重建美国得克萨斯州西部印第奥山脉南部Laramide收缩至里约热内卢大裂谷伸展的侵蚀构造记录

IF 1.7 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geosphere Pub Date : 2023-04-28 DOI:10.1130/ges02620.1
Aaron Conley, Samantha Ramirez, J. Ricketts, R. Langford, T. Pavlis, M. Heizler
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引用次数: 0

摘要

印第奥山脉南部暴露的岩石提供了从拉酰胺收缩到格兰德河裂谷伸展过渡的重要地质记录。这些岩石包括(1)在Laramide挤压过程中变形的一组褶皱和断裂的中生代岩石,(2)倾斜(但未褶皱)并填充古河谷的始新世火山岩和沉积岩,以及(3)沉积在格兰德河裂谷半地堑内的中新世砾岩。我们结合地质测绘、沉积学和结构分析以及地热色学,记录了德克萨斯州西部这种转变的时间和性质,作为与新墨西哥州和科罗拉多州更深入研究的构造和侵蚀史的重要比较。详细的地质测绘和横截面重建显示,中生代岩石上存在高度不规则的角度不整合,后拉酰胺地形通过EW走向的古河谷输送了局部始新世沉积。新的和现有的40Ar/39Ar地质年代将古河谷沉积的时间限制在38.1–36.6 Ma。巨型角砾岩单元的存在,加上古水流分析,表明德克萨斯州西部的主要Laramide地形起伏一直持续到始新世中期,碎屑向东部的Tornillo盆地流失。从区域构造模式的角度来看,这些数据表明,德克萨斯州西部的Laramide变形在38.1 Ma时已经停止,尽管它们并不排除沿着潜在的埋藏冲断层的平移。始新世-古河谷的切割和填充让人想起科罗拉多州和新墨西哥州北部发生的广泛的始新世侵蚀和河流沉积,并表明这一事件可能比以前认为的更广泛,延伸到奇瓦瓦州和得克萨斯州西部。随后的格兰德河裂谷延伸主要发生在几个NW走向的正断层上,这些正断层解剖了较老的结构和古河谷,并导致砾岩沉积在半地堑内。应用于正断层下盘岩石的磷灰石(U-Th)/He热年代学表明剥露冷却发生在27Ma,盆地填充的碎屑sanidine 40Ar/39Ar地质年代学表明最大沉积年龄为11.9Ma。砾岩的碎屑计数数据显示出显著的去顶趋势,其中碎屑包括局部衍生的中生代单元和始新世火山岩。
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Reconstructing the erosional and tectonic record of Laramide contraction to Rio Grande rift extension, southern Indio Mountains, western Texas, USA
Rocks exposed in the southern Indio Mountains provide an important geologic record of the transition from Laramide contraction to Rio Grande rift extension. These rocks include (1) a package of folded and faulted Mesozoic rocks deformed during Laramide compression, (2) Eocene volcanic and sedimentary rocks that are tilted (but not folded) and fill a paleovalley, and (3) Miocene conglomerate deposited within a Rio Grande rift half-graben. We present a combination of geologic mapping, sedimentological and structural analysis, and geothermochronology to document the timing and nature of this transition in western Texas as an important comparison with the more thoroughly studied tectonic and erosional history of New Mexico and Colorado. Detailed geologic mapping and cross-section reconstruction reveal a highly irregular angular unconformity overlying Mesozoic rocks and that post-Laramide topography funneled local Eocene deposition through an EW-trending paleovalley. New and existing 40Ar/39Ar geochronology constrains the timing of paleovalley deposition to 38.1–36.6 Ma. The presence of megabreccia units, coupled with paleoflow analysis, argue that major Laramide topographic relief in western Texas persisted into the Middle Eocene and that detritus was shed toward the Tornillo basin to the east. These data, when viewed within the context of regional tectonic patterns, suggest that Laramide deformation in western Texas had ceased by 38.1 Ma, although they do not preclude translation along an underlying buried thrust. Eocene paleovalley cutting and filling are reminiscent of widespread Eocene erosion and fluvial deposition that occurred in Colorado and northern New Mexico and suggest that this event may have been more widespread than previously thought, extending into Chihuahua and western Texas. Subsequent Rio Grande rift extension occurred primarily along several NW-striking normal faults that dissected the older structures and the paleovalley and led to deposition of conglomerate within a half-graben. Apatite (U-Th)/He thermo- chronology applied to normal fault footwall rocks indicates exhumational cooling was occurring by 27 Ma, and detrital sanidine 40Ar/39Ar geochronology of basin fill indicates a maximum depositional age of 11.9 Ma. Clast count data from the conglomerate show a prominent unroofing trend, wherein clasts include locally derived Mesozoic units and Eocene volcanic rocks.
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来源期刊
Geosphere
Geosphere 地学-地球科学综合
CiteScore
4.40
自引率
12.00%
发文量
71
审稿时长
6-12 weeks
期刊介绍: Geosphere is GSA''s ambitious, online-only publication that addresses the growing need for timely publication of research results, data, software, and educational developments in ways that cannot be addressed by traditional formats. The journal''s rigorously peer-reviewed, high-quality research papers target an international audience in all geoscience fields. Its innovative format encourages extensive use of color, animations, interactivity, and oversize figures (maps, cross sections, etc.), and provides easy access to resources such as GIS databases, data archives, and modeling results. Geosphere''s broad scope and variety of contributions is a refreshing addition to traditional journals.
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