至中部DZ年代特征和ARM源与OMS源砂岩组成交替，表明沉积供应的转变发生在狼行统中期。这种转变的特征不是源混合，而是来自Diablo平台隆起和推进的OMS带的沉积物交替穿插。这些观测结果被DZ He年龄证实，它揭示了两个源地不同的冷却历史。这些结果记录了二叠世早期Laurentia西南部与ARM相关的同构造沉积向OMS相关的同构造沉积的转变，表明ARM驱动的变形在很大程度上先于OMS造山带马拉松段的大陆碰撞。

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来源期刊

Basin Research 地学-地球科学综合

CiteScore

7.00

自引率

9.40%

发文量

审稿时长

>12 weeks

期刊介绍： Basin Research is an international journal which aims to publish original, high impact research papers on sedimentary basin systems. We view integrated, interdisciplinary research as being essential for the advancement of the subject area; therefore, we do not seek manuscripts focused purely on sedimentology, structural geology, or geophysics that have a natural home in specialist journals. Rather, we seek manuscripts that treat sedimentary basins as multi-component systems that require a multi-faceted approach to advance our understanding of their development. During deposition and subsidence we are concerned with large-scale geodynamic processes, heat flow, fluid flow, strain distribution, seismic and sequence stratigraphy, modelling, burial and inversion histories. In addition, we view the development of the source area, in terms of drainage networks, climate, erosion, denudation and sediment routing systems as vital to sedimentary basin systems. The underpinning requirement is that a contribution should be of interest to earth scientists of more than one discipline.