图片峡玄武岩:内部地层学、喷发模式及其对理解哥伦比亚河玄武岩群岩浆作用的重要性

IF 1.7 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Geosphere Pub Date : 2023-02-09 DOI:10.1130/ges02508.1
E. Cahoon, M. Streck, A. Koppers
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引用次数: 0

摘要

哥伦比亚河玄武岩群(CRBG)的图片峡玄武岩(PGB)以前被认为喷发量有限(<3000 km3),并且被认为不会延伸到其类型所在地。目前,PGB仅占CRBG的1.1 vol%,空间分布相对有限,约为10000 km2。新的年龄数据表明,与其他主相CRBG地层相比,PGB是最早、最长的喷发单元,一些年代确定的玄武岩流远超先前绘制的范围(约100公里)。本研究的重点是图片峡类型地区以南的大量玄武岩熔岩和岩墙露头,以重新评估PGB的空间分布和喷发量。现场观测和地球化学数据表明,PGB熔岩流和镁铁质岩脉覆盖的面积比已公布的地质图上显示的要大得多。我们发现,位于原始地图分布以南的其他镁铁质岩脉具有与纪念碑岩脉群的岩脉相当的地球化学成分和西北走向。我们还确定了新的熔岩流,这些熔岩流可以在地层控制明确的情况下与原始绘制的PGB分布相关联。通过主成分分析对20种主元素和微量元素丰度进行比较,促进了我们的分析和相关性。这种统计比较提供了具有地层意义的PGB的新的详细分布,使PGB熔岩和岩墙的总分布增加了一倍多,并使喷发体积达到至少~4200 km3的新的最小值。PGB延伸分布中的地球化学相关玄武岩熔岩和岩墙代表了内部PGB地层的早期和后期剖面。这是一个有趣的观察结果,因为新的地质年代数据表明,在17.23 Ma至15.76 Ma的PGB火山活动期间,爆发中断期约为400 k.y.用于区分PGB与其他主相CRBG地层的地球化学标识符包括较低的TiO2(<2 wt%)浓度、较低的不相容微量元素(即La、Th和y)丰度,以及原始地幔归一化微量元素图上大离子亲石元素(LILEs)的更明显富集(Sun和McDonough,1989)。PGB的地球化学特征被解释为代表不同于其他主相CRBG单元的岩浆源成分,可能是局部弧后地幔熔体。然而,该来源不能在空间上受到限制,因为观察到PGB熔岩流和岩墙向东延伸至Owyhee湖,向南延伸至哈特山,面积至少为15000平方公里。在现有地层学和PGB熔岩和岩墙的新范围的背景下,这些年龄和耦合的地球化学特征表明,地幔成分不是空间定位的,而是分布在广阔的区域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Picture Gorge Basalt: Internal stratigraphy, eruptive patterns, and its importance for understanding Columbia River Basalt Group magmatism
The Picture Gorge Basalt (PGB) of the Columbia River Basalt Group (CRBG) has been previously thought to be limited in its eruptive volume (<3000 km3) and thought to not extend far from its type locality. At present, PGB represents only 1.1 vol% of the CRBG with a relatively limited spatial distribution of ~10,000 km2. New age data illustrate that the PGB is the earliest and longest eruptive unit compared to other main-phase CRBG formations and that some dated basaltic flows reach far (~100 km) beyond the previously mapped extent. This study focuses on extensive outcrops of basaltic lavas and dikes south of the type locality at Picture Gorge, in order to reassess the spatial distribution and eruptive volume of the PGB. Field observations coupled with geochemical data indicate that PGB lava flows and mafic dikes covered a significantly greater area than shown on the published geologic maps. We find that additional mafic dikes located farther south of the original mapped distribution have geochemical compositions and northwest-trending orientations comparable to the dikes of the Monument dike swarm. We also identify new lava flows that can be correlated where stratigraphic control is well defined toward the original mapped PGB distribution. Our analyses and correlations are facilitated by comparison of 20 major- and trace-element abundances via a principal component analysis. This statistical comparison provides a new detailed distribution of PGB with stratigraphic significance that more than doubles the total distribution of PGB lavas and dikes and brings the eruptive volume to a new minimum of at least ~4200 km3. Geochemically correlated basaltic lavas and dikes in the extended distribution of PGB represent the earlier and later sections of the internal PGB stratigraphy. This is an intriguing observation as new geochronological data suggest an eruptive hiatus of ~400 k.y. during PGB volcanic activity, which occurred from 17.23 Ma to 15.76 Ma. The geochemical identifiers used to differentiate PGB from other main-phase CRBG formations include lower TiO2 (<2 wt%) concentrations, lower incompatible trace-element (i.e., La, Th, and Y) abundances, and a more pronounced enrichment in large-ion-lithophile elements (LILEs) on a primitive mantle–normalized trace-element diagram (Sun and McDonough, 1989). Geochemical characteristics of PGB are interpreted to represent a magmatic source component distinct from the other main-phase CRBG units, possibly a localized backarc-sourced mantle melt. However, this source cannot be spatially restricted as there are observed PGB lava flows and dikes extending as far east as Lake Owyhee and as far south as Hart Mountain, covering at least 15,000 km2. In context with the existing stratigraphy and the new extent of PGB lavas and dikes, these ages and coupled geochemical signatures demonstrate this mantle component was not spatially localized but rather tapped across a wide region.
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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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